AI Article Synopsis
- * Researchers focused on altering the key pharmacophore (5'-OH and adenosine base) by replacing it with a bioisostere and reversing the stereochemistry at the 5'-O position for improved antiviral properties.
- * The novel compounds synthesized demonstrated significant anti-hepatitis B virus activity, particularly compound 6, which was confirmed with X-ray diffraction and produced promising results in terms of efficacy and structural innovation.
Article Abstract
The potential antiviral activity of aristeromycin type of derivatives (I) is limited by associated toxicity due to its possible 5'-O-phosphorylation and S-adenosyl-l-homocysteine hydrolase (SAHase) inhibitory activity. Aristeromycin structure has major pharmacophoric motif as 5'-OH and adenosine base, which may have significant role in enzyme binding followed by activity and or toxicity. Thus, the structural optimization to alter this major motif by replacing with its bioisostere and changing the 5'-O conformation through stereochemistry reversal was of interest. Thus, the inverted stereochemistry at 4'-position coupled with bioisostere of adenosine base in the target compounds (6-7) to access antiviral potential. The stereoselective formation of a key stereoisomer (2a) was achieved exclusively from neplanocin sugar (1a) by reduction in a single step. The novel target molecules (6-7) were synthesized in 4 steps with 55-62% yield. Compound 6 was analyzed by single crystal X-ray diffraction, which confirms the stereoselective formation of α-analogs with highly puckered cyclopentane ring and 2'-endo conformation. The compound 6 shown significant anti-hepatitis B virus activity of 6.5μM with CC50>100μM and yielded a promising lead with novel structural feature.
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| http://dx.doi.org/10.1016/j.bmcl.2016.07.005 | DOI Listing |
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