Targeting Diabetes with Azole-derived Medicinal Agents.

Azoles have long been regarded as an ideal scaffold for the development of numerous innovative therapeutic agents as well as other incredibly adaptable and beneficial chemicals with prospective uses in a variety of fields, including materials, energetics (explosophores), and catalysis (azole organocatalytic arbitration). Azoles exhibit promising pharmacological activities, including antimicrobial, antidiabetic, antiviral, antidepressant, antihistaminic, antitumor, antioxidant, antiallergic, antihelmintic, and antihypertensive activity. According to a database analysis of U.S. FDAapproved medications, 59% of specific medications are connected to small molecules that have heterocycles having nitrogen atoms. The azole moiety has impressive electron abundance. Azoles promptly attach to various receptors as well as enzymes in the physiological environment via distinct specialized interactions, contributing to their anti-diabetic potential. This review encompasses the recent research progress on potent azole-derived antidiabetic agents that can be used as an alternative for the management of type-2 diabetes.

Therapeutic charisma of imidazo [2,1-b] [1,3,4]-thiadiazole analogues: a patent review.

Imidazothiadiazole was discovered around the 1950s era, containing an imidazole ring fused to a thiadiazole ring. Imidazothiadiazole exhibit versatile pharmacological properties including anticonvulsant, cardiotonic, anti-inflammatory, diuretic, antifungal, antibacterial and anticancer. Despite of the being discovered in 1950s, the imidazothiadiazole derivatives are unable to being processed to clinical trials because of lack of bioavailability, efficacy and cytotoxicity. The recent patent literature focused on structural modification of imidazothiadiazole core to overcome these problems. This review limelight a disease-centric perspective on patented imidazothiadiazole from 2015-2023 and to understand their mechanism of action in related diseases. The relevant granted patent applications were located using patent databases, Google Patents, USPTO, EPO, WIPO, Espacenet and Lens.

Oral insulin delivery: a patent review.

Insulin, on oral administration, is very troublesome because of its limited bioavailability. The evolution of oral insulin delivery formulations is greatly desired for non-invasive therapy by overcoming its low bioavailability, GIT enzymatic deactivation, poor lipophilicity and low stability. Different approaches have been proposed to boost oral insulin bioavailability in insulin-delivery systems and emerging effective therapies by using nanoparticle formulation, nanocapsid, modified chitosan particles, polydopamine microcapsules and nanoliposomes. The present review includes patents and patent applications that were published between 2017 and January 2022.

DNA intercalators as anticancer agents.

Cancer is one of the most prevailing disease conditions, which occurs due to uncontrolled cell division either due to natural mutation to the genes or due to changes induced by physical, chemical, or biological carcinogens. According to WHO, it is the second leading cause of death worldwide and has reported 10 million deaths in 2020. Hence, there arises the need for better chemotherapies and DNA intercalators are one such emerging therapy for cancer. DNA intercalating agents reversibly intercalate with the double-helical structure of DNA by interacting with adjacent base pairs and disrupting the structure of DNA and thereby causing cell death. Here, we discuss the different classes of organo-intercalators used in cancer therapy describing their anticancer and intercalation ability by different methods along with their structure-activity relationship and mechanism of action.