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fibrosis. This review provides a summary of our current knowledge regarding the
cardiac cellular microenvironment, focusing on the clinical applications this infor-
mation to the study of heart remodeling during regular physical exercise.
Keywords Non-cardiomyocyte Cells • Exercise • Regeneration • Remodeling
1 Introduction
Regeneration of tissues damaged by wear and tear or injury, in addition to tissue
remodeling as a result of chronic disease or increased physical activity, modify tis-
sue architecture through coordinated cell proliferation, differentiation, dedifferen-
tiation, and apoptosis [ 1 ]. These processes in the heart, the most important vital
organ in the human body, are not only a fascinating scientific problem, but they are
also clinically important. Surprisingly, cardiomyocytes account for only 25–35% of
all the cells in the heart. In fact, in the heart, morphologically and functionally dis-
tinct cardiac non-myocyte cells (all cells of the heart excluding cardiomyocytes)
constitute the majority of cells in this organ [ 2 ]. Non-cardiomyocytes are a diverse
group of cells and include fibroblasts, telocytes, mast cells, endothelial cells, white
blood cells, and other immunologically active cells, such as smooth muscle cells,
adipocytes, and pericytes. Exercise is a well-established intervention for the preven-
tion and treatment of cardiovascular diseases. The increase in the size of cardiomyo-
cytes is likely a central mechanism for exercise-induced cardiac growth, but other
cardiac cell types also respond to exercise. Therefore, exercise-induced cardiac
growth is a complex process that depends upon cross-talk between cardiomyocytes
and non-cardiomyocyte cells of the heart [ 3 ].
This review summarizes our current understanding of the cardiac cellular micro-environment. It also discusses how this research might be applied to help develop
clinical treatments that promote heart regeneration and tissue remodeling. Expanding
our knowledge of the diverse non-myocyte cell populations present in the heart is
essential for understanding cardiac homeostasis during normal and pathological
conditions. Here, we focus on exercise-induced cardiac remodeling.
2 Cardiac Fibroblasts and Myofibroblasts
Fibroblasts are the most abundant cells in connective tissue. They produce all com-
ponents of the extracellular matrix, including protein fibers and amorphous ground
substance. They are also essential during wound healing.
Cardiac fibroblasts have been found in all compartments of the heart. They aremainly responsible for the production of major components of the extracellular
matrix, including collagen (type I, III, V, and VI), periostin, vimentin, and fibronec-
tin. Thus, fibroblasts create a basic microenvironment for other cell types in the
I. Varga et al.