The neurovascular unit of capillary blood vessels in the rat nervous system. A rapid-Golgi electron microscopic study

We describe a pericapillary organ in the rat forebrain and cerebellar cortex. It consists of series of tripartite synapses enveloped by astrocytic endfeet linked to the capillary wall by synaptic extensions. Reciprocal specializations of the pericyte-capillary blood vessel with such specialized synapses suggests a mechanoreceptor role. In Golgi impregnated and 3D reconstructions of cerebral cortex and thalamus, series of tripartite synapses appear sequentially ordered in a tributary dendrite paralleled by synaptic outgrowths termed here golf club-like extensions apposed to a longitudinal crest from the capillary basal lamina. To facilitate identification of principal cell dendrites and arriving axons to these putative mechanosensory structures, we utilized the cerebellar cortex since it has a well known organization and observed that afferent fibers and interneurons display interactions with the capillary wall. Afferent mossy fiber rosettes and ascending granule cell axons and dendrites define pericapillary on passage interactions surrounded by endfeet. The ability of such structures to modulate synaptic transmission is supported by the presence of mRNA of the mechanosensitive channel Piezo 1 in the mossy fiber rosettes, pyramidal isocortical and thalamic neurons. This suggests that ascending impulses to the cerebellar and cortical targets are presynaptically modulated by the reciprocal interaction with the mechanosensory pericapillary organ. ### Competing Interest Statement The authors have declared no competing interest.