Current Topics in Medicinal Chemistry - Volume 23, Issue 28, 2023

Bruton tyrosine kinase (BTK) is an important protein of the tyrosine kinase family and plays a key role in signal transduction, proliferation, migration, and survival in B lymphocytes. The inhibition of BTK is a promising therapy for various autoimmune diseases (AD) involving abnormal B cell function, such as rheumatoid arthritis (RA), multiple sclerosis (MS), and systemic lupus erythematosus (SLE). This article briefly summarizes the role of BTK in the BCR signaling pathway, the development process of BTK inhibitors, and especially the latest progress of their clinical trials for the treatment of AD.

Aims: The purpose of this review was to emphasize the nutritional value, and pharmacological and phytochemical properties of Salvia hispanica, as well as its toxicological evaluation.Background: Salvia hispanica L. (S. hispanica), also called chia seeds, is an annual herbaceous plant belonging to the family Lamiaceae. It is a species of medicinal and dietary plant used since ancient times by the Maya and Aztecs. Its product is an indehiscent dry fruit that is commonly called a seed. It is utilized for its health benefits and uses in cooking.Objective: The study aimed to investigate the pharmacological, phytochemical, and toxicological properties of S. hispanica seeds. The research also attempted to explore and compile all existing knowledge and data on these seeds' nutritional value and medical applications.Materials and Methods: The current review was conducted using numerous scientific databases, including Science Direct, Scopus, PubMed, Google Scholar, etc. The correct plant name was verified from plantlist.org. The results of this search were interpreted, analyzed, and documented based on the obtained bibliographic information.Results: S. hispanica is a pseudo cereal that is consumed by the world's population because of its preventive, functional, and antioxidant characteristics, attributable to the presence of lipids, dietary fiber, protein, phenolic compounds, vitamins, and minerals. According to research, chia offers hypoglycemic, antimicrobial, anticancer, anti-inflammatory, antioxidant, antihypersensitive, anti-obesity, and cardioprotective properties. Chia consumption has grown because of its favorable benefits on obesity, cardiovascular disease, diabetes, and several forms of cancer. These advantages are mostly due to the high concentration of essential fatty acids, dietary fiber, antioxidants, flavonoids, anthocyanins, vitamins, carotenoids, and minerals found in this seed. Based on the beneficial components, chia seeds have enormous potential in the areas of health, food, animal feed, medicines, and nutraceuticals. Finally, toxicological investigations have indicated the greater doses of chia seed extracts as safe.Conclusion: The current evaluation has focused on the distribution, chemical composition, nutritional value, and principal uses of S. hispanica in order to determine future research requirements and examine its pharmacological applications through clinical studies.

Species of genus Morus (family Moraceae) have been used as traditional medicinal and edible resources since ancient times. Genus Morus has been acknowledged as a promising resource for the exploration of novel compounds with various bioactivities. Phytochemical investigations of the genus have led to the discovery of more than approximately 453 natural products from 2011 to 2023, mainly including flavonoids, Diels-Alder adducts, 2-arylbenzfuran, alkaloids and stilbenes. Bioactive constituents and extracts of this genus displayed a wide range of impressive biological properties including antidiabetic, anti-inflammatory, antioxidant, anti-cancer, hepatoprotective, renoprotective, and some other activities. Herein, the research progress of this genus Morus from 2011 to 2023 on phytochemistry and pharmacology are systematically presented and discussed for the first time. This current review provides the easiest access to the information on genus Morus for readers and researchers in view of enhancing the continuity on research done on this genus.

Platelets have traditionally been investigated for their role in clot formation in the course of cardiovascular diseases and strokes. However, recent work indicates platelets to be an integral aspect of wider systemic processes, with relevance to the pathophysiology of a host of diverse medical conditions, including neurodegenerative disorders and cancer. This article reviews platelet function and interactions with the gut microbiome and circadian systems, highlighting the role of the platelet mitochondrial melatonergic pathway in determining platelet activation, fluxes and plasticity. This provides a number of novel conceptualizations of platelet function and mode of interaction with other cell types, including in the pathoetiology and pathophysiology of diverse medical conditions, such as cancer, Alzheimer's disease, and amyotrophic lateral sclerosis. It is proposed that a platelet-gut axis allows platelets to contribute to many of the pathophysiological processes linked to gut dysbiosis and gut permeability. This is at least partly via platelet sphingosine- 1-phosphate release, which regulates enteric glial cells and lymphocyte chemotaxis, indicating an etiological role for platelets in a wide array of medical conditions linked to alterations in the gut microbiome. Platelets are also an important regulator of the various microenvironments that underpin most human medical conditions, including the tumor microenvironment, neurodegenerative diseases, and autoimmune disorders. Platelet serotonin release regulates the availability of the mitochondrial melatonergic pathway systemically, thereby being an important determinant of the dynamic metabolic interactions occurring across cell types that underpin the pathoetiology of many medical conditions. In addition, a number of novel and diverse future research directions and treatment implications are proposed.