104121-92-8

Basic information

• Product Name: 2-(3-hydroxypropoxy)-1,25-dihydroxyvitamin D3
• Synonyms: 2-(3-hydroxypropoxy)-1,25-dihydroxyvitamin D3;Eldecalcitol;ED-71;Eldecalcitol(ED-71);2.beta.-(3-Hydroxypropoxy)-1.alpha.,25-dihydroxyvitaMin D3;(1R,Z)-5-((E)-2-((1R,7aR)-1-((R)-6-hydroxy-6-methylheptan-2-yl)-7a-methylhexahydro-1H-inden-4(2H)-ylidene)ethylidene)-2-(3-hydroxypropoxy)-4-methylenecyclohexane-1,3-diol;1alpha,25-dihydroxy-2beta-(3-hydroxypropoxy)vitamin D3
• CAS NO: 104121-92-8
• Molecular Formula: C₃₀H₅₀O₅
• Molecular Weight: 490.71
• EINECS: 686-849-3
• Mol File: 104121-92-8.mol
• Article Data: 8

Chemical Properties

• Melting Point: 126-128℃
• Boiling Point: 655.656 °C at 760 mmHg
• Flash Point: 350.328 °C
• Appearance: /
• Density: 1.10
• Vapor Pressure: 5.68E-20mmHg at 25°C
• Refractive Index: 1.55
• PKA: 13.80±0.60(Predicted)
• CAS DataBase Reference: 2-(3-hydroxypropoxy)-1,25-dihydroxyvitamin D3(CAS DataBase Reference)
• NIST Chemistry Reference: 2-(3-hydroxypropoxy)-1,25-dihydroxyvitamin D3(104121-92-8)
• EPA Substance Registry System: 2-(3-hydroxypropoxy)-1,25-dihydroxyvitamin D3(104121-92-8)

Safety Data

• Hazardous Substances Data: 104121-92-8(Hazardous Substances Data)

Usage

Description

Eldecalcitol (Edirol) was approved in January 2011 by the Japanese Ministry of Health, Labor, and Welfare for the treatment of osteoporosis. Because of vitamin D’s central role in the bone health, vitamin D and analogs of vitamin D have been used to treat patients diagnosed with osteoporosis. Eldecalcitol is an analog of the active form of vitamin D, calcitriol, in which the lower cyclohexane ring contains a hydroxypropyl group. The synthesis of eldecalcitol involves the assembly of two units, a fully protected (3S,4S,5R)-oct-1-en-7-yne-3,4,5-triol and a fused bicyclic system, (R)-6- ((1R,3aR,7aR,E)-4-(bromomethylene)-7a-methyloctahydro-1H-inden-1- yl)-2-methylheptan-2-ol, through a Diels-Alder reaction to give fully protected eldecalcitol. The hydroxyl groups are then deprotected to give the parent molecule. Eldecalcitol binds to the vitaminDreceptor 2.7-fold more potently than calcitriol, while only weakly inhibiting serum parathyroid hormone.

Originator

Chugai Pharmaceutical/Roche (Japan)

Uses

Eldecalcitol is a derivative of vitamin D3 (V676045) which is the vitamin that mediates intestinal calcium absorbtion, bone calcium metabolism and probably, muscle activity.

Definition

ChEBI: A hydroxycalciol that is calcitriol with a 3-hydroxypropoxy group at position 2.

Brand name

Edirol

Clinical Use

Eldecalcitol is a vitamin D3 analog approved in Japan for the treatment of osteoporosis. Itwasdiscoveredby Chugai and co-developed with Taisho. Eldecalcitol, a hormonally active calcitrol analog, regulates calcium and bone metabolism. The drug was approved on the basis of results from randomized, double-blinded, parallelgroup, phase III studies taking place over three years that showed eldecalcitol to significantly lower incidence of new vertebral fractures compared to those receiving the comparator drug alfacalcidol. Discovery and SAR studies of vitamin D3 analogs leading to the identification of eldecalcitol have been reported. In addition, multiple syntheses, including parallel approaches, have been reported in publications and patents.

Synthesis

The biomimetic vitamin D3 analog synthesis that was recently disclosed, based on an earlier reported route for the commercial synthesis of alfacalcidol, will be discussed here.An Oppenauer oxidation converted commercially available cholesterol 141 to enone 142 in 80% yield. A second oxidation event with DDQ provided dienone 143 in 75% yield. Treatment of 143 with sodium ethoxide in ethanol triggered migration of the enone double bond into the B-ring, giving olefin 144 in 53% yield. Stereospecific reduction of ketone 144 with sodium borohydride gave alcohol 145 in 53% yield, which was then immediately protected as the corresponding acetate with acetic anhydride to furnish 146. Next, further dehydrogenation of the B-ring was accomplished using radical bromination of the olefin within 146 through the use of NBS and catalytic AIBN, followed by elimination with collidine. A subsequent saponification step ultimately gave rise to the key diene 147. Next, in order to selectively epoxidize the A-ring olefin, a unique ‘protection’ strategy was employed using phenyl- 1,2,4-triazole-3,5-dione (PTAD). Diels–Alder reaction between diene 147 and PTAD produced cycloadduct 148 in 80% overall yield from acetate 146. Protection of the alcohol as the corresponding TBS ether preceeded a regio- and stereospecific epoxidation with m-CPBA to afford 1,2a-epoxide 150 in 78% yield. Diels–Alder adduct 150 was then subjected to thermal conditions to affect a retro-[ 4+2] reaction to give diene 151. Fluoride-mediated removal of the TBS group prepared 3b-alcohol 152 in 95% yield. Subsequent ring-opening reaction with 1,3-propane diol in the presence of potassium t-butoxide, provided 3-hydroxy propoxy ether 153 in 29% yield. Microbial oxidation of intermediate 153 was accomplished using an Amycolata autotrophica ATCC 33796 culture to obtain eldecalcitol derivative 154 in 64% yield. Subjection of 154 to 400 watt light followed by thermolysis provided eldecalcitol (XII) in 29% yield.

InChI:InChI=1/C30H50O5/c1-20(9-6-15-29(3,4)34)24-13-14-25-22(10-7-16-30(24,25)5)11-12-23-19-26(32)28(27(33)21(23)2)35-18-8-17-31/h11-12,20,24-28,31-34H,2,6-10,13-19H2,1,3-5H3/b22-11+,23-12-/t20-,24-,25+,26+,27+,28+,30-/m1/s1

Synthetic route

(1β,2α,3α,5Z,7E)-1,3-bis[(1,1-dimethylethyl)dimethylsilyloxy]-2-[3-[(1,1-dimethylethyl)dimethylsilyloxy]propoxy]-25-trimethylsilyloxy-9,10-secocholesta-5,7,10(19)-triene (342645-84-5) → Eldecalcitol (104121-92-8)

Conditions	Yield
With pyridine; hydrogen fluoride In tetrahydrofuran at 20℃;	96%

C54H106O5Si4 → Eldecalcitol (104121-92-8)

Conditions	Yield
With tetrabutyl ammonium fluoride In tetrahydrofuran at 25℃;	89%

((1R,2R,3R,Z)-2-(3-(tert-butyldiphenylsilyloxy)propoxy)-5-((E)-2-((1R,3aS,7aR)-7a-methyl-1-((R)-6-methyl-6-(trimethylsilyloxy)heptan-2-yl)dihydro-1H-indene-4(2H,5H,6H,7H,7aH)-ylidene)ethylidene)-4-methylene cyclohexane-1,3-diyl)bis(oxy)bis(tert-butyldimethylsilane) → Eldecalcitol (104121-92-8)

Conditions	Yield
With toluene-4-sulfonic acid In methanol; dichloromethane at 20℃; for 5h; Inert atmosphere;	80%

C38H66O9 → Eldecalcitol (104121-92-8)

Conditions	Yield
With methanol at 20℃; for 66h; Inert atmosphere; stereoselective reaction;	68%

(R)-6-{(1R,3aS,7aR)-4-[2-[(3R,4R,5R)-3,5-Bis-(tert-butyl-dimethyl-silanyloxy)-4-[3-(tert-butyl-dimethyl-silanyloxy)-propoxy]-2-methylene-cyclohex-(Z)-ylidene]-eth-(E)-ylidene]-7a-methyl-octahydro-inden-1-yl}-2-methyl-heptan-2-ol → Eldecalcitol (104121-92-8)

Conditions	Yield
With tetrabutyl ammonium fluoride In tetrahydrofuran at 20℃; for 96h;	61%

(5Z,7E)-(1R,2R,3R)-1,3-bis(tert-butyldimethylsilyloxy)-2-(3-tert-butyldimethylsilyloxypropoxy)-25-triethylsilyloxy-9,10-secocholesta-5,7,10(19)-triene (933779-95-4) → Eldecalcitol (104121-92-8)

Conditions	Yield
With tetrabutyl ammonium fluoride In tetrahydrofuran; toluene at 105℃; for 2h;	60%

(5R,6R)-6-((R)-1-(methoxymethoxy)allyl)-5-(prop-2-yn-1-yl)-2,4,7,11,13-pentaoxatetradecane + C21H37BrO2 → Eldecalcitol (104121-92-8)

Conditions	Yield
Stage #1: (5R,6R)-6-((R)-1-(methoxymethoxy)allyl)-5-(prop-2-yn-1-yl)-2,4,7,11,13-pentaoxatetradecane; C21H37BrO2 With tetrakis(triphenylphosphine) palladium(0); triethylamine In toluene at 110℃; for 2h; Stage #2: With camphor-10-sulfonic acid In methanol at 20℃; for 72h;	36%

25-[(triethylsilyl)oxy]de-A,B-cholestan-8-one (144848-24-8) + [3R-(1Z,3β,4α,5α)]-[2-[3,5-bis[(1,1-dimethylethyl)dimethylsilyloxy]-4-[3-[(1,1-dimethylethyl)dimethylsilyloxy]propoxy]-2-methylenecyclohexylidene]ethyl]diphenylphosphine oxide (200636-54-0) → Eldecalcitol (104121-92-8)

Conditions	Yield
Multistep reaction;

methyl 4,6-O-benzylidene-3-O-(3-hydroxypropyl)-α-D-altropyranoside (299410-93-8) → Eldecalcitol (104121-92-8)

Conditions

Yield

Multi-step reaction with 9 steps 1.1: 2.1 g / Et3N; DMAP / CH2Cl2 / 3 h / 20 °C 2.1: 91 percent / BaCO3; NBS / CCl4 / Heating 3.1: 86 percent / Zn; NaBH3CN / propan-1-ol; H2O / 95 °C 4.1: pyridine / 20 °C 5.1: 1.4 g / LiHMDS / tetrahydrofuran / 1 h / -78 - 0 °C 6.1: n-BuLi / tetrahydrofuran; hexane / -78 °C 6.2: BF3*OEt2 / tetrahydrofuran; hexane / -78 - 20 °C 6.3: 90 percent / K2CO3 / methanol / 20 °C 7.1: 100 percent / 2,6-lutidine / CH2Cl2 / 0 °C 8.1: 52 percent / Et3N; Pd(PPh3)4 / toluene / Heating 9.1: 61 percent / TBAF / tetrahydrofuran / 96 h / 20 °C

methyl 4,6-O-benzylidene-3-O-[3-{(tert-butyldimethylsilyl)oxy}propyl]-α-D-altropyranoside (299410-95-0) → Eldecalcitol (104121-92-8)

Conditions

Yield

Multi-step reaction with 8 steps 1.1: 91 percent / BaCO3; NBS / CCl4 / Heating 2.1: 86 percent / Zn; NaBH3CN / propan-1-ol; H2O / 95 °C 3.1: pyridine / 20 °C 4.1: 1.4 g / LiHMDS / tetrahydrofuran / 1 h / -78 - 0 °C 5.1: n-BuLi / tetrahydrofuran; hexane / -78 °C 5.2: BF3*OEt2 / tetrahydrofuran; hexane / -78 - 20 °C 5.3: 90 percent / K2CO3 / methanol / 20 °C 6.1: 100 percent / 2,6-lutidine / CH2Cl2 / 0 °C 7.1: 52 percent / Et3N; Pd(PPh3)4 / toluene / Heating 8.1: 61 percent / TBAF / tetrahydrofuran / 96 h / 20 °C

methyl 4-O-benzoyl-6-bromo-3-O-[3-{(tert-butyldimethylsilyl)oxy}propyl]-6-deoxy-α-D-altropyranoside (299410-97-2) → Eldecalcitol (104121-92-8)

Conditions

Yield

Multi-step reaction with 7 steps 1.1: 86 percent / Zn; NaBH3CN / propan-1-ol; H2O / 95 °C 2.1: pyridine / 20 °C 3.1: 1.4 g / LiHMDS / tetrahydrofuran / 1 h / -78 - 0 °C 4.1: n-BuLi / tetrahydrofuran; hexane / -78 °C 4.2: BF3*OEt2 / tetrahydrofuran; hexane / -78 - 20 °C 4.3: 90 percent / K2CO3 / methanol / 20 °C 5.1: 100 percent / 2,6-lutidine / CH2Cl2 / 0 °C 6.1: 52 percent / Et3N; Pd(PPh3)4 / toluene / Heating 7.1: 61 percent / TBAF / tetrahydrofuran / 96 h / 20 °C

(3R,4S,5R)-3,5-bis(tert-butyldimethylsilyloxy)-4-[3-(tert-butyldimethylsilyloxy)propoxy]oct-1-en-7-yne (299411-15-7) → Eldecalcitol (104121-92-8)

Conditions	Yield
Multi-step reaction with 2 steps 1: 52 percent / Et3N; Pd(PPh3)4 / toluene / Heating 2: 61 percent / TBAF / tetrahydrofuran / 96 h / 20 °C

methyl 2,3-anhydro-4,6-O-benzilidene-α-D-mannopyranoside (3150-15-0, 3150-16-1, 3257-59-8, 14187-71-4, 15384-57-3, 19465-13-5, 32976-15-1, 52885-37-7, 53270-02-3, 53270-03-4, 65391-11-9, 65391-12-0, 66537-92-6, 67226-04-4, 71184-14-0, 86420-78-2, 86420-79-3, 91177-51-4, 91177-52-5, 117708-93-7, 120408-72-2, 2880-96-8) → Eldecalcitol (104121-92-8)

Conditions

Yield

Multi-step reaction with 10 steps 1.1: KOt-Bu / 110 °C 2.1: 2.1 g / Et3N; DMAP / CH2Cl2 / 3 h / 20 °C 3.1: 91 percent / BaCO3; NBS / CCl4 / Heating 4.1: 86 percent / Zn; NaBH3CN / propan-1-ol; H2O / 95 °C 5.1: pyridine / 20 °C 6.1: 1.4 g / LiHMDS / tetrahydrofuran / 1 h / -78 - 0 °C 7.1: n-BuLi / tetrahydrofuran; hexane / -78 °C 7.2: BF3*OEt2 / tetrahydrofuran; hexane / -78 - 20 °C 7.3: 90 percent / K2CO3 / methanol / 20 °C 8.1: 100 percent / 2,6-lutidine / CH2Cl2 / 0 °C 9.1: 52 percent / Et3N; Pd(PPh3)4 / toluene / Heating 10.1: 61 percent / TBAF / tetrahydrofuran / 96 h / 20 °C

(3R,4S,5R)-4-[3-(tert-butyldimethylsilyloxy)propoxy]oct-1-en-7-yne-3,5-diol (794516-13-5) → Eldecalcitol (104121-92-8)

Conditions	Yield
Multi-step reaction with 3 steps 1: 100 percent / 2,6-lutidine / CH2Cl2 / 0 °C 2: 52 percent / Et3N; Pd(PPh3)4 / toluene / Heating 3: 61 percent / TBAF / tetrahydrofuran / 96 h / 20 °C

(3R,4R,5R)-3-benzoyloxy-4-[3-(tert-butyldimethylsilyloxy)propoxy]-5,6-epoxyhex-1-ene (794516-11-3) → Eldecalcitol (104121-92-8)

Conditions	Yield
Multi-step reaction with 4 steps 1.1: n-BuLi / tetrahydrofuran; hexane / -78 °C 1.2: BF3*OEt2 / tetrahydrofuran; hexane / -78 - 20 °C 1.3: 90 percent / K2CO3 / methanol / 20 °C 2.1: 100 percent / 2,6-lutidine / CH2Cl2 / 0 °C 3.1: 52 percent / Et3N; Pd(PPh3)4 / toluene / Heating 4.1: 61 percent / TBAF / tetrahydrofuran / 96 h / 20 °C

(2R,3S,4R)-4-benzoyloxy-3-[3-(tert-butyldimethylsilyloxy)propoxy]hex-5-ene-1,2-diol (794516-09-9) → Eldecalcitol (104121-92-8)

Conditions

Yield

Multi-step reaction with 6 steps 1.1: pyridine / 20 °C 2.1: 1.4 g / LiHMDS / tetrahydrofuran / 1 h / -78 - 0 °C 3.1: n-BuLi / tetrahydrofuran; hexane / -78 °C 3.2: BF3*OEt2 / tetrahydrofuran; hexane / -78 - 20 °C 3.3: 90 percent / K2CO3 / methanol / 20 °C 4.1: 100 percent / 2,6-lutidine / CH2Cl2 / 0 °C 5.1: 52 percent / Et3N; Pd(PPh3)4 / toluene / Heating 6.1: 61 percent / TBAF / tetrahydrofuran / 96 h / 20 °C

Benzoic acid (1R,2S,3R)-2-[3-(tert-butyl-dimethyl-silanyloxy)-propoxy]-3-hydroxy-4-(2,4,6-trimethyl-benzenesulfonyloxy)-1-vinyl-butyl ester

Conditions	Yield
Multi-step reaction with 5 steps 1.1: 1.4 g / LiHMDS / tetrahydrofuran / 1 h / -78 - 0 °C 2.1: n-BuLi / tetrahydrofuran; hexane / -78 °C 2.2: BF3*OEt2 / tetrahydrofuran; hexane / -78 - 20 °C 2.3: 90 percent / K2CO3 / methanol / 20 °C 3.1: 100 percent / 2,6-lutidine / CH2Cl2 / 0 °C 4.1: 52 percent / Et3N; Pd(PPh3)4 / toluene / Heating 5.1: 61 percent / TBAF / tetrahydrofuran / 96 h / 20 °C

→ Eldecalcitol

Conditions

Yield

Multi-step reaction with 7 steps 1.1: 57 percent / NCS; Me2S / CH2Cl2 / 0.67 h 2.1: 92 percent / imidazole / dimethylformamide / 0.25 h / 20 °C 3.1: n-BuLi / hexane; tetrahydrofuran / 0.33 h / -50 °C 4.1: 86 mg / aq. H2O2 / CHCl3 / 0.02 h 5.1: 66 percent / n-butyllithium / tetrahydrofuran; toluene / 0.5 h / -50 °C 6.1: Mg / tetrahydrofuran / 0.5 h / 20 °C 6.2: 89 percent / CuBr*Me2S / tetrahydrofuran / 0.5 h / -10 °C 7.1: 96 percent / HF/pyridine / tetrahydrofuran / 20 °C

(1α,2β,3β,5Z,7E,20S)-1,3-bis[(1,1-dimethylethyl)dimethyl-silyloxy]-2-[3-[(1,1-dimethylethyl)dimethylsilyloxy]propoxy]-9,10-secopregna-5,7,10(19)-triene-20-methyl 4-methylbenzenesulfonate (342645-07-2) → Eldecalcitol (104121-92-8)

Conditions	Yield
Multi-step reaction with 2 steps 1.1: Mg / tetrahydrofuran / 0.5 h / 20 °C 1.2: 89 percent / CuBr*Me2S / tetrahydrofuran / 0.5 h / -10 °C 2.1: 96 percent / HF/pyridine / tetrahydrofuran / 20 °C

(S)-2-((3R,3aR,7S,7aR)-octahydro-7-hydroxy-3a-methyl-1H-inden-3-yl)propyl 4-methylbenzenesulfonate (66774-80-9) → Eldecalcitol (104121-92-8)

Conditions	Yield
Multi-step reaction with 4 steps 1.1: 97 percent / pyridinium p-toluenesulfonate; pyridinium dichromate / CH2Cl2 / 6 h / 20 °C 2.1: 66 percent / n-butyllithium / tetrahydrofuran; toluene / 0.5 h / -50 °C 3.1: Mg / tetrahydrofuran / 0.5 h / 20 °C 3.2: 89 percent / CuBr*Me2S / tetrahydrofuran / 0.5 h / -10 °C 4.1: 96 percent / HF/pyridine / tetrahydrofuran / 20 °C
Multi-step reaction with 4 steps 1.1: magnesium / tetrahydrofuran / 20 °C / Inert atmosphere 1.2: 18 h / -20 - 0 °C / Inert atmosphere 2.1: tetrabutylammomium bromide; 2,2,6,6-Tetramethyl-1-piperidinyloxy free radical; oxone / dichloromethane / 6 h / 20 °C / Inert atmosphere 3.1: n-butyllithium / tetrahydrofuran; hexane / 0.17 h / -78 °C / Inert atmosphere 3.2: 4 h / -78 °C / Inert atmosphere 4.1: methanol / 66 h / 20 °C / Inert atmosphere

[3R-(1Z,3β,4α,5α)]-2-[3,5-bis[(1,1-dimethylethyl)dimethylsilyloxy]-4-[3-[(1,1-dimethylethyl)dimethylsilyloxy]propoxy]-2-methylenecyclohexylidene]-1-chloroethane (200636-50-6) → Eldecalcitol (104121-92-8)

Conditions	Yield
Multi-step reaction with 5 steps 1.1: n-BuLi / hexane; tetrahydrofuran / 0.33 h / -50 °C 2.1: 86 mg / aq. H2O2 / CHCl3 / 0.02 h 3.1: 66 percent / n-butyllithium / tetrahydrofuran; toluene / 0.5 h / -50 °C 4.1: Mg / tetrahydrofuran / 0.5 h / 20 °C 4.2: 89 percent / CuBr*Me2S / tetrahydrofuran / 0.5 h / -10 °C 5.1: 96 percent / HF/pyridine / tetrahydrofuran / 20 °C
Multi-step reaction with 3 steps 2: H2O2

[3R-(1Z,3β,4α,5α)]-[2-[3,5-bis[(1,1-dimethylethyl)dimethylsilyloxy]-4-[3-[(1,1-dimethylethyl)dimethylsilyloxy]propoxy]-2-methylenecyclohexylidene]ethyl]diphenylphosphine oxide (200636-54-0) → Eldecalcitol (104121-92-8)

Conditions	Yield
Multi-step reaction with 3 steps 1.1: 66 percent / n-butyllithium / tetrahydrofuran; toluene / 0.5 h / -50 °C 2.1: Mg / tetrahydrofuran / 0.5 h / 20 °C 2.2: 89 percent / CuBr*Me2S / tetrahydrofuran / 0.5 h / -10 °C 3.1: 96 percent / HF/pyridine / tetrahydrofuran / 20 °C

{2-[(3R,4R,5R)-3,5-Bis-(tert-butyl-dimethyl-silanyloxy)-4-[3-(tert-butyl-dimethyl-silanyloxy)-propoxy]-2-methylene-cyclohex-(Z)-ylidene]-ethyl}-diphenyl-phosphane → Eldecalcitol (104121-92-8)

Conditions	Yield
Multi-step reaction with 4 steps 1.1: 86 mg / aq. H2O2 / CHCl3 / 0.02 h 2.1: 66 percent / n-butyllithium / tetrahydrofuran; toluene / 0.5 h / -50 °C 3.1: Mg / tetrahydrofuran / 0.5 h / 20 °C 3.2: 89 percent / CuBr*Me2S / tetrahydrofuran / 0.5 h / -10 °C 4.1: 96 percent / HF/pyridine / tetrahydrofuran / 20 °C
Multi-step reaction with 2 steps 1: H2O2

[3R-(1Z,3β,4α,5α)]-2-[5-(1,1-dimethylethyl)dimethylsilyloxy-3,4-isopropylidenedioxy-2-methylenecyclohexylidene]ethanol (244278-87-3) → Eldecalcitol (104121-92-8)

Conditions	Yield
Multi-step reaction with 12 steps 1.1: 83 percent / pyridine; DMAP / CH2Cl2 / 1 h / 0 °C 2.1: 82 percent / CSA; (+)-10-camphorsulfonic acid / methanol / 3 h / 20 °C 3.1: 96 percent / imidazole / dimethylformamide / 3 h / 0 °C 4.1: 88 percent / Me4NOH; aq. NaOH / toluene / 72 h / 20 °C 5.1: 91 percent / LiAlH4 / tetrahydrofuran / 0.25 h / 0 °C 6.1: 57 percent / NCS; Me2S / CH2Cl2 / 0.67 h 7.1: 92 percent / imidazole / dimethylformamide / 0.25 h / 20 °C 8.1: n-BuLi / hexane; tetrahydrofuran / 0.33 h / -50 °C 9.1: 86 mg / aq. H2O2 / CHCl3 / 0.02 h 10.1: 66 percent / n-butyllithium / tetrahydrofuran; toluene / 0.5 h / -50 °C 11.1: Mg / tetrahydrofuran / 0.5 h / 20 °C 11.2: 89 percent / CuBr*Me2S / tetrahydrofuran / 0.5 h / -10 °C 12.1: 96 percent / HF/pyridine / tetrahydrofuran / 20 °C
Multi-step reaction with 14 steps 1.1: pyridine; dmap / dichloromethane / Inert atmosphere 2.1: water; trifluoroacetic acid / dichloromethane / 1 h / -10 °C / Inert atmosphere 3.1: 1H-imidazole / dichloromethane / 11 h / 0 °C / Inert atmosphere 4.1: pyridinium p-toluenesulfonate / dichloromethane / 36 h / 20 °C / Inert atmosphere 5.1: tetrabutyl ammonium fluoride / tetrahydrofuran / 5 h / 70 °C / Inert atmosphere 6.1: N-ethyl-N,N-diisopropylamine / dichloromethane / 6 h / Reflux; Inert atmosphere 7.1: acetic acid; water / tetrahydrofuran / 14 h / 40 °C / Inert atmosphere 8.1: water; tetramethyl ammoniumhydroxide; sodium hydroxide / toluene / 20 h / 20 °C / Inert atmosphere 9.1: lithium aluminium tetrahydride / tetrahydrofuran / 0 °C / Inert atmosphere 10.1: N-chloro-succinimide; dimethylsulfide / dichloromethane / 0.5 h / 0 °C / Inert atmosphere 11.1: N-ethyl-N,N-diisopropylamine / dichloromethane / 3 h / 20 °C / Inert atmosphere 12.1: lithium hexamethyldisilazane / tetrahydrofuran; dichloromethane / 3 h / -78 - 20 °C / Inert atmosphere 12.2: 13 h / 20 °C / Inert atmosphere 13.1: n-butyllithium / tetrahydrofuran; hexane / 0.17 h / -78 °C / Inert atmosphere 13.2: 4 h / -78 °C / Inert atmosphere 14.1: methanol / 66 h / 20 °C / Inert atmosphere

[3R-(1Z,3β,4α,5α)]-2-[3,4,5-trihydroxy-2-methylenecyclohexylidene]ethyl trimethylacetate (377091-68-4) → Eldecalcitol (104121-92-8)

Conditions

Yield

Multi-step reaction with 10 steps 1.1: 96 percent / imidazole / dimethylformamide / 3 h / 0 °C 2.1: 88 percent / Me4NOH; aq. NaOH / toluene / 72 h / 20 °C 3.1: 91 percent / LiAlH4 / tetrahydrofuran / 0.25 h / 0 °C 4.1: 57 percent / NCS; Me2S / CH2Cl2 / 0.67 h 5.1: 92 percent / imidazole / dimethylformamide / 0.25 h / 20 °C 6.1: n-BuLi / hexane; tetrahydrofuran / 0.33 h / -50 °C 7.1: 86 mg / aq. H2O2 / CHCl3 / 0.02 h 8.1: 66 percent / n-butyllithium / tetrahydrofuran; toluene / 0.5 h / -50 °C 9.1: Mg / tetrahydrofuran / 0.5 h / 20 °C 9.2: 89 percent / CuBr*Me2S / tetrahydrofuran / 0.5 h / -10 °C 10.1: 96 percent / HF/pyridine / tetrahydrofuran / 20 °C

[3R-(1Z,3β,4α,5α)]-2-[5-(1,1-dimethylethyl)dimethylsilyloxy-3,4-isopropylidenedioxy-2-methylenecyclohexylidene]ethyl trimethylacetate (342644-83-1) → Eldecalcitol (104121-92-8)

Conditions	Yield
Multi-step reaction with 11 steps 1.1: 82 percent / CSA; (+)-10-camphorsulfonic acid / methanol / 3 h / 20 °C 2.1: 96 percent / imidazole / dimethylformamide / 3 h / 0 °C 3.1: 88 percent / Me4NOH; aq. NaOH / toluene / 72 h / 20 °C 4.1: 91 percent / LiAlH4 / tetrahydrofuran / 0.25 h / 0 °C 5.1: 57 percent / NCS; Me2S / CH2Cl2 / 0.67 h 6.1: 92 percent / imidazole / dimethylformamide / 0.25 h / 20 °C 7.1: n-BuLi / hexane; tetrahydrofuran / 0.33 h / -50 °C 8.1: 86 mg / aq. H2O2 / CHCl3 / 0.02 h 9.1: 66 percent / n-butyllithium / tetrahydrofuran; toluene / 0.5 h / -50 °C 10.1: Mg / tetrahydrofuran / 0.5 h / 20 °C 10.2: 89 percent / CuBr*Me2S / tetrahydrofuran / 0.5 h / -10 °C 11.1: 96 percent / HF/pyridine / tetrahydrofuran / 20 °C
Multi-step reaction with 13 steps 1.1: water; trifluoroacetic acid / dichloromethane / 1 h / -10 °C / Inert atmosphere 2.1: 1H-imidazole / dichloromethane / 11 h / 0 °C / Inert atmosphere 3.1: pyridinium p-toluenesulfonate / dichloromethane / 36 h / 20 °C / Inert atmosphere 4.1: tetrabutyl ammonium fluoride / tetrahydrofuran / 5 h / 70 °C / Inert atmosphere 5.1: N-ethyl-N,N-diisopropylamine / dichloromethane / 6 h / Reflux; Inert atmosphere 6.1: acetic acid; water / tetrahydrofuran / 14 h / 40 °C / Inert atmosphere 7.1: water; tetramethyl ammoniumhydroxide; sodium hydroxide / toluene / 20 h / 20 °C / Inert atmosphere 8.1: lithium aluminium tetrahydride / tetrahydrofuran / 0 °C / Inert atmosphere 9.1: N-chloro-succinimide; dimethylsulfide / dichloromethane / 0.5 h / 0 °C / Inert atmosphere 10.1: N-ethyl-N,N-diisopropylamine / dichloromethane / 3 h / 20 °C / Inert atmosphere 11.1: lithium hexamethyldisilazane / tetrahydrofuran; dichloromethane / 3 h / -78 - 20 °C / Inert atmosphere 11.2: 13 h / 20 °C / Inert atmosphere 12.1: n-butyllithium / tetrahydrofuran; hexane / 0.17 h / -78 °C / Inert atmosphere 12.2: 4 h / -78 °C / Inert atmosphere 13.1: methanol / 66 h / 20 °C / Inert atmosphere

(1β,2α,3α,5Z,7E)-1,3-bis[(1,1-dimethylethyl)dimethylsilyloxy]-2-[3-[(1,1-dimethylethyl)dimethylsilyloxy]propoxy]-25-trimethylsilyloxy-9,10-secocholesta-5,7,10(19)-triene (342645-84-5) → Eldecalcitol (104121-92-8)

Conditions	Yield
With pyridine; hydrogen fluoride In tetrahydrofuran at 20℃;	96%

C54H106O5Si4 → Eldecalcitol (104121-92-8)

Conditions	Yield
With tetrabutyl ammonium fluoride In tetrahydrofuran at 25℃;	89%

((1R,2R,3R,Z)-2-(3-(tert-butyldiphenylsilyloxy)propoxy)-5-((E)-2-((1R,3aS,7aR)-7a-methyl-1-((R)-6-methyl-6-(trimethylsilyloxy)heptan-2-yl)dihydro-1H-indene-4(2H,5H,6H,7H,7aH)-ylidene)ethylidene)-4-methylene cyclohexane-1,3-diyl)bis(oxy)bis(tert-butyldimethylsilane) → Eldecalcitol (104121-92-8)

Conditions	Yield
With toluene-4-sulfonic acid In methanol; dichloromethane at 20℃; for 5h; Inert atmosphere;	80%

C38H66O9 → Eldecalcitol (104121-92-8)

Conditions	Yield
With methanol at 20℃; for 66h; Inert atmosphere; stereoselective reaction;	68%

(R)-6-{(1R,3aS,7aR)-4-[2-[(3R,4R,5R)-3,5-Bis-(tert-butyl-dimethyl-silanyloxy)-4-[3-(tert-butyl-dimethyl-silanyloxy)-propoxy]-2-methylene-cyclohex-(Z)-ylidene]-eth-(E)-ylidene]-7a-methyl-octahydro-inden-1-yl}-2-methyl-heptan-2-ol → Eldecalcitol (104121-92-8)

Conditions	Yield
With tetrabutyl ammonium fluoride In tetrahydrofuran at 20℃; for 96h;	61%

(5Z,7E)-(1R,2R,3R)-1,3-bis(tert-butyldimethylsilyloxy)-2-(3-tert-butyldimethylsilyloxypropoxy)-25-triethylsilyloxy-9,10-secocholesta-5,7,10(19)-triene (933779-95-4) → Eldecalcitol (104121-92-8)

Conditions	Yield
With tetrabutyl ammonium fluoride In tetrahydrofuran; toluene at 105℃; for 2h;	60%

(5R,6R)-6-((R)-1-(methoxymethoxy)allyl)-5-(prop-2-yn-1-yl)-2,4,7,11,13-pentaoxatetradecane + C21H37BrO2 → Eldecalcitol (104121-92-8)

Conditions	Yield
Stage #1: (5R,6R)-6-((R)-1-(methoxymethoxy)allyl)-5-(prop-2-yn-1-yl)-2,4,7,11,13-pentaoxatetradecane; C21H37BrO2 With tetrakis(triphenylphosphine) palladium(0); triethylamine In toluene at 110℃; for 2h; Stage #2: With camphor-10-sulfonic acid In methanol at 20℃; for 72h;	36%

25-[(triethylsilyl)oxy]de-A,B-cholestan-8-one (144848-24-8) + [3R-(1Z,3β,4α,5α)]-[2-[3,5-bis[(1,1-dimethylethyl)dimethylsilyloxy]-4-[3-[(1,1-dimethylethyl)dimethylsilyloxy]propoxy]-2-methylenecyclohexylidene]ethyl]diphenylphosphine oxide (200636-54-0) → Eldecalcitol (104121-92-8)

Conditions	Yield
Multistep reaction;

methyl 4,6-O-benzylidene-3-O-(3-hydroxypropyl)-α-D-altropyranoside (299410-93-8) → Eldecalcitol (104121-92-8)

Conditions

Yield

Multi-step reaction with 9 steps 1.1: 2.1 g / Et3N; DMAP / CH2Cl2 / 3 h / 20 °C 2.1: 91 percent / BaCO3; NBS / CCl4 / Heating 3.1: 86 percent / Zn; NaBH3CN / propan-1-ol; H2O / 95 °C 4.1: pyridine / 20 °C 5.1: 1.4 g / LiHMDS / tetrahydrofuran / 1 h / -78 - 0 °C 6.1: n-BuLi / tetrahydrofuran; hexane / -78 °C 6.2: BF3*OEt2 / tetrahydrofuran; hexane / -78 - 20 °C 6.3: 90 percent / K2CO3 / methanol / 20 °C 7.1: 100 percent / 2,6-lutidine / CH2Cl2 / 0 °C 8.1: 52 percent / Et3N; Pd(PPh3)4 / toluene / Heating 9.1: 61 percent / TBAF / tetrahydrofuran / 96 h / 20 °C

methyl 4,6-O-benzylidene-3-O-[3-{(tert-butyldimethylsilyl)oxy}propyl]-α-D-altropyranoside (299410-95-0) → Eldecalcitol (104121-92-8)

Conditions

Yield

Multi-step reaction with 8 steps 1.1: 91 percent / BaCO3; NBS / CCl4 / Heating 2.1: 86 percent / Zn; NaBH3CN / propan-1-ol; H2O / 95 °C 3.1: pyridine / 20 °C 4.1: 1.4 g / LiHMDS / tetrahydrofuran / 1 h / -78 - 0 °C 5.1: n-BuLi / tetrahydrofuran; hexane / -78 °C 5.2: BF3*OEt2 / tetrahydrofuran; hexane / -78 - 20 °C 5.3: 90 percent / K2CO3 / methanol / 20 °C 6.1: 100 percent / 2,6-lutidine / CH2Cl2 / 0 °C 7.1: 52 percent / Et3N; Pd(PPh3)4 / toluene / Heating 8.1: 61 percent / TBAF / tetrahydrofuran / 96 h / 20 °C

methyl 4-O-benzoyl-6-bromo-3-O-[3-{(tert-butyldimethylsilyl)oxy}propyl]-6-deoxy-α-D-altropyranoside (299410-97-2) → Eldecalcitol (104121-92-8)

Conditions

Yield

Multi-step reaction with 7 steps 1.1: 86 percent / Zn; NaBH3CN / propan-1-ol; H2O / 95 °C 2.1: pyridine / 20 °C 3.1: 1.4 g / LiHMDS / tetrahydrofuran / 1 h / -78 - 0 °C 4.1: n-BuLi / tetrahydrofuran; hexane / -78 °C 4.2: BF3*OEt2 / tetrahydrofuran; hexane / -78 - 20 °C 4.3: 90 percent / K2CO3 / methanol / 20 °C 5.1: 100 percent / 2,6-lutidine / CH2Cl2 / 0 °C 6.1: 52 percent / Et3N; Pd(PPh3)4 / toluene / Heating 7.1: 61 percent / TBAF / tetrahydrofuran / 96 h / 20 °C

(3R,4S,5R)-3,5-bis(tert-butyldimethylsilyloxy)-4-[3-(tert-butyldimethylsilyloxy)propoxy]oct-1-en-7-yne (299411-15-7) → Eldecalcitol (104121-92-8)

Conditions	Yield
Multi-step reaction with 2 steps 1: 52 percent / Et3N; Pd(PPh3)4 / toluene / Heating 2: 61 percent / TBAF / tetrahydrofuran / 96 h / 20 °C

methyl 2,3-anhydro-4,6-O-benzilidene-α-D-mannopyranoside (3150-15-0, 3150-16-1, 3257-59-8, 14187-71-4, 15384-57-3, 19465-13-5, 32976-15-1, 52885-37-7, 53270-02-3, 53270-03-4, 65391-11-9, 65391-12-0, 66537-92-6, 67226-04-4, 71184-14-0, 86420-78-2, 86420-79-3, 91177-51-4, 91177-52-5, 117708-93-7, 120408-72-2, 2880-96-8) → Eldecalcitol (104121-92-8)

Conditions

Yield

Multi-step reaction with 10 steps 1.1: KOt-Bu / 110 °C 2.1: 2.1 g / Et3N; DMAP / CH2Cl2 / 3 h / 20 °C 3.1: 91 percent / BaCO3; NBS / CCl4 / Heating 4.1: 86 percent / Zn; NaBH3CN / propan-1-ol; H2O / 95 °C 5.1: pyridine / 20 °C 6.1: 1.4 g / LiHMDS / tetrahydrofuran / 1 h / -78 - 0 °C 7.1: n-BuLi / tetrahydrofuran; hexane / -78 °C 7.2: BF3*OEt2 / tetrahydrofuran; hexane / -78 - 20 °C 7.3: 90 percent / K2CO3 / methanol / 20 °C 8.1: 100 percent / 2,6-lutidine / CH2Cl2 / 0 °C 9.1: 52 percent / Et3N; Pd(PPh3)4 / toluene / Heating 10.1: 61 percent / TBAF / tetrahydrofuran / 96 h / 20 °C

(3R,4S,5R)-4-[3-(tert-butyldimethylsilyloxy)propoxy]oct-1-en-7-yne-3,5-diol (794516-13-5) → Eldecalcitol (104121-92-8)

Conditions	Yield
Multi-step reaction with 3 steps 1: 100 percent / 2,6-lutidine / CH2Cl2 / 0 °C 2: 52 percent / Et3N; Pd(PPh3)4 / toluene / Heating 3: 61 percent / TBAF / tetrahydrofuran / 96 h / 20 °C

(3R,4R,5R)-3-benzoyloxy-4-[3-(tert-butyldimethylsilyloxy)propoxy]-5,6-epoxyhex-1-ene (794516-11-3) → Eldecalcitol (104121-92-8)

Conditions	Yield
Multi-step reaction with 4 steps 1.1: n-BuLi / tetrahydrofuran; hexane / -78 °C 1.2: BF3*OEt2 / tetrahydrofuran; hexane / -78 - 20 °C 1.3: 90 percent / K2CO3 / methanol / 20 °C 2.1: 100 percent / 2,6-lutidine / CH2Cl2 / 0 °C 3.1: 52 percent / Et3N; Pd(PPh3)4 / toluene / Heating 4.1: 61 percent / TBAF / tetrahydrofuran / 96 h / 20 °C

(2R,3S,4R)-4-benzoyloxy-3-[3-(tert-butyldimethylsilyloxy)propoxy]hex-5-ene-1,2-diol (794516-09-9) → Eldecalcitol (104121-92-8)

Conditions

Yield

Multi-step reaction with 6 steps 1.1: pyridine / 20 °C 2.1: 1.4 g / LiHMDS / tetrahydrofuran / 1 h / -78 - 0 °C 3.1: n-BuLi / tetrahydrofuran; hexane / -78 °C 3.2: BF3*OEt2 / tetrahydrofuran; hexane / -78 - 20 °C 3.3: 90 percent / K2CO3 / methanol / 20 °C 4.1: 100 percent / 2,6-lutidine / CH2Cl2 / 0 °C 5.1: 52 percent / Et3N; Pd(PPh3)4 / toluene / Heating 6.1: 61 percent / TBAF / tetrahydrofuran / 96 h / 20 °C

Benzoic acid (1R,2S,3R)-2-[3-(tert-butyl-dimethyl-silanyloxy)-propoxy]-3-hydroxy-4-(2,4,6-trimethyl-benzenesulfonyloxy)-1-vinyl-butyl ester → Eldecalcitol (104121-92-8)

Conditions	Yield
Multi-step reaction with 5 steps 1.1: 1.4 g / LiHMDS / tetrahydrofuran / 1 h / -78 - 0 °C 2.1: n-BuLi / tetrahydrofuran; hexane / -78 °C 2.2: BF3*OEt2 / tetrahydrofuran; hexane / -78 - 20 °C 2.3: 90 percent / K2CO3 / methanol / 20 °C 3.1: 100 percent / 2,6-lutidine / CH2Cl2 / 0 °C 4.1: 52 percent / Et3N; Pd(PPh3)4 / toluene / Heating 5.1: 61 percent / TBAF / tetrahydrofuran / 96 h / 20 °C

[3R-(1Z,3β,4α,5α)]-2-[3,5-bis[(1,1-dimethylethyl)dimethylsilyloxy]-4-(3-hydroxypropoxy)-2-methylenecyclohexylidene]ethanol (342644-91-1) → Eldecalcitol (104121-92-8)

Conditions

Yield

Multi-step reaction with 7 steps 1.1: 57 percent / NCS; Me2S / CH2Cl2 / 0.67 h 2.1: 92 percent / imidazole / dimethylformamide / 0.25 h / 20 °C 3.1: n-BuLi / hexane; tetrahydrofuran / 0.33 h / -50 °C 4.1: 86 mg / aq. H2O2 / CHCl3 / 0.02 h 5.1: 66 percent / n-butyllithium / tetrahydrofuran; toluene / 0.5 h / -50 °C 6.1: Mg / tetrahydrofuran / 0.5 h / 20 °C 6.2: 89 percent / CuBr*Me2S / tetrahydrofuran / 0.5 h / -10 °C 7.1: 96 percent / HF/pyridine / tetrahydrofuran / 20 °C

(1α,2β,3β,5Z,7E,20S)-1,3-bis[(1,1-dimethylethyl)dimethyl-silyloxy]-2-[3-[(1,1-dimethylethyl)dimethylsilyloxy]propoxy]-9,10-secopregna-5,7,10(19)-triene-20-methyl 4-methylbenzenesulfonate (342645-07-2) → Eldecalcitol (104121-92-8)

Conditions	Yield
Multi-step reaction with 2 steps 1.1: Mg / tetrahydrofuran / 0.5 h / 20 °C 1.2: 89 percent / CuBr*Me2S / tetrahydrofuran / 0.5 h / -10 °C 2.1: 96 percent / HF/pyridine / tetrahydrofuran / 20 °C

(S)-2-((3R,3aR,7S,7aR)-octahydro-7-hydroxy-3a-methyl-1H-inden-3-yl)propyl 4-methylbenzenesulfonate (66774-80-9) → Eldecalcitol (104121-92-8)

Conditions	Yield
Multi-step reaction with 4 steps 1.1: 97 percent / pyridinium p-toluenesulfonate; pyridinium dichromate / CH2Cl2 / 6 h / 20 °C 2.1: 66 percent / n-butyllithium / tetrahydrofuran; toluene / 0.5 h / -50 °C 3.1: Mg / tetrahydrofuran / 0.5 h / 20 °C 3.2: 89 percent / CuBr*Me2S / tetrahydrofuran / 0.5 h / -10 °C 4.1: 96 percent / HF/pyridine / tetrahydrofuran / 20 °C
Multi-step reaction with 4 steps 1.1: magnesium / tetrahydrofuran / 20 °C / Inert atmosphere 1.2: 18 h / -20 - 0 °C / Inert atmosphere 2.1: tetrabutylammomium bromide; 2,2,6,6-Tetramethyl-1-piperidinyloxy free radical; oxone / dichloromethane / 6 h / 20 °C / Inert atmosphere 3.1: n-butyllithium / tetrahydrofuran; hexane / 0.17 h / -78 °C / Inert atmosphere 3.2: 4 h / -78 °C / Inert atmosphere 4.1: methanol / 66 h / 20 °C / Inert atmosphere

[3R-(1Z,3β,4α,5α)]-2-[3,5-bis[(1,1-dimethylethyl)dimethylsilyloxy]-4-[3-[(1,1-dimethylethyl)dimethylsilyloxy]propoxy]-2-methylenecyclohexylidene]-1-chloroethane (200636-50-6) → Eldecalcitol (104121-92-8)

Conditions	Yield
Multi-step reaction with 5 steps 1.1: n-BuLi / hexane; tetrahydrofuran / 0.33 h / -50 °C 2.1: 86 mg / aq. H2O2 / CHCl3 / 0.02 h 3.1: 66 percent / n-butyllithium / tetrahydrofuran; toluene / 0.5 h / -50 °C 4.1: Mg / tetrahydrofuran / 0.5 h / 20 °C 4.2: 89 percent / CuBr*Me2S / tetrahydrofuran / 0.5 h / -10 °C 5.1: 96 percent / HF/pyridine / tetrahydrofuran / 20 °C
Multi-step reaction with 3 steps 2: H2O2

[3R-(1Z,3β,4α,5α)]-[2-[3,5-bis[(1,1-dimethylethyl)dimethylsilyloxy]-4-[3-[(1,1-dimethylethyl)dimethylsilyloxy]propoxy]-2-methylenecyclohexylidene]ethyl]diphenylphosphine oxide (200636-54-0) → Eldecalcitol (104121-92-8)

Conditions	Yield
Multi-step reaction with 3 steps 1.1: 66 percent / n-butyllithium / tetrahydrofuran; toluene / 0.5 h / -50 °C 2.1: Mg / tetrahydrofuran / 0.5 h / 20 °C 2.2: 89 percent / CuBr*Me2S / tetrahydrofuran / 0.5 h / -10 °C 3.1: 96 percent / HF/pyridine / tetrahydrofuran / 20 °C

{2-[(3R,4R,5R)-3,5-Bis-(tert-butyl-dimethyl-silanyloxy)-4-[3-(tert-butyl-dimethyl-silanyloxy)-propoxy]-2-methylene-cyclohex-(Z)-ylidene]-ethyl}-diphenyl-phosphane → Eldecalcitol (104121-92-8)

Conditions	Yield
Multi-step reaction with 4 steps 1.1: 86 mg / aq. H2O2 / CHCl3 / 0.02 h 2.1: 66 percent / n-butyllithium / tetrahydrofuran; toluene / 0.5 h / -50 °C 3.1: Mg / tetrahydrofuran / 0.5 h / 20 °C 3.2: 89 percent / CuBr*Me2S / tetrahydrofuran / 0.5 h / -10 °C 4.1: 96 percent / HF/pyridine / tetrahydrofuran / 20 °C
Multi-step reaction with 2 steps 1: H2O2

[3R-(1Z,3β,4α,5α)]-2-[5-(1,1-dimethylethyl)dimethylsilyloxy-3,4-isopropylidenedioxy-2-methylenecyclohexylidene]ethanol (244278-87-3) → Eldecalcitol (104121-92-8)

Conditions	Yield
Multi-step reaction with 12 steps 1.1: 83 percent / pyridine; DMAP / CH2Cl2 / 1 h / 0 °C 2.1: 82 percent / CSA; (+)-10-camphorsulfonic acid / methanol / 3 h / 20 °C 3.1: 96 percent / imidazole / dimethylformamide / 3 h / 0 °C 4.1: 88 percent / Me4NOH; aq. NaOH / toluene / 72 h / 20 °C 5.1: 91 percent / LiAlH4 / tetrahydrofuran / 0.25 h / 0 °C 6.1: 57 percent / NCS; Me2S / CH2Cl2 / 0.67 h 7.1: 92 percent / imidazole / dimethylformamide / 0.25 h / 20 °C 8.1: n-BuLi / hexane; tetrahydrofuran / 0.33 h / -50 °C 9.1: 86 mg / aq. H2O2 / CHCl3 / 0.02 h 10.1: 66 percent / n-butyllithium / tetrahydrofuran; toluene / 0.5 h / -50 °C 11.1: Mg / tetrahydrofuran / 0.5 h / 20 °C 11.2: 89 percent / CuBr*Me2S / tetrahydrofuran / 0.5 h / -10 °C 12.1: 96 percent / HF/pyridine / tetrahydrofuran / 20 °C
Multi-step reaction with 14 steps 1.1: pyridine; dmap / dichloromethane / Inert atmosphere 2.1: water; trifluoroacetic acid / dichloromethane / 1 h / -10 °C / Inert atmosphere 3.1: 1H-imidazole / dichloromethane / 11 h / 0 °C / Inert atmosphere 4.1: pyridinium p-toluenesulfonate / dichloromethane / 36 h / 20 °C / Inert atmosphere 5.1: tetrabutyl ammonium fluoride / tetrahydrofuran / 5 h / 70 °C / Inert atmosphere 6.1: N-ethyl-N,N-diisopropylamine / dichloromethane / 6 h / Reflux; Inert atmosphere 7.1: acetic acid; water / tetrahydrofuran / 14 h / 40 °C / Inert atmosphere 8.1: water; tetramethyl ammoniumhydroxide; sodium hydroxide / toluene / 20 h / 20 °C / Inert atmosphere 9.1: lithium aluminium tetrahydride / tetrahydrofuran / 0 °C / Inert atmosphere 10.1: N-chloro-succinimide; dimethylsulfide / dichloromethane / 0.5 h / 0 °C / Inert atmosphere 11.1: N-ethyl-N,N-diisopropylamine / dichloromethane / 3 h / 20 °C / Inert atmosphere 12.1: lithium hexamethyldisilazane / tetrahydrofuran; dichloromethane / 3 h / -78 - 20 °C / Inert atmosphere 12.2: 13 h / 20 °C / Inert atmosphere 13.1: n-butyllithium / tetrahydrofuran; hexane / 0.17 h / -78 °C / Inert atmosphere 13.2: 4 h / -78 °C / Inert atmosphere 14.1: methanol / 66 h / 20 °C / Inert atmosphere

[3R-(1Z,3β,4α,5α)]-2-[3,4,5-trihydroxy-2-methylenecyclohexylidene]ethyl trimethylacetate (377091-68-4) → Eldecalcitol (104121-92-8)

Conditions

Yield

Multi-step reaction with 10 steps 1.1: 96 percent / imidazole / dimethylformamide / 3 h / 0 °C 2.1: 88 percent / Me4NOH; aq. NaOH / toluene / 72 h / 20 °C 3.1: 91 percent / LiAlH4 / tetrahydrofuran / 0.25 h / 0 °C 4.1: 57 percent / NCS; Me2S / CH2Cl2 / 0.67 h 5.1: 92 percent / imidazole / dimethylformamide / 0.25 h / 20 °C 6.1: n-BuLi / hexane; tetrahydrofuran / 0.33 h / -50 °C 7.1: 86 mg / aq. H2O2 / CHCl3 / 0.02 h 8.1: 66 percent / n-butyllithium / tetrahydrofuran; toluene / 0.5 h / -50 °C 9.1: Mg / tetrahydrofuran / 0.5 h / 20 °C 9.2: 89 percent / CuBr*Me2S / tetrahydrofuran / 0.5 h / -10 °C 10.1: 96 percent / HF/pyridine / tetrahydrofuran / 20 °C

[3R-(1Z,3β,4α,5α)]-2-[5-(1,1-dimethylethyl)dimethylsilyloxy-3,4-isopropylidenedioxy-2-methylenecyclohexylidene]ethyl trimethylacetate (342644-83-1) → Eldecalcitol (104121-92-8)

Conditions	Yield
Multi-step reaction with 11 steps 1.1: 82 percent / CSA; (+)-10-camphorsulfonic acid / methanol / 3 h / 20 °C 2.1: 96 percent / imidazole / dimethylformamide / 3 h / 0 °C 3.1: 88 percent / Me4NOH; aq. NaOH / toluene / 72 h / 20 °C 4.1: 91 percent / LiAlH4 / tetrahydrofuran / 0.25 h / 0 °C 5.1: 57 percent / NCS; Me2S / CH2Cl2 / 0.67 h 6.1: 92 percent / imidazole / dimethylformamide / 0.25 h / 20 °C 7.1: n-BuLi / hexane; tetrahydrofuran / 0.33 h / -50 °C 8.1: 86 mg / aq. H2O2 / CHCl3 / 0.02 h 9.1: 66 percent / n-butyllithium / tetrahydrofuran; toluene / 0.5 h / -50 °C 10.1: Mg / tetrahydrofuran / 0.5 h / 20 °C 10.2: 89 percent / CuBr*Me2S / tetrahydrofuran / 0.5 h / -10 °C 11.1: 96 percent / HF/pyridine / tetrahydrofuran / 20 °C
Multi-step reaction with 13 steps 1.1: water; trifluoroacetic acid / dichloromethane / 1 h / -10 °C / Inert atmosphere 2.1: 1H-imidazole / dichloromethane / 11 h / 0 °C / Inert atmosphere 3.1: pyridinium p-toluenesulfonate / dichloromethane / 36 h / 20 °C / Inert atmosphere 4.1: tetrabutyl ammonium fluoride / tetrahydrofuran / 5 h / 70 °C / Inert atmosphere 5.1: N-ethyl-N,N-diisopropylamine / dichloromethane / 6 h / Reflux; Inert atmosphere 6.1: acetic acid; water / tetrahydrofuran / 14 h / 40 °C / Inert atmosphere 7.1: water; tetramethyl ammoniumhydroxide; sodium hydroxide / toluene / 20 h / 20 °C / Inert atmosphere 8.1: lithium aluminium tetrahydride / tetrahydrofuran / 0 °C / Inert atmosphere 9.1: N-chloro-succinimide; dimethylsulfide / dichloromethane / 0.5 h / 0 °C / Inert atmosphere 10.1: N-ethyl-N,N-diisopropylamine / dichloromethane / 3 h / 20 °C / Inert atmosphere 11.1: lithium hexamethyldisilazane / tetrahydrofuran; dichloromethane / 3 h / -78 - 20 °C / Inert atmosphere 11.2: 13 h / 20 °C / Inert atmosphere 12.1: n-butyllithium / tetrahydrofuran; hexane / 0.17 h / -78 °C / Inert atmosphere 12.2: 4 h / -78 °C / Inert atmosphere 13.1: methanol / 66 h / 20 °C / Inert atmosphere

[3R-(1Z,3β,4α,5α)]-2-[3,5-bis[(1,1-dimethylethyl)dimethylsilyloxy]-4-hydroxy-2-methylenecyclohexylidene]ethyl trimethylacetate (342644-90-0) → Eldecalcitol (104121-92-8)

Conditions	Yield
Multi-step reaction with 9 steps 1.1: 88 percent / Me4NOH; aq. NaOH / toluene / 72 h / 20 °C 2.1: 91 percent / LiAlH4 / tetrahydrofuran / 0.25 h / 0 °C 3.1: 57 percent / NCS; Me2S / CH2Cl2 / 0.67 h 4.1: 92 percent / imidazole / dimethylformamide / 0.25 h / 20 °C 5.1: n-BuLi / hexane; tetrahydrofuran / 0.33 h / -50 °C 6.1: 86 mg / aq. H2O2 / CHCl3 / 0.02 h 7.1: 66 percent / n-butyllithium / tetrahydrofuran; toluene / 0.5 h / -50 °C 8.1: Mg / tetrahydrofuran / 0.5 h / 20 °C 8.2: 89 percent / CuBr*Me2S / tetrahydrofuran / 0.5 h / -10 °C 9.1: 96 percent / HF/pyridine / tetrahydrofuran / 20 °C
Multi-step reaction with 11 steps 1.1: pyridinium p-toluenesulfonate / dichloromethane / 36 h / 20 °C / Inert atmosphere 2.1: tetrabutyl ammonium fluoride / tetrahydrofuran / 5 h / 70 °C / Inert atmosphere 3.1: N-ethyl-N,N-diisopropylamine / dichloromethane / 6 h / Reflux; Inert atmosphere 4.1: acetic acid; water / tetrahydrofuran / 14 h / 40 °C / Inert atmosphere 5.1: water; tetramethyl ammoniumhydroxide; sodium hydroxide / toluene / 20 h / 20 °C / Inert atmosphere 6.1: lithium aluminium tetrahydride / tetrahydrofuran / 0 °C / Inert atmosphere 7.1: N-chloro-succinimide; dimethylsulfide / dichloromethane / 0.5 h / 0 °C / Inert atmosphere 8.1: N-ethyl-N,N-diisopropylamine / dichloromethane / 3 h / 20 °C / Inert atmosphere 9.1: lithium hexamethyldisilazane / tetrahydrofuran; dichloromethane / 3 h / -78 - 20 °C / Inert atmosphere 9.2: 13 h / 20 °C / Inert atmosphere 10.1: n-butyllithium / tetrahydrofuran; hexane / 0.17 h / -78 °C / Inert atmosphere 10.2: 4 h / -78 °C / Inert atmosphere 11.1: methanol / 66 h / 20 °C / Inert atmosphere

[3R-(1Z,3β,4α,5α)]-2-[3,5-bis[(1,1-dimethylethyl)dimethylsilyloxy]-4-(3-hydroxypropoxy)-2-methylenecyclohexylidene]-1-chloroethane (342645-82-3) → Eldecalcitol (104121-92-8)

Conditions

Yield

Multi-step reaction with 6 steps 1.1: 92 percent / imidazole / dimethylformamide / 0.25 h / 20 °C 2.1: n-BuLi / hexane; tetrahydrofuran / 0.33 h / -50 °C 3.1: 86 mg / aq. H2O2 / CHCl3 / 0.02 h 4.1: 66 percent / n-butyllithium / tetrahydrofuran; toluene / 0.5 h / -50 °C 5.1: Mg / tetrahydrofuran / 0.5 h / 20 °C 5.2: 89 percent / CuBr*Me2S / tetrahydrofuran / 0.5 h / -10 °C 6.1: 96 percent / HF/pyridine / tetrahydrofuran / 20 °C

[3R-(1Z,3β,4α,5α)]-2-[3,5-bis[(1,1-dimethylethyl)dimethylsilyloxy]-4-[2-(ethoxycarbonyl)ethoxy]-2-methylenecyclohexylidene]ethyl trimethylacetate (342645-81-2) → Eldecalcitol (104121-92-8)

Conditions

Yield

Multi-step reaction with 8 steps 1.1: 91 percent / LiAlH4 / tetrahydrofuran / 0.25 h / 0 °C 2.1: 57 percent / NCS; Me2S / CH2Cl2 / 0.67 h 3.1: 92 percent / imidazole / dimethylformamide / 0.25 h / 20 °C 4.1: n-BuLi / hexane; tetrahydrofuran / 0.33 h / -50 °C 5.1: 86 mg / aq. H2O2 / CHCl3 / 0.02 h 6.1: 66 percent / n-butyllithium / tetrahydrofuran; toluene / 0.5 h / -50 °C 7.1: Mg / tetrahydrofuran / 0.5 h / 20 °C 7.2: 89 percent / CuBr*Me2S / tetrahydrofuran / 0.5 h / -10 °C 8.1: 96 percent / HF/pyridine / tetrahydrofuran / 20 °C

(S)-2-[(1R,3aR,7aR)-octahydro-7a-methyl-4-oxo-4H-inden-1-yl]propyl 4-methylbenzenesulfonate (342645-83-4) → Eldecalcitol (104121-92-8)

Conditions	Yield
Multi-step reaction with 3 steps 1.1: 66 percent / n-butyllithium / tetrahydrofuran; toluene / 0.5 h / -50 °C 2.1: Mg / tetrahydrofuran / 0.5 h / 20 °C 2.2: 89 percent / CuBr*Me2S / tetrahydrofuran / 0.5 h / -10 °C 3.1: 96 percent / HF/pyridine / tetrahydrofuran / 20 °C

Upstream product

• 1006030-67-6 (3R,4R)-hexa-1,5-diene-3,4-diyl diacetate 
• 15410-49-8 (2S,3S,4S,5S)-1,6-dibromohexane-2,3,4,5-tetrayl tetraacetate 
• 70550-73-1 (1R,3aR,7aR)-1-[(2R)-6-hydroxy-6-methylhept-2-yl]-7a-methyloctahydroinden-4-one 
• 66251-18-1 Grundmann's ketone 
• 67-97-0 vitamin D₃ 
• 1254276-84-0 (Z)-[2-{(3R,4R,5R)-3,5-bis(tert-butyldimethylsilanyloxy)-2-methylene-4-(3-(tert-butyldiphenylsilanyloxy)propoxy)cyclohexylidene}ethyl]diphenylphosphine oxide 
• 81506-41-4 (1R,3aR,7aR)-1-{(1R)-1,5-dimethyl-5-[(trimethylsilyl)oxy]hexyl}-7a-methyloctahydro-4H-inden-4-one 
• 1069-23-4 (3R,4R)-1,5-hexadiene-3,4-diol 

Relevant articles and documents

Large-Scale Synthesis of Eldecalcitol

Industrial-scale synthesis of eldecalcitol is described. AA highly diastereoselective epoxidation of p-methoxybenzyl (PMB) protected dienol at room temperature provides the key epoxide intermediate with a secondary hydroxyl group, which is alkylated with a triflate to set up all of the subunits at the C-1, C-2, and C-3 positions of the A-ring fragment. Selective protecting group manipulation followed by palladium-catalyzed cyclization then provides the A-ring synthon. The C/D-ring fragment is obtained by (1) direct C-H hydroxylation of Grundman's ketone using in situ prepared trifluoropropanone dioxirane and (2) protection. Finally, the coupling of the A-ring with the C/D-ring fragment, global deprotection, and recrystallization provide the highly crystalline eldecalcitol.

NOVEL CRYSTAL FORM OF VITAMIN D3 DERIVATIVE AND METHOD FOR PRODUCING THE SAME

PROBLEM TO BE SOLVED: To provide a novel crystal form of a vitamin D3 derivative and a method of producing the same. SOLUTION: The present invention provides a production method including crystallizing 1α,25-dihydroxy-2β-(3-hydroxypropoxy) vitamin D3 (compound (1)), known a vitamin D3 derivative, by quenching from a hydrous organic solvent, and further heating it, to obtain C crystals of the compound (1), and a crystalline form obtained as a result of it. SELECTED DRAWING: Figure 5 COPYRIGHT: (C)2018,JPOandINPIT

Two convergent approaches to the synthesis of 1,25-dihydroxy 2-(3-hydroxypropoxy)vitamin D3 (ED-71) by the lythgoe and thf trost coupling reactions

Two convergent syntheses of 1,25-dihydroxy-2-(3-hydroxypropoxy)vitamin D3 (ED-71) by the Lythgoe coupling reaction between the A-ring phosphine oxide and the C/D-ring ketone and the Trost coupling reaction between the A-ring ene-yne and the C/D-ring bromomethylene are described.