《生命科学》 2026, 38(5): 783-797

靶向内皮功能：脑小血管病的潜在治疗策略与展望

张卓钰^1,2 , 王勇豪² , 张 琪^2,*

¹山西医科大学第一临床医学院，太原 030001 ²陕西中医药大学医学科研实验中心，咸阳 712046

摘　要：

脑小血管病（cerebral small vessel disease，CSVD）是一组以脑内微血管病变为特征的临床综合征，在老年人群中高发，是导致血管性认知障碍、步态异常、卒中及痴呆的重要病因。目前，CSVD的临床管理仍局限于控制传统血管危险因素，尚缺乏针对其核心病理机制的特异性疗法。内皮功能障碍作为CSVD发病的始动与核心环节，贯穿疾病全程，其表现包括血脑屏障破坏、血管调节功能失调、神经炎症及微血栓形成等，因而成为极具潜力的治疗靶点。本文系统综述了CSVD的临床特征和相关标志物，深入剖析了内皮功能障碍在CSVD中的病理机制，重点探讨了以改善内皮功能为靶点的潜在治疗策略，并对该领域未来的研究热点与挑战进行了展望，旨在为CSVD的临床治疗提供新的思路与理论依据。

通讯作者：张 琪 , Email:zhangqi@sntcm.edu.cn

Progress in pathological mechanisms and targeted strategies for endothelial dysfunction-mediated cerebral small vessel disease

ZHANG Zhuo-Yu^1,2 , WANG Yong-Hao² , ZHANG Qi^2,*

¹First Clinical Medical College, Shanxi Medical University, Taiyuan 030001, China ²Medical Research and Experimental Center, Shaanxi University of Chinese Medicine, Xianyang 712046, China

Abstract:

Cerebral small vessel disease (CSVD) encompasses a spectrum of disorders affecting the brain′s microvasculature, including small arteries, arterioles, capillaries, and venules. As a highly prevalent condition in aging populations and a major contributor to vascular cognitive impairment, stroke, and dementia, its clinical management remains predominantly supportive, focusing on controlling conventional vascular risk factors without addressing  underlying core pathologies. Emerging evidence firmly establishes endothelial dysfunction as the pivotal initiating and  perpetuating factor in CSVD. This dysfunction manifests as impaired vasoreactivity, blood-brain barrier (BBB) disruption, a pro-inflammatory and pro-thrombotic endothelial phenotype, and compromised neurovascular coupling, thereby serving  as the critical mechanistic link between systemic risk factors and end-organ brain injury. This review provides a systematic synthesis of the current understanding of CSVD. We first outline its heterogeneous clinical presentations, from subtle  executive deficits to overt dementia and gait  disturbances, and detail the established neuroimaging hallmarks defined by
STRIVE criteria, such as white matter hyperintensities, lacunes, and cerebral microbleeds. The discussion extends to promising fluid biomarkers reflecting endothelial activation, BBB leakage, and neuroinflammation. Subsequently, we  delineate the essential physiological roles of cerebrovascular endothelial cells, emphasizing their central functions in  orchestrating neurovascular coupling for dynamic cerebral blood flow control, in forming and maintaining the selective  BBB, and in sustaining local anticoagulant and anti-inflammatory homeostasis. A central focus of this review is a detailed  analysis of how endothelial dysfunction drives core pathological processes in CSVD: (1) structural vascular remodeling, evolving from adaptive wall thickening to maladaptive arteriolosclerosis and lumen stenosis; (2) hemodynamic failure, characterized by impaired cerebral autoregulation and vasoreactivity, leading to chronic hypoperfusion, capillary rarefaction, and heightened susceptibility to microhemorrhages; (3)  neurovascular unit disintegration, wherein BBB  breakdown precipitates vasogenic edema, neuroinflammation, excitotoxicity, and impaired clearance of metabolic waste via the glymphatic system; and (4) compromised repair mechanisms, resulting from diminished secretion of neurotrophic  factors and deficient angiogenic responses. We then critically evaluate emerging therapeutic strategies aimed at restoring endothelial function. Pharmacological approaches are categorized into agents designed to enhance endothelial vasodilation, suppress endothelial inflammation, reduce oxidative stress, and bolster BBB integrity. Innovative avenues, including endothelial progenitor cell transplantation and microRNA-based therapies, are also highlighted. Additionally, we summarize current methods for assessing endothelial dysfunction in CSVD, covering circulating biomarkers, advanced neuroimaging techniques, and retinal vascular analysis. In conclusion, while targeting endothelial dysfunction presents a highly promising strategy for CSVD treatment, significant translational challenges persist. These include the pathological heterogeneity of CSVD subtypes, the absence of specific biomarkers for patient stratification, the lack of sensitive and direct clinical trial endpoints, and the difficulty in achieving brain microvascular-selective drug delivery. Future research must prioritize the integration of multi-omics data to define endothelio-centric disease endotypes, the development of novel targeted therapeutics and delivery systems, the validation of composite dynamic endpoints, and the exploration of nonpharmacological interventions for early-stage disease modulation. A deeper mechanistic understanding coupled with  advanced therapeutic targeting holds considerable potential to modify the disease trajectory and improve clinical outcomes  for patients with CSVD.

Communication Author：ZHANG Qi , Email:zhangqi@sntcm.edu.cn