Mini Reviews in Medicinal Chemistry - Volume 14, Issue 7, 2014

Aging has been defined as a gradually decreasing ability to maintain homeostasis and increasing risk to die. Growing evidence supports malfunctioning with age of quality control system. At an older age, accumulation of altered macromolecules and membranes may impair cell functioning; accumulation of altered mitochondria and peroxisomes may boost the yield of ROS per unit of produced energy and accelerate the aging process. Evidence produced that autophagy, an essential part in cell housekeeping during fasting, may help removal of altered membranes, mitochondria and peroxisomes selectively and account for the antiaging effects of caloric restriction. Stimulation of autophagy may improve innate and adaptive immunity; decrease the risk of myopathy, heart disease, liver disease, neurodegeneration and cancer; and retard aging. Functioning of autophagy may decline in well fed adults and is almost negligible at older age. Induction of autophagy may result in “cleaner cells” lower in oxidative status and more resistant to injury and disease. The administration of antilipolytic drugs to fasted animals was shown to intensify autophagy in a physiologically appropriate manner, to enhance submaximal antiaging effects of low level of caloric restriction, to rapidly rescue older cells from the accumulation of altered mtDNA and older peroxisomes, to increase urinary 8-OHdG levels, and counteract the age-related hypercholesterolemia in rodents. In conclusion, benefits of long-lasting stimulation of autophagy and protein and organelle turnover shows that antilipolytic drugs might find a novel therapeutic application in antiaging medicine.

Alzheimer’s disease (AD) and Parkinson’s disease (PD) represent the most common neurodegenerative disorders and affect more than 35 million people. Due to the limited effectiveness of available treatments in halting the neurodegenerative process, new therapies, such therapies based on growth factors (GFs), have been investigated. Nevertheless, the efficacies of these new treatments depend not only on the application of neurotrophins but also on the approaches used to deliver these proteins such that they can reach the brain. This review summarises the most widely used drug delivery systems (DDSs) for releasing GFs as possible treatments for AD and PD.

Bilberries are a rich dietary source of various phytonutrients, including anthocyanins which contribute greatly to their antioxidant capacity and have demonstrated a broad spectrum of biomedical functions. These include protection against cardiovascular disorders, age-induced oxidative stress, inflammatory responses and several degenerative diseases. Berry anthocyanins also improve neuronal and cognitive brain functions, ocular health as well as protecting genomic DNA integrity. In recent years, sales of many dietary supplements/pharmaceutical products containing anthocyanins in various dosages and formulations have been made by advertising their wide range of beneficial effects. However, there is a heightened risk of distributing deteriorated formulations to consumers due to lax regulations, in particular those applicable to phytochemical characterization and extract standardization, and in terms of quality regarding the stability of anthocyanins. Anthocyanin pigments readily degrade during industrial processing and this can have a dramatic impact on color quality and may also affect nutritional/pharmaceutical properties. This review aims to summarize the main health effects of bilberry extract used in several food supplements/pharmaceutical formulations focusing on some important aspects of anthocyanin degradation during processing and storage. It will also describe the main technological strategies which can give active ingredients greater stability, solubility and dispersibility in order to enhance formulation quality which is of great interest to the consumer and industry due to its direct and indirect impact on consumer health.

Glucose-phosphorylating enzyme, glucokinase (GK) plays a major role in glucose homeostasis primarily through its regulatory actions in pancreatic β-cells and liver hepatocytes. Conversion of glucose to glucose-6-phosphate by GK promotes glycogen synthesis in liver hepatocytes, and insulin release in the pancreatic β-cells. Small molecules called glucokinase activators (GKAs) which bind to an allosteric activator site of the GK enzyme have indeed been discovered and developed, and thus hold great promise as new, effective and safe antidiabetic agents. GKAs enhance the catalytic activity of GK and promising clinical trials in humans demonstrated that they are highly useful in the treatment of type 2 diabetes mellitus. Most of the reported GKAs include amide derivatives like benzamides, acrylamides, carboxamides, acetamides and acrylamides. Examples include Piragliatin, AZD1656, AZD6370, R1440 GKA2, GKA 50, YH GKA, PSN 010, and LY2121260. Recent findings on GKAs including lead compounds and overview of current hypothesis on mechanism of GK activation along with summary of the recently published patents as well as the GKAs of natural origin are reported in the present review.

Benzocoumarins are coumarins with a phenyl group bonded to 3,4-, 5,6-, 6,7-, or 7,8-positions. Over the past years, significant efforts have been made not only to isolate the novel structural analogs of benzocoumarins with prominent bioactivities but also to design new synthetic methods to synthesize benzocoumarins with better or novel biological properties. The aim of this review is to provide the readers with an overview of the research progress of benzocoumarins from 1953 to May 2014, covering its isolation, synthesis, and biological activities.

Several scientists have synthesized molecules with pyrrolo- isoxazole nucleus and evaluated the molecules for different biological activities. The present review discusses these different compounds with pyrrolo-isoxazole containing nucleus for their neuroprotective, anti-stress, acetylcholinesterase and anti-amnestic, antihypertensive and antibacterial activities.