Mona Patel

Treatment of non-insulin-dependent diabetes mellitus.

Diabetes mellitus has been declared to be at an epidemic level by the World Health Organization. The syndrome is characterised as either Type I (insulin-dependent) or Type II (non-insulin-dependent) diabetes mellitus. Impaired glucose tolerance for extended periods of time results in serious complications such as kidney damage and impaired blood circulation and is the main cause for blindness and amputations in patients with diabetes. A combination of life-style change, dietary change and oral medications can treat Type II diabetes mellitus effectively and prevent long-term complications. Combination therapy appears to be the most effective approach in controlling blood glucose levels. This review updates the progress made in medicinal chemistry towards promising biological targets, with the development of a new generation of small molecules having improved efficacy and safety profiles.

Nuclear Receptors as Potential Targets for Modulating Reverse Cholesterol Transport

This review describes the role of nuclear receptors in the regulation of genes involved in cholesterol transport and synthetic modulators of these receptors. Increasing the efflux of cholesterol from peripheral cells, such as lipid-laden macrophages, through a process called reverse cholesterol transport (RCT) requires HDL. Increasing the circulating levels of HDL, as well as the efficiency of the RCT process, could result in a reduction in the development of coronary artery disease and atherosclerosis. Nuclear receptors of the RXR heterodimer family have recently been shown to regulate key genes involved in HDL metabolism and reverse cholesterol transport. These include the PPARs (peroxisome proliferator activated receptors), the LXR (liver X receptor) and the farnesoid X receptor (FXR). The synthesis of specific and potent ligands for these receptors has aided in ascertaining the physiological role of these receptors as lipid sensors and the potential therapeutic utility of modulators of these receptors in dyslipidemias and cardiovascular disease.