356068-93-4Relevant articles and documents
CONJUGATES OF AMPK INHIBITORS AND PROTAC DEGRADERS AND RELATED USES
-
Paragraph 0333; 0336, (2022/01/12)
The present disclosure relates to compounds of Formula (I): T-L-D, stereoisomers thereof, prodrugs thereof, and pharmaceutically acceptable salts thereof, wherein T is an AMPK inhibiting moiety; L is a linking moiety; and D is a PROTAC degrading moiety. The present disclosure also relates to uses of the compounds, e.g., to inhibit AMP-Activated protein kinase (AMPK), degrading AMPK protein, and/or treat cancer in a subject.
AMP-ACTIVATED PROTEIN KINASE INHIBITORS AND METHODS OF MAKING AND USING THE SAME
-
Page/Page column 63-64, (2021/01/23)
The present disclosure relates to compounds of Formula (I): (I); stereoisomers thereof, prodrugs thereof, and pharmaceutically acceptable salts thereof. The present disclosure also relates to uses of the compounds, e.g., to inhibit AMP-Activated protein kinase (AMPK) and treat cancer in a subject.
Development of a novel conjugatable sunitinib analogue validated through in vitro and in vivo preclinical settings
El Mubarak, Mohamed A.,Leontari, Iliana,Efstathia, Giannopoulou,Vrettos, Eirinaios I.,Shaikh, Abdul kadar,Konstantinos, Siatis E.,Danika, Charikleia,Kalofonos, Haralabos P.,Tzakos, Andreas G.,Sivolapenko, Gregory B.
, p. 515 - 523 (2018/07/06)
Sunitinib is an oral FDA/EMEA approved multi-targeted tyrosine kinase inhibitor. It possesses anti-angiogenic and antitumor activity against a variety of advanced solid tumors. However, its chemical core does not allow a potential linkage to tumor-homing elements that could eventually enhance its potency. Therefore, a novel linkable sunitinib derivative, designated SB1, was rationally designed and synthesized. The pharmaceutical profile of SB1 was explored both in vitro and in vivo. Mass spectrometry and NMR spectroscopy were utilized for characterization, while MTT assays and LC-MS/MS validated protocols were used to explore its antiproliferative effect and stability, respectively. Cytotoxicity evaluation in three glioma cells showed that SB1 preserved the antiproliferative effect of sunitinib. SB1 was stable in vitro after 24 h incubation in mouse plasma, while both agents exhibited bioequivalent pharmacokinetic characteristics after i.v. administration in Balb/c mice. To evaluate the levels of SB1 in mouse plasma, a novel analytical method was developed and validated in accordance to the US FDA and the EU EMA guidelines. We formulated a novel linkable sunitinib analog exhibiting similar antiproliferative and apoptotic properties with native sunitinib in glioma cell lines. Both SB1 and native sunitinib showed identical in vitro stability in mouse plasma and pharmacokinetics after i.v. administration in Balb/c mice.