Multistage Hematopoietic Stem Cell Regulation in the Mouse: A Combined Biological and Mathematical Approach

Overview

Journal iScience

Publisher Cell Press

Date 2021 Dec 8

PMID 34877482

Citations 1

Authors

Celine Bonnet

Panhong Gou

Simon Girel

Vincent Bansaye

Catherine Lacout

Karine Bailly

Marie-Helene Schlagetter

Evelyne Lauret

Sylvie Meleard

Stephane Giraudier

Affiliations

Soon will be listed here.

Abstract

We have reconciled steady-state and stress hematopoiesis in a single mathematical model based on murine experiments and with a focus on hematopoietic stem and progenitor cells. A phenylhydrazine stress was first applied to mice. A reduced cell number in each progenitor compartment was evidenced during the next 7 days through a drastic level of differentiation without proliferation, followed by a huge proliferative response in all compartments including long-term hematopoietic stem cells, before a return to normal levels. Data analysis led to the addition to the 6-compartment model, of time-dependent regulation that depended indirectly on the compartment sizes. The resulting model was finely calibrated using a stochastic optimization algorithm and could reproduce biological data when applied to different stress conditions (bleeding, chemotherapy, HSC depletion). In conclusion, our multi-step and time-dependent model of immature hematopoiesis provides new avenues to a better understanding of both normal and pathological hematopoiesis.

Citing Articles

STOCHASTIC MODELING OF HEMATOPOIETIC STEM CELL DYNAMICS.

Alfaro-Quinde C, Krstanovic K, Vasquez P, Kathrein K bioRxiv. 2025; .

PMID: 39974985 PMC: 11838373. DOI: 10.1101/2025.01.27.635091.

Kawahigashi T, Iwanami S, Takahashi M, Bhadury J, Iwami S, Yamazaki S PLoS One. 2024; 19(1):e0292575.

PMID: 38285676 PMC: 10824414. DOI: 10.1371/journal.pone.0292575.

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