Computer Simulation of Multi-Color Brainbow Staining and Clonal Evolution of B Cells in Germinal Centers.

Michael Meyer-Hermann,Gabriel D Victora,Sebastian C Binder,Luka Mesin

doi:10.3389/fimmu.2018.02020

Abstract

Clonal evolution of B cells in germinal centers (GCs) is central to affinity maturation of antibodies in response to pathogens. Permanent or tamoxifen-induced multi-color recombination of B cells based on the brainbow allele allows monitoring the degree of color dominance in the course of the GC reaction. Here, we use computer simulations of GC reactions in order to replicate the evolution of color dominance in silico and to define rules for the interpretation of these data in terms of clonal dominance. We find that a large diversity of clonal dominance is generated in simulated GCs in agreement with experimental results. In the extremes, a GC can be dominated by a single clone or can harbor many co-existing clones. These properties can be directly derived from the measurement of color dominance when all B cells are stained before the GC onset. Upon tamoxifen-induced staining, the correlation between clonal structure and color dominance depends on the timing and duration of the staining procedure as well as on the total number of stained B cells. B cells can be stained with 4 colors if a single brainbow allele is used, using both alleles leads to 10 different colors. The advantage of staining with 10 instead of 4 colors becomes relevant only when the 10 colors are attributed with rather similar probability. Otherwise, 4 colors exhibit a comparable predictive power. These results can serve as a guideline for future experiments based on multi-color staining of evolving systems.

Highlights

Permanent multi-color recombination of cells allows monitoring the fate of the stained cells
The largest fraction of cells stained by a single color, short the color dominance, was considered as a measure of the clonal dominance, i.e., the largest fraction of germinal centers (GCs) cells that stem from a single clone
A clonal dominance of 100% would correspond to all GC B cells being derived from a single clone, which would be the result of strong selection of an advantageous clone

Summary

Introduction

Permanent multi-color recombination of cells allows monitoring the fate of the stained cells. As the adopted color is transmitted to the progeny of the cell, this method allows to follow the fate of the stained cell itself and to visualize cell division and the fate of the daughter cells. This particular property of the brainbow allele made it suitable for the study of evolutionary. Simulation of Multi-Color B Cells in Germinal Centers systems like the germinal center (GC) reaction [7], which is an important part of the acute immune response to pathogens [8, 9]. GC reactions are central for the clearance of infections and for generating immune memory. The GC reaction is responsible for a diversification of the pool of antibodies ready to fight against the infection

Methods

Results

Conclusion