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Isolation and Flow Cytometric Characterization of Murine Small Intestinal Lymphocytes

Flow Cytometric Characterization of Murine B Cell Development

作者： Faith M. Harris*1, Karoline A. Meagher*1, Maggie Zhong1, Benjamin J. Daniel2, Mark Eckersdorff1, Jesse A. Green1, Vera Voronina1, Chunguang Guo1, Andre Limnander3, Lynn E. Macdonald1 1Regeneron Tech Centers,Regeneron Pharmaceuticals, Inc., 2Regeneron Therapeutic Proteins,Regeneron Pharmaceuticals, Inc., 3Immunology and Inflammation,Regeneron Pharmaceuticals, Inc.

简介：

Overview

This article describes a flow cytometry analysis of the heterogeneity of murine immune B cells in various tissues, including the peritoneum, spleen, and bone marrow. The protocol is adaptable for use with other mouse tissues, enhancing the understanding of B cell development.

Key Study Components

Area of Science

Immunology
Flow Cytometry
Mouse Models

Background

Understanding B cell heterogeneity is crucial for autoimmune research.
Genetically engineered mice provide insights into B cell development.
The use of multiple fluorophores allows for detailed cellular analysis.
This technique can be applied to various mouse tissues.

Purpose of Study

To analyze the immune B cell compartment in mice.
To determine the effects of genetic manipulation on B cell development.
To provide a protocol for phenotyping genetically engineered mice.

Methods Used

Flow cytometry for analyzing B cell populations.
Use of fluorophores for simultaneous analysis of multiple parameters.
Adaptation of protocols for different mouse tissues.
Assessment of autoimmune prone mouse models.

Main Results

Demonstrated B cell heterogeneity across different tissues.
Identified the impact of genetic modifications on B cell development.
Provided a versatile protocol applicable to various research contexts.
Enhanced understanding of antibody therapeutics in mouse models.

Conclusions

The study offers insights into B cell compartmentalization in mice.
Flow cytometry is an effective method for analyzing immune cells.
Findings can inform future research on autoimmune diseases.

Frequently Asked Questions

What is the significance of B cell heterogeneity?

B cell heterogeneity is crucial for understanding immune responses and developing targeted therapies for autoimmune diseases.

How can this protocol be adapted?

The protocol can be modified for use with various mouse tissues to study B cell populations in different contexts.

What role do genetically engineered mice play in this study?

Genetically engineered mice help determine how genetic modifications affect B cell development and function.

What techniques are used in this analysis?

Flow cytometry is the primary technique used to analyze B cell populations and their heterogeneity.

What are the potential applications of this research?

This research can inform the development of antibody therapeutics and enhance understanding of autoimmune diseases.

We describe herein a simple analysis of the heterogeneity of the murine immune B cell compartment in the peritoneum, spleen, and bone marrow tissues by flow cytometry. The protocol can be adapted and extended to other mouse tissues.

标签: Flow Cytometry, B Cell Development, Autoimmune Models, Humanized Mice, Antibody Therapeutics, Phenotyping, Genetic Manipulation, Cell Aliquoting, Fluorescence Analysis, B Cell Heterogeneity, Viability Dye, Compensation Controls, Centrifugation, DPBS Washing,