136897-53-5Relevant academic research and scientific papers
Structure-Activity Relationships of Fish Oil Derivatives with Antiallergic Activity in Vitro and in Vivo
Kim, In-Hae,Kanayama, Yoshiki,Nishiwaki, Hisashi,Sugahara, Takuya,Nishi, Kosuke
, p. 9576 - 9592 (2019)
A series of unsaturated fatty acids in fish oil and their corresponding ethanolamide metabolites were explored to find active fish oil components of antiallergic activity in vitro. Ethanolamides of omega-3 fatty acids (α-linolenic acid, EPA, and DHA) were found to possess promising antiallergic activity, whereas free fatty acids and ethanolamides of other fatty acids exhibited no or weak potency. Based on this finding, structure-activity relationships of DHA-ethanolamide (DHEA) derivatives were investigated to yield better fatty acid derivatives with enhanced antiallergic activity in vitro and in vivo. When the ethanolamide moiety of DHEA was replaced by the substituted sulfonamide functionality, highly promising potency was provided in vitro. Compound 59 showed improved antiallergic activity in vivo over DHEA. The results indicate that optimized DHEA derivatives have enhanced antiallergic activity in vitro and in vivo, and the resulting structures will be an important basis for further development of bioavailable derivatives with promising allergy suppressive activity.
FATTY ACID ANTIVIRAL CONJUGATES AND THEIR USES
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Paragraph 0725-0728, (2016/06/01)
The invention relates to fatty acid antiviral conjugates; compositions comprising an effective amount of a fatty acid antiviral conjugate; and methods for treating or preventing a viral infection comprising the administration of an effective amount of a fatty acid antiviral conjugate.
FATTY ACID ANTIVIRAL CONJUGATES AND THEIR USES
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Paragraph 0850; 0851, (2014/09/30)
The invention relates to fatty acid antiviral conjugates; compositions comprising an effective amount of a fatty acid antiviral conjugate; and methods for treating or preventing a viral infection comprising the administration of an effective amount of a fatty acid antiviral conjugate.
FATTY ACID ANTIVIRAL CONJUGATES AND THEIR USES
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Paragraph 00169, (2013/07/05)
The invention relates to fatty acid antiviral conjugates; compositions comprising an effective amount of a fatty acid antiviral conjugate; and methods for treating or preventing a a viral infection comprising the administration of an effective amount of a fatty acid antiviral conjugate.
DERIVATIVES OF DOCOSAHEXAENOYLETHANOLAMIDE AND USES THEREOF
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Paragraph 0056; 0088, (2013/11/05)
The invention provides derivatives of DEA which have increased potency and hydrolysis resistance as compared to DEA, and compositions thereof, as well as methods of using these derivatives to promote neurogenesis, neurite growth and/or length, and/or promote synaptogenesis.
Evaluation of endogenous fatty acid amides and their synthetic analogues as potential anti-inflammatory leads
Dang, Hung The,Kang, Gyeoung Jin,Yoo, Eun Sook,Hong, Jongki,Choi, Jae Sue,Kim, Hyung Sik,Chung, Hae Young,Jung, Jee H.
experimental part, p. 1520 - 1527 (2011/03/23)
A series of endogenous fatty acid amides and their analogues (1-78) were prepared, and their inhibitory effects on pro-inflammatory mediators (NO, IL-1β, IL-6, and TNF-α) in LPS-activated RAW264.7 cells were evaluated. Their inhibitory activity on the pro-inflammatory chemokine MDC in IFN-γ-activated HaCaT cells was also examined. The results showed that the activity is strongly dependent on the nature of the fatty acid part of the molecules. As expected, the amides derived from enone fatty acids showed significant activity and were more active than those derived from other types of fatty acids. A variation of the amine headgroup also altered bioactivity profile remarkably, possibly by modulating cell permeability. Regarding the amine part of the molecules, N-acyl dopamines exhibited the most potent activity (IC50 ~2 μM). This is the first report of the inhibitory activity of endogenous fatty acid amides and their analogues on the production of nitric oxide, cytokines (IL-1β, IL-6, and TNF-α) and the chemokine MDC. This study suggests that the enone fatty acid-derived amides (such as N-acyl ethanolamines and N-acyl amino acids) and N-acyl dopamines may be potential anti-inflammatory leads.
