Maternal Early Overfeeding Negatively Impacts Cardiac Progenitor Cell Differentiation and Cardiomyocyte Maturation in the Neonatal Offspring.

IF 2.9 4区生物学 Q1 ANATOMY & MORPHOLOGY

Cells Tissues Organs Pub Date : 2024-11-06 DOI:10.1159/000542436

Daniela Caldas Andrade, Thiago Freire, Beatriz Moitinho Ferreira Silva, Andressa Cardoso Guimarães, Elaine de Oliveira, Erica Patricia Garcia-Souza, Simone Nunes de Carvalho, Alessandra Alves Thole, Erika Cortez

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Abstract

Introduction: Maternal obesity has been positively correlated with an increased cardiometabolic risk in the offspring throughout life, implying intergenerational transmission. However, little is known about the early-life cardiac cell modifications that imply the onset of heart diseases later in life. This study analyzed cardiac progenitor cells and cardiomyocyte differentiation on day of birth in the offspring born to obese dams.

Methods: The litter size reduction model was used to induce obesity in female Swiss mice. Both maternal groups, the Small Litter Dams (SLD-F1), which were overfed during lactation, and the Normal Litter Dams (NLD-F1), control group, were mated to healthy male mice. Their first-generation offspring (SLD-F2 and NLD-F2, n = 6 by group) were euthanized on birth.

Results: Mothers from SLD had increased body mass, Lee Index, fat deposits, hyperglycemia, and glucose intolerance, confirming the obese phenotype. The offspring born from SLD-F1 had also increased body mass, Lee Index, and fasting hyperglycemia. The heart of SLD-F2 showed decreased cardiac mass/body mass ratio, increased cardiac collagen deposits, a greater number of undifferentiated cardiac c-kit+ and Sca-1+ progenitor cells, and increased NKX2.5+ cardiomyoblasts compared to control. In addition, SLD-F2 demonstrated immature cardiomyocytes.

Conclusions: Obese dams negatively impact their offspring, leading to altered biometric and metabolic parameters, along with an immature heart already at birth, with extracellular matrix adverse remodeling, delayed cardiac progenitor cell differentiation, and restrained cardiomyocyte maturation, which can be related to the development of cardiometabolic disease in the adulthood.

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母体早期过度喂养会对新生儿后代的心脏祖细胞分化和心肌细胞成熟产生负面影响。

简介母亲肥胖与后代一生中心脏代谢风险的增加呈正相关，这意味着代际遗传。然而，人们对生命早期心脏细胞的改变意味着日后心脏疾病的发生知之甚少。本研究分析了肥胖母鼠所生后代出生当天的心脏祖细胞和心肌细胞分化情况：方法：采用减少产仔数模型诱导雌性瑞士小鼠肥胖。方法：采用产仔数减少模型诱导肥胖雌性瑞士小鼠。两组母鼠，即哺乳期过度喂养的小窝母鼠（SLD-F1）和正常窝母鼠（NLD-F1），均与健康雄性小鼠交配。它们的第一代后代（SLD-F2和NLD-F2，每组6只）在出生时被安乐死：结果：SLD母亲的体重、Lee指数、脂肪沉积、高血糖和糖耐量均增加，证实了肥胖表型。SLD-F1的后代体重、Lee指数和空腹高血糖也有所增加。与对照组相比，SLD-F2的心脏显示心脏质量/体重比值下降，心脏胶原沉积增加，未分化的心脏c-kit+和Sca-1+祖细胞数量增加，NKX2.5+心肌母细胞增加。此外，SLD-F2 显示出心肌细胞未成熟：结论：肥胖母体会对其后代产生负面影响，导致生物计量和代谢参数的改变，以及出生时心脏不成熟、细胞外基质重塑不良、心脏祖细胞分化延迟和心肌细胞成熟受限，这可能与成年后心脏代谢疾病的发展有关。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Cells Tissues Organs 生物-发育生物学

CiteScore

4.90

自引率

3.70%

发文量

审稿时长

6-12 weeks

期刊介绍： ''Cells Tissues Organs'' aims at bridging the gap between cell biology and developmental biology and the emerging fields of regenerative medicine (stem cell biology, tissue engineering, artificial organs, in vitro systems and transplantation biology). CTO offers a rapid and fair peer-review and exquisite reproduction quality. Special topic issues, entire issues of the journal devoted to a single research topic within the range of interests of the journal, are published at irregular intervals.