Crosstalk Between Signaling Stroke Cascade and Therapeutic Receptors PPAR-γ, ROCK, CB1R, and CB2R: From Mechanism to Therapies.

IF 4.3 2区医学 Q1 CLINICAL NEUROLOGY

Translational Stroke Research Pub Date : 2025-10-01 Epub Date: 2025-05-08 DOI:10.1007/s12975-025-01352-2

Mrugendra B Potdar, Rohit P Bhamare, Yogeeta O Agrawal, Aarti V Belgamwar

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Abstract

Stroke remains a leading cause of disability and mortality worldwide, primarily due to the complex and multifaceted nature of its pathophysiology. This review aims to provide a comprehensive and mechanistic understanding of the crosstalk between key signaling pathways activated during stroke and the therapeutic potential of specific receptors: PPAR-γ, ROCK, CB1R, and CB2R. We delve into the intricate signaling cascades that occur post-stroke, including excitotoxicity, oxidative stress, and inflammation, highlighting the pivotal molecular players involved. PPAR-γ, known for its neuroprotective and anti-inflammatory properties, emerges as a critical modulator in stroke therapy. ROCK, a central component in the Rho/ROCK pathway, is implicated in vascular and neuronal damage, making its inhibition a promising therapeutic strategy. The roles of CB1R and CB2R within the endocannabinoid system are explored, with a focus on their dualistic nature in neuroprotection and neurotoxicity. The review further examines the interconnectivity of these receptors within the stroke signaling network, proposing that their synergistic modulation could enhance therapeutic outcomes. Current therapeutic approaches, including pharmacological and multi-target strategies, are critically evaluated, addressing the challenges in translating mechanistic insights into clinical practice. Additionally, the identification and utilization of biomarkers for stroke diagnosis and therapy monitoring are discussed, offering a glimpse into future prospects. Emerging therapies, novel drug developments, and personalized medicine approaches are presented as potential game-changers in stroke treatment.

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脑卒中信号级联与治疗受体PPAR-γ、ROCK、CB1R和CB2R之间的串扰：从机制到治疗。

中风仍然是世界范围内致残和死亡的主要原因，主要是由于其病理生理的复杂性和多面性。这篇综述的目的是提供一个全面的和机制的理解在中风期间激活的关键信号通路之间的串扰和特定受体的治疗潜力：PPAR-γ， ROCK， CB1R和CB2R。我们深入研究了中风后发生的复杂的信号级联反应，包括兴奋性毒性、氧化应激和炎症，并强调了所涉及的关键分子。PPAR-γ以其神经保护和抗炎特性而闻名，在中风治疗中成为重要的调节剂。ROCK是Rho/ROCK通路的核心成分，与血管和神经元损伤有关，因此抑制其成为一种有前景的治疗策略。探讨了CB1R和CB2R在内源性大麻素系统中的作用，重点讨论了它们在神经保护和神经毒性方面的二重性。这篇综述进一步研究了这些受体在卒中信号网络中的相互联系，提出它们的协同调节可以提高治疗效果。目前的治疗方法，包括药理学和多靶点策略，都经过严格评估，解决了将机制见解转化为临床实践的挑战。此外，还讨论了生物标志物在脑卒中诊断和治疗监测中的识别和利用，并展望了未来的前景。新兴疗法、新药物开发和个性化医疗方法被认为是中风治疗的潜在改变者。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Translational Stroke Research CLINICAL NEUROLOGY-NEUROSCIENCES

CiteScore

13.80

自引率

4.30%

发文量

130

审稿时长

6-12 weeks

期刊介绍： Translational Stroke Research covers basic, translational, and clinical studies. The Journal emphasizes novel approaches to help both to understand clinical phenomenon through basic science tools, and to translate basic science discoveries into the development of new strategies for the prevention, assessment, treatment, and enhancement of central nervous system repair after stroke and other forms of neurotrauma. Translational Stroke Research focuses on translational research and is relevant to both basic scientists and physicians, including but not restricted to neuroscientists, vascular biologists, neurologists, neuroimagers, and neurosurgeons.