Groschner Klaus
Gottfried Schatz Research Center, Medical Physics and Biophysics, Medical University of Graz, Graz, Austria.
Expert Opin Ther Targets. 2024 Nov;28(11):953-961. doi: 10.1080/14728222.2024.2430520. Epub 2024 Nov 18.
Intensive and detailed investigations of the molecular function and cellular role of mammalian transient receptor potential canonical (TRPC) channels started back in the early 90 of the past century. Initial TRPC research was fueled by high hopes to resolve fundamental questions of cellular Ca signaling. To date, we have learned important lessons in TRPC channel biology and biophysics, while little progress has been made in terms of therapeutic concepts.
This is a critical account of recent progress in building a solid mechanistic basis for therapeutic interventions utilizing TRPC3 as a target. I focus on hurdles and key issues to be resolved, thereby drafting a list of essential scientific 'to-dos' on the way toward drugging of TRPC3.
Recent advances in the molecular physiology of TRPC3 include unveiling its lipid sensing machinery and the channels´ ability to serve spatiotemporally diverse Ca signaling in a cell type- and context-dependent manner. The ongoing development of technology for high-precision manipulation of the channel opens up a view on novel therapeutic strategies. It is now to unravel the complex role of TRPC3 in human physiopathology, to pinpoint the channels´ therapeutic relevance, and to further refine technologies for targeted interventions.
对哺乳动物瞬时受体电位香草酸亚型(TRPC)通道的分子功能和细胞作用进行深入细致的研究始于上世纪90年代初。最初对TRPC的研究充满了很高的期望,希望解决细胞钙信号传导的基本问题。到目前为止,我们在TRPC通道生物学和生物物理学方面吸取了重要教训,但在治疗理念方面进展甚微。
本文批判性地阐述了以TRPC3为靶点进行治疗干预的坚实机制基础的最新进展。我关注有待解决的障碍和关键问题,从而列出在TRPC3药物研发道路上必不可少的科学“待办事项”清单。
TRPC3分子生理学的最新进展包括揭示其脂质传感机制以及该通道以细胞类型和环境依赖的方式服务于时空多样的钙信号传导的能力。用于高精度操纵该通道的技术的不断发展为新型治疗策略开辟了前景。现在需要阐明TRPC3在人类生理病理学中的复杂作用,确定该通道的治疗相关性,并进一步完善靶向干预技术。
