Rheumatoid arthritis (RA) is a systemic autoimmune inflammatory disorder designated with hyperplastic synovium, bone destruction and cartilage degradation. Current therapies involve targeting major cytokines and inflammatory mediators involved in RA to alleviate the pain and provide a temporary relief. Interleukin 21 (IL-21), a recently identified cytokine is known to possess a versatile role in modulating the cells of the RA synovium. Over the past decade, the pleiotropic role of IL-21 in RA pathogenesis has been implicated in several aspects. T helper 17 (Th17) and follicular T helper cells (Tfh), being the key immunomodulators of the RA synovium secrete high amounts of IL-21 during disease progression. Several studies have provided experimental evidences elucidating the multifaceted role of IL-21 in RA disease progression. IL-21 has the potential to activate T cells, B cells, monocytes/macrophages and synovial fibroblasts in RA pathogenesis through activation of JAK-STAT, MAPK and PI3K/Akt signaling pathways. Till date, therapies targeting Th17 cells and its inflammatory cytokines have been under investigation and are subjected to various clinical trials. This review showcases the role of IL-21 in RA pathogenesis and recent reports implicating its function in various immune cells, major signaling pathways, and in promoting osteoclastogenesis.
Curcumin, a natural diaryl heptanoid continues to be used as an alternative medicinal agent in many parts of South East Asia for treatment of many ailments. It can be usually obtained from substituted aryl aldehydes and acetylacetone and this route enables synthesis of a diverse set of curcumin analogues. Numerous analogues have been synthesized and tested by several researchers to investigate their activity against known biological targets and to improve upon the pharmacological and ADME profile by modifying substitutions on aromatic rings, β-diketone moiety and two flanking double bonds conjugated to the β-diketone moiety. Successful synthesis of such derivatives with modifications has resulted in the development of potential anticancer candidates that target various stages in cancer cell growth and development. Based on the evidences in modifications of these three functional elements, we have attempted to summarize the structure activity relationship of molecules which can be further utilized by researchers in medicinal chemistry in exploring the structure of curcumin.
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