胰岛素进入大脑的困境:全面回顾。

Hooman Hatami, Vahid Reza Askari, Vafa Baradaran Rahimi, Md Saquib Hasnain, Amit Kumar Nayak
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引用次数: 0

摘要

胰岛素是一种肽类激素,对调节体内平衡至关重要。此外,它还参与各种神经功能,如记忆、行为和认知。胰岛素受体在神经元、小胶质细胞、星形胶质细胞和少突胶质细胞等各种脑细胞上的分布无处不在,它们在海马、下丘脑和嗅球等不同脑区的定位也各不相同,这些都凸显了胰岛素在调节大脑功能方面的重要作用。随着年龄的增长,在某些病理情况下,如糖尿病和脑胰岛素抵抗,需要外源性胰岛素来弥补胰岛素的不足。在这些情况下,将胰岛素输送到大脑的最大障碍是血脑屏障(由具有紧密连接的内皮细胞组成的物理屏障),它阻止了大多数具有高分子量的物质(如胰岛素)直接进入大脑。因此,研究人员提出了不同的胰岛素输送方法,直接或间接地将胰岛素输送到大脑。其中一些方法效率不高,而且会对病人产生许多副作用。在这方面,许多新技术为研究人员提供了帮助,推出了更有效的给药策略,包括使用纳米载体。尽管在实验模型中显示出了良好的效果,但在人体研究中使用这些技术仍处于初级阶段,有必要进行进一步的全面调查。这篇综述文章旨在通过收集有关胰岛素及其脑部给药障碍的广泛信息,研究脑部给药胰岛素的各种方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Dilemma of Insulin Delivery into the Brain: A Comprehensive Review.

Insulin is a peptide hormone that is essential for regulating body homeostasis. Furthermore, it is involved in various neurological functions such as memory, behaviors, and cognition. The ubiquitous distribution of insulin receptors on various brain cells, such as neurons, microglia, astrocytes, and oligodendrocytes, and their differential localization across various brain regions, including the hippocampus, hypothalamus, and olfactory bulb, collectively underscore the crucial involvement of insulin in the modulation of cerebral functions. Along with ageing, in some pathological conditions such as diabetes and brain insulin resistance, the need for exogenous insulin is felt to compensate for insulin deficiency. In these cases, the biggest obstacle to the delivery of insulin to the brain is the blood-brain barrier (a physical barrier consisting of endothelial cells with tight junctions), which prevents the direct entry of most substances possessing high molecular weight, like insulin, into the brain. Therefore, different delivery methods have been proposed by researchers for insulin delivery that directly or indirectly cause the transfer of insulin to the brain. Some of these methods lack high efficiency and cause many side effects for the patient. In this regard, many new technologies have come to the aid of researchers and have introduced more effective delivery strategies, including the use of nanocarriers. Despite the promising outcomes demonstrated in the experimental models, the utilization of these techniques in human studies remains at a nascent stage and necessitates further comprehensive investigation. This review article aims to examine the diverse methods of insulin administration to the brain by gathering extensive information on insulin and its obstacles to brain delivery.

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