The regulatory role of PI3K in ageing-related diseases

SIRT3/6: an amazing challenge and opportunity in the fight against fibrosis and aging

Fibrosis is a typical aging-related pathological process involving almost all organs, including the heart, kidney, liver, lung, and skin. Fibrogenesis is a highly orchestrated process defined by sequences of cellular response and molecular signals mechanisms underlying the disease. In pathophysiologic conditions associated with organ fibrosis, a variety of injurious stimuli such as metabolic disorders, epigenetic changes, and aging may induce the progression of fibrosis. Sirtuins protein is a kind of deacetylase which can regulate cell metabolism and participate in a variety of cell physiological functions. In this review, we outline our current understanding of common principles of fibrogenic mechanisms and the functional role of SIRT3/6 in aging-related fibrosis. In addition, sequences of novel protective strategies have been identified directly or indirectly according to these mechanisms. Here, we highlight the role and biological function of SIRT3/6 focus on aging fibrosis, as well as their inhibitors and activators as novel preventative or therapeutic interventions for aging-related tissue fibrosis.

New Horizons in Cancer Treatment: A Closer Look at Novel PI3Kα Inhibitors

Phosphoinositide 3-kinase (PI3K), a lipid messenger in cellular biology, regulates numerous cellular responses, including cell survival and migration. Abnormal activation of PI3K has been identified in many human tumors, implicating it as a pivotal point in cancer research. PI3K inhibitors have shown promise in controlling tumor progression and chemotherapy resistance. However, challenges like cutaneous adverse effects require further research. The PI3K signaling pathway's role in cellular processes, such as aging and Alzheimer's disease progression, also signifies its importance in drug development for aging-related diseases. Future research promises innovative therapeutic strategies targeting PI3K in managing cancer, aging, and neurodegenerative diseases. This Patent Highlight showcases compounds and compositions that may enlarge the PI3K inhibitory therapeutic window-effectively inhibiting the target in cancer cells while reducing toxicity in patients.