It takes a village…
A group of researchers led by Edgar Gomes, Group Leader at Instituto de Medicina Molecular João Lobo Antunes (iMM; Portugal) identifies in muscle cells a new mechanism that activates locally the movement of the nucleus to its correct position. This discovery, published in the scientific journal Developmental Cell, can have important implications in therapeutic strategies to treat muscular diseases.
A hallmark of muscle cells is the unique position of their nuclei at the cellular periphery. In multiple muscle diseases, as a result of aging, sports injuries, or genetic disorders this nuclear positioning fails to occur. Consequently, patients experience a gradual loss of muscle function that leads to a loss of autonomy.
"We have previously shown the molecular mechanisms used by muscle cells to move their own nucleus to the correct position at the periphery of the cell, but we still know very little about how this movement is activated", says Edgar Gomes, adding that "now, we built up on this mechanism and discovered that another type of cells, the myofibroblasts, contribute to the activation of the nuclear movement".
By using a combination of genetics and imaging experiments, the researchers observed that the cells that surround the muscle fiber, the myofibroblasts, locally deposit fibronectin, a component of the external cell's skeleton. "We observed a local accumulation of fibronectin at the vicinity of the muscle cells, in areas where the myofibroblasts were in contact with the muscle. It was exciting to see that this was accompanied by the movement of the nucleus to the periphery of the muscle cell", explains João Martins, co-first author of the study. "It is known that myofibroblasts produce fibronectin during muscle regeneration. We now demonstrate that the fibronectin produced by the myofibroblasts can activate the movement of the nucleus to the correct peripheral position", adds William Roman the other co-author of the study.
"We propose a mechanism by which cells can sense tissue architecture and regulate nuclear positioning in accordance with a local cue. This is of major importance to understand muscle differentiation, functionality and regeneration and might contribute to future therapeutic strategies to treat muscular diseases where the position of the nucleus is impaired", says Edgar Gomes.
This study was performed at iMM and funded by the European Research Council, EMBO, AIM France, POR Lisboa 2020 – Programa Operacional Regional de Lisboa, PORTUGAL 2020, and Fundação para a Ciência e a Tecnologia.
<h4>Related Journal Article</h4>http://dx.doi.org/10.1016/j.devcel.2018.05.031