Zika Virus Infection of Cultured Human Fetal Brain Neural Stem Cells for Immunocytochemical Analysis

Erica L. McGrath; Junling Gao; Ping Wu

doi:10.3791/56917

JoVE Journal
Developmental Biology

A subscription to JoVE is required to view this content. Sign in or start your free trial.

JoVE Journal Developmental Biology

Zika Virus Infection of Cultured Human Fetal Brain Neural Stem Cells for Immunocytochemical Analysis

培養ひと胎児脳神経幹細胞の免疫細胞化学的解析のジカウイルス感染症

Full Text

7,009 Views

10:27 min

February 5, 2018

DOI: 10.3791/56917-v

Erica L. McGrath^1,2, Junling Gao¹, Ping Wu^1,3

¹Department of Neuroscience and Cell Biology,University of Texas Medical Branch, ²Department of Neurology,Johns Hopkins University, ³Beijing Institute for Brain Disorders,Capital Medical University

Please note that some of the translations on this page are AI generated. Click here for the English version.

Overview

This article details methods for expanding human fetal brain neural stem cells in culture and differentiating them into neuronal subtypes and astrocytes. It emphasizes using these cells to study Zika virus infection.

Key Study Components

Area of Science

Neuroscience
Infectious Disease
Stem Cell Biology

Background

Human fetal neural stem cells are crucial for studying brain development.
Zika virus infection poses significant neurological risks.
Understanding the effects of viral infection on neural stem cells is vital.
This research can inform therapeutic strategies for Zika-related neurological deficits.

Purpose of Study

To observe the effects of Zika virus on human fetal neural stem cell survival and differentiation.
To explore how viral infection influences innate immune responses in these cells.
To evaluate mechanisms of infection and screen potential therapeutics.

Methods Used

In vitro culture of human fetal neural stem cells.
Passaging cells in a biosafety cabinet.
Assessing cell survival and differentiation post-infection.
Preparing culture medium according to established protocols.

Main Results

The method allows for the study of Zika virus effects on human cells.
Human neural stem cells provide a relevant model for research.
Insights gained could lead to better therapeutic approaches.
The technique enhances translational application of findings.

Conclusions

This study provides a framework for investigating Zika virus impacts on neural stem cells.
It highlights the importance of using human cells for relevant research.
Future studies can build on these findings to develop treatments for Zika-related conditions.

Frequently Asked Questions

What are the implications of this research?

This research could lead to better understanding and treatment of neurological deficits caused by Zika virus infection.

Why use human fetal neural stem cells?

Human cells provide a more accurate model for studying the effects of Zika virus compared to genetically modified cells.

What is the main advantage of this technique?

The main advantage is the use of human cells, enhancing the translational application of the results.

How does Zika virus affect neural stem cells?

Zika virus infection can influence the survival and differentiation of neural stem cells, impacting their function.

What are the next steps in this research?

Future studies will focus on evaluating therapeutic options and understanding the mechanisms of infection.

How can this research contribute to public health?

By providing insights into Zika virus effects, this research can inform strategies to mitigate its neurological impacts.

この記事は、ひと胎児脳神経幹細胞文化だけでなく、様々な神経細胞やアストロサイト、ジカウイルス感染症を研究する神経幹細胞の使用に重点を置いてにそれらを区別する方法を展開に使用する方法を詳しく説明します。

このin vitro手順の全体的な目標は、ヒト胎児神経幹細胞の分化における生存に対するジカウイルス感染の影響を観察することです。この方法は、ウイルス感染が自然免疫応答にどのように影響するか、これらの変化が神経幹細胞の生存と分化にどのように寄与するかなど、神経幹細胞および感染症分野の重要な質問に答えるのに役立ちます。この技術の主な利点は、使用される細胞がヒトであり、遺伝子組み換えされていないため、結果の翻訳適用が強化されることです。

この技術の意味は、感染のメカニズムを評価し、治療をスクリーニングする手段を提供するため、ジカウイルスに関連する神経学的欠損の治療にまで及びます。テキストプロトコルに従って培地を調製し、ヒト神経幹細胞をプレーティングした後、インキュベーターから継代する細胞のフラスコを取り出し、バイオセーフティキャビネット(BSC)に持ち込みます。フラスコをゆっくりと傾けて、細胞がプールされた培地の底に沈むようにします。

View the full transcript and gain access to thousands of scientific videos

Explore More Videos

発生生物学問題 132 神経幹細胞分化増殖ニューロンジカ疾患モデル作製