Interpericyte Tunneling Nanotubes Are Nonuniformly Distributed in the Human Macula.

IF 5 2区医学 Q1 OPHTHALMOLOGY Investigative ophthalmology & visual science Pub Date : 2024-11-04 DOI:10.1167/iovs.65.13.28

Martin Hein, Hassanain Qambari, Paula Yu, Dao-Yi Yu, Chandrakumar Balaratnasingam

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Abstract

Purpose: Pericyte-to-pericyte communication via interpericyte tunneling nanotubes (IP-TNTs) is an important mechanism by which spatial and temporal precision in neurovascular coupling is achieved. This study quantifies the distribution and morphologic characteristics of IP-TNTs in the normal human macula.

Methods: Ultra high-resolution, three-dimensional microscopic imaging of 11 perfusion-labeled normal human donor eyes was performed. Immunofluorescent markers for collagen IV, glial fibrillary acidic protein, nuclei, α-smooth muscle actin and phalloidin were used to distinguish IP-TNTs from perfused/nonperfused capillaries and glia processes. IP-TNT length, diameter and density in each capillary plexus was quantified and compared.

Results: IP-TNTs were present in all capillary plexuses. IP-TNTs bridged capillary segments within and between capillary plexuses but did not connect capillaries to arterioles or venules. Mean length of IP-TNTs was 72.6 ± 39.5µm (range 14.0 to 202 µm) and mean diameter was 1.0 ± 0.42µm. IP-TNT length was non-normally distributed with a right-skewed distribution and 43% were 'short' (<55µm). Diameters were greater in the "long" (1.13 ± 0.44 µm) than "short" (0.82 ± 0.33 µm; P < 0.001) IP-TNTs. Density of IP-TNTs was greater in the superficial vascular plexus (3.80 ± 0.69 per 500 µm2) compared to the intermediate (1.85 ± 0.80 per 500 µm2; P < 0. 0001) and deep capillary plexus (1.58 ± 0.84 per 500 µm2; P < 0.0001). No significant difference in IP-TNT density was found between the four macula quadrants (P = 0.98).

Conclusions: The distribution of IP-TNTs in the human macula is non-uniform and is associated with the compartmentalized nature of retinal energy consumption and microvascular perfusion. The nonuniform properties of IP-TNTs may predispose distinct vascular beds to injury in conditions such as diabetes.

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细胞间隧道纳米管在人类黄斑中分布不均

目的：通过周细胞间隧道纳米管（IP-TNTs）进行周细胞间通信是实现神经血管耦合的空间和时间精确性的重要机制。本研究量化了正常人黄斑中 IP-TNT 的分布和形态特征：方法：对 11 只灌注标记的正常供体眼球进行超高分辨率三维显微成像。使用胶原蛋白 IV、胶质纤维酸性蛋白、细胞核、α-平滑肌肌动蛋白和类胶原蛋白的免疫荧光标记物来区分 IP-TNT 与灌注/非灌注毛细血管和胶质过程。对每个毛细血管丛中的 IP-TNT 长度、直径和密度进行量化和比较：结果：所有毛细血管丛中都存在 IP-TNT。IP-TNT 在毛细血管丛内和毛细血管丛之间的毛细血管段之间架桥，但不连接毛细血管和动脉或静脉。IP-TNT 的平均长度为 72.6 ± 39.5 微米（范围为 14.0 至 202 微米），平均直径为 1.0 ± 0.42 微米。IP-TNT 长度呈非正态分布，呈右斜分布，43% 为 "短"（结论：IP-TNT 在人类黄斑中的分布不均匀，这与视网膜能量消耗和微血管灌注的分区性质有关。IP-TNT 的不均匀特性可能使不同的血管床在糖尿病等情况下容易受伤。

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来源期刊

Investigative ophthalmology & visual science 医学-眼科学

CiteScore

6.90

自引率

4.50%

发文量

339

审稿时长

1 months

期刊介绍： Investigative Ophthalmology & Visual Science (IOVS), published as ready online, is a peer-reviewed academic journal of the Association for Research in Vision and Ophthalmology (ARVO). IOVS features original research, mostly pertaining to clinical and laboratory ophthalmology and vision research in general.