Cardiac enlargement in the chick embryo induced by hypothermic incubation is due to a combination of hyperplasia and hypertrophy of cardiomyocytes
- Title:
- Cardiac enlargement in the chick embryo induced by hypothermic incubation is due to a combination of hyperplasia and hypertrophy of cardiomyocytes
- Creator:
- Skuhrová, K., Kvasilová, A., Svatůňková, J., and Sedmera, D.
- Identifier:
- https://cdk.lib.cas.cz/client/handle/uuid:d8624a02-5732-4423-bdc3-309a929c7d61
uuid:d8624a02-5732-4423-bdc3-309a929c7d61 - Subject:
- embryonic heart, cell size, cell proliferation, and immunofluorescence
- Type:
- model:article and TEXT
- Format:
- bez média and svazek
- Description:
- Hypothermic incubation of chicken eggs leads to smaller embryos with enlarged hearts, originally described as hypertrophic. Over the years, however, accumulated evidence suggested that hyperplasia, rather than hypertrophy, is the predominant mechanism of cardiac growth during the prenatal period. We have thus set to reevaluate the hypothermia model to precise the exact cellular mechanism behind cardiac enlargement. Fertilized chicken eggs were incubated at either 37.5 °C (normothermia) or 33.5 °C from embryonic day (ED) 13 onward (hypothermia). Sampling was performed at ED17, at which point wet embryo and heart weight were recorded, and the hearts were submitted to histological examination. In agreement with previous results, the hypothermic embryos were 29% smaller and had hearts 18% larger, translating into a 67% increase in the heart to body weight ratio (P < 0.05 for all parameters). The cell size was essentially the same between control and hypothermic hearts in all regions analysed. Likewise, there was no significant relationship between the cell size and heart weight; however, in the hypothermic hearts, there was a trend showing positive correlation between cell sizes in different cardiac regions and heart weight. Proliferation rate, determined on the basis of anti-phosphohistone H3 immunofluorescence, showed an overall increase in the hypothermic group, reaching statistical significance (P = 0.02, t-test) in the right ventricle. The proliferation rate was similar among different regions of the same heart. However, the correlation between the proliferation rate and heart weight was only small (r2 = 0.007 and r2 = 0.234 for the normothermic and hypothermic group, respectively). We thus conclude that hyperplasia is the predominant response mechanism in this volume-overload model; mechanistically, decreased heart rate at lower temperature increases the end-diastolic and stroke volume, minimizing the drop in cardiac output through the Frank-Starling mechanism. and Corresponding author: David Sedmera
- Language:
- English
- Rights:
- http://creativecommons.org/publicdomain/mark/1.0/
policy:public - Coverage:
- [36]-42
- Source:
- Folia biologica | 2019 Volume:65 | Number:1
- Harvested from:
- CDK
- Metadata only:
- false
The item or associated files might be "in copyright"; review the provided rights metadata:
- http://creativecommons.org/publicdomain/mark/1.0/
- policy:public