James E. Macdonald

Isoginkgetin enhances adiponectin secretion from differentiated adiposarcoma cells via a novel pathway involving AMP-activated protein kinase

Adiponectin is an anti-diabetic hormone secreted by adipocytes. Circulating adiponectin levels are lower in obese and type II diabetic patients than in healthy people. Weight loss or thiazolidinedione treatment increases plasma adiponectin levels. Animal models and human studies suggest that elevated adiponectin levels increase insulin sensitivity. We screened a library of drug-like compounds and natural products for novel agents enhancing adiponectin production. We identified isoginkgetin, a compound derived from the leaves of Ginkgo biloba, to up-regulate adiponectin secretion with potency comparable to that of rosiglitazone, a known modulator of adiponectin production. However, unlike rosiglitazone, peroxisome proliferators-activated receptor gamma activity seems not required for the action of isoginkgetin, and isoginkgetin has only a slight effect on adipogenesis, which makes it an attractive candidate for anti-diabetic treatment. Further investigation revealed that both isoginkgetin and rosiglitazone activate AMP-activated protein kinase (AMPK) in adipocytes. Our findings suggest a novel mechanism for the elevation of adiponectin by isoginkgetin, which is different from that of rosiglitazone. Furthermore, this novel mechanism for adiponectin regulation involving AMPK can potentially facilitate new understanding of metabolic diseases and identification of new targets, as well as agents that increase plasma adiponectin levels.

Discovery of highly potent small molecule Hepatitis C Virus entry inhibitors.

Novel, highly potent small molecule HCV entry inhibitors are reported. The SAR exploration of a hit molecule identified from screening of a compound library led to the identification of highly potent compounds with IC(50) values of <5 nM in the tissue culture HCV infectious assay.

Discovery of ITX 4520: a highly potent orally bioavailable hepatitis C virus entry inhibitor.

The manuscript reports an identification of a highly potent, orally bioavailable hepatitis C virus entry inhibitor through optimization of a previously reported class of molecules (1) that were not stable in the rat plasma. Compound 39 (ITX 4520) exhibited an excellent PK profile in both rats and dogs with good oral exposure, half-life and oral bioavailability. The compound is also well-tolerated in the preliminary in vivo toxicity studies and has been selected as a pre-clinical candidate for our HCV clinical pipeline.

Isosteric replacement in a series of β-substituted monophosphonate calcium antagonists

Abstract A series of β-substituted phosphonate derivatives was prepared by standard routes and the Ca ++ channel inhibitory properties of the compounds examined in rat brain and aorta. The results indicate the certain ester substituents can serve as effective phosphonate replacements. The most potent calcium antagonist identified from the series was the β-substituted hexanoyl ester derivative BMY-43011 ( 5f ).