1.Pathological observation of brain arteries and spontaneous aneurysms in hypertensive rats.
Dong ZHANG ; Jizong ZHAO ; Yilin SUN ; Shuo WANG ; Wa Hou TAI ; Douglas D COCHRANE ; Jingsheng LI
Chinese Medical Journal 2003;116(3):424-427
OBJECTIVETo investigate the role of hypertension in the pathogenesis of cerebral aneurysms in rats.
METHODSTwenty spontaneous hypertensive rats (SHR) and 10 Wistar-Kyoto rats (WKY) were included in this observational study. Animals were fed with normal diet and drinking water. No experimental modifications were undertaken in either group. They were sacrificed at one year of age, the bifurcations of the circle of Willis were dissected and longitudinal serial sections were prepared for light microscopic and transmission electron microscopic study.
RESULTSIn the SHR group, 2 of the 20 rats formed an aneurysm respectively at the bifurcations of the basilar artery. As revealed by electron microscopy, injury at the bifurcation of the artery first occurred on the steeper side of the intimal pad. Furthermore, loss of endothelial cells, small depressions on the intima, disruptive internal elastic lamina and lymphocytes or red blood cells infiltration were noted at the steeper side of the intimal pad. No significant changes were observed in WKY group.
CONCLUSIONSCerebral aneurysms can form spontaneously in SHR without ligation of the common carotid artery and without a diet containing beta-aminoproprionitrile. Long-standing systemic arterial hypertension is one of the etiological factors that contributes to aneurysm formation in SHR rats.
Animals ; Cerebral Arteries ; pathology ; Hypertension ; complications ; Intracranial Aneurysm ; etiology ; pathology ; Male ; Rats ; Rats, Inbred SHR ; Rats, Inbred WKY
2.Projection-Specific Heterogeneity of the Axon Initial Segment of Pyramidal Neurons in the Prelimbic Cortex.
Ankang HU ; Rui ZHAO ; Baihui REN ; Yang LI ; Jiangteng LU ; Yilin TAI
Neuroscience Bulletin 2023;39(7):1050-1068
The axon initial segment (AIS) is a highly specialized axonal compartment where the action potential is initiated. The heterogeneity of AISs has been suggested to occur between interneurons and pyramidal neurons (PyNs), which likely contributes to their unique spiking properties. However, whether the various characteristics of AISs can be linked to specific PyN subtypes remains unknown. Here, we report that in the prelimbic cortex (PL) of the mouse, two types of PyNs with axon projections either to the contralateral PL or to the ipsilateral basal lateral amygdala, possess distinct AIS properties reflected by morphology, ion channel expression, action potential initiation, and axo-axonic synaptic inputs from chandelier cells. Furthermore, projection-specific AIS diversity is more prominent in the superficial layer than in the deep layer. Thus, our study reveals the cortical layer- and axon projection-specific heterogeneity of PyN AISs, which may endow the spiking of various PyN types with exquisite modulation.
Mice
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Animals
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Axon Initial Segment
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Synapses/physiology*
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Pyramidal Cells/physiology*
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Cerebral Cortex
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Axons/physiology*