Non-vesicular Lipid Transport Machinery in Trichomonas vaginalis: Novel Drug Targets against Trichomoniasis.

Eukaryotic cells have separate membrane-enclosed organelles with distinct biochemical identities and specialized functions. The unique characteristics of each organelle are regulated by asymmetric distribution and intra-cellular trafficking of two important biomolecules, proteins and lipids. Non-vesicular lipid transport facilitated by lipid transfer proteins performs essential roles in intracellular lipid trafficking and homeostasis, while vesicular transport regulates protein trafficking. Comparative analysis of lipid transport machinery in protists could help us to understand the basis of parasitism and insight into eukaryotic evolution. Trichomonas vaginalis, a parasitic protist, greatly depends on receptor-ligand-mediated signaling pathways for cellular differentiation, nutrient uptake, secretion of virulence factors, and pathogenesis. Lipids, despite being key molecules of signaling cascades, have mechanisms of intracellular transport that are largely unexplored in T. vaginalis. We have identified a repertoire of seventeen potential lipid transfer protein (LTP) homologs in T. vaginalis based on a domain-based search on TrichDB (genome database of Trichomonas) coupled with bioinformatics analyses, which indicates the presence of well-organized lipid transport machinery in this parasite. We emphasized here their evolutionary uniqueness and conservation and discussed their potential implications for parasite biology in regard to future therapeutic targets against Trichomoniasis.

Structure-Activity Relationship Insight of Naturally Occurring Bioactive Molecules and Their Derivatives Against Non-Small Cell Lung Cancer: A Comprehensive Review.

BACKGROUND: Non-small cell lung cancer (NSCLC) is a deadly disease that affects millions globally and its treatment includes surgery, chemotherapy, and radiotherapy. Chemotherapy and radiotherapy have many disadvantages, which include potential harmful side effects. Due to the widespread use of drugs in lung cancer, drug treatment becomes challenging due to multidrug resistance and adverse reactions. According to the recent findings, natural products (NPs) and their derivatives are being used to inhibit and suppress cancer cells. OBJECTIVE: Our objective is to highlight the importance of phytochemicals for treating NSCLC by focusing on the structural features essential for the desired activity with fewer side effects compared to synthetic molecules. METHODS: This review incorporated data from the most recent literature, including in vitro, in vivo, nanoformulation-based recent advancements, and clinical trials, as well as the structure-activity relationship (SAR), described for a variety of possible natural bioactive molecules in the treatment of NSCLC. RESULTS: The analysis of data from recent in vitro, in vivo studies and ongoing clinical trials are highlighted. The SAR studies of potential NPs signify the presence of several common structural features that can be used to guide future drug design and development. CONCLUSION: The role of NPs in the battle against NSCLC can be effective, as evidenced by their structural diversity and affinity toward various molecular targets. The main purpose of the review is to gather information about NPs used in the treatment of NSCLC.