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Merck

Guaifenesin derivatives promote neurite outgrowth and protect diabetic mice from neuropathy.

Journal of medicinal chemistry (2013-06-14)
Mallinath B Hadimani, Meena K Purohit, Chandrashaker Vanampally, Randy Van der Ploeg, Victor Arballo, Dwane Morrow, Katie E Frizzi, Nigel A Calcutt, Paul Fernyhough, Lakshmi P Kotra
RESUMEN

In diabetic patients, an early index of peripheral neuropathy is the slowing of conduction velocity in large myelinated neurons and a lack of understanding of the basic pathogenic mechanisms hindered therapeutics development. Racemic (R/S)-guaifenesin (1) was identified as a potent enhancer of neurite outgrowth using an in vitro screen. Its R-enantiomer (R)-1 carried the most biological activity, whereas the S-enantiomer (S)-1 was inactive. Focused structural variations to (R/S)-1 was conducted to identify potentially essential groups for the neurite outgrowth activity. In vivo therapeutic studies indicated that both (R/S)-1 and (R)-1 partially prevented motor nerve conduction velocity slowing in a mouse model of type 1 diabetes. In vitro microsomal assays suggested that compounds (R)-1 and (S)-1 are not metabolized rapidly, and PAMPA assay indicated moderate permeability through the membrane. Findings revealed here could lead to the development of novel drugs for diabetic neuropathy.

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Sigma-Aldrich
Guaiacol glyceryl ether, ≥98% (GC)
Supelco
Guaifenesin, certified reference material, pharmaceutical secondary standard