Differentiation of activated satellite cells in denervated muscle following single fusions in situ and in cell culture

Satellite cells represent a cellular source of regeneration in adult skeletal muscle. It remains unclear why a large pool of stem myoblasts in denervated muscle does not compensate for the loss of muscle mass during post-denervation atrophy. In this study, we present evidence that satellite cells in long-term denervated rat muscle are able to activate synthesis of contractile proteins after single fusions in situ. This process of early differentiation leads to formation of abnormally diminutive myotubes. The localization of such dwarf myotubes beneath the intact basal lamina on the surface of differentiated muscle fibers shows that they form by fusion of neighboring satellites or by the progeny of a single satellite cell following one or two mitotic divisions. We demonstrated single fusions of myoblasts using electron microscopy, immunocytochemical labeling and high resolution confocal digital imaging. Sequestration of nascent myotubes by the rapidly forming basal laminae creates a barrier that limits further fusions. The recruitment of satellite cells in the formation of new muscle fibers results in a progressive decrease in their local densities, spatial separation and ultimate exhaustion of the myogenic cell pool. To determine whether the accumulation of aberrant dwarf myotubes is explained by the intrinsic decline of myogenic properties of satellite cells, or depends on their spatial separation and the environment in the tissue, we studied the fusion of myoblasts isolated from normal and denervated muscle in cell culture. The experiments with a culture system demonstrated that the capacity of myoblasts to synthesize contractile proteins without serial fusions depended on cell density and the availability of partners for fusion. Satellite cells isolated from denervated muscle and plated at fusion-permissive densities progressed through the myogenic program and actively formed myotubes, which shows that their myogenic potential is not considerably impaired. The results of this study suggest that under conditions of denervation, progressive spatial separation and confinement of many satellite cells within the endomysial tubes of atrophic muscle fibers and progressive interstitial fibrosis are the important factors that prevent their normal differentiation. Our findings also provide an explanation of why denervated muscle partially and temporarily is able to restore its functional capacity following injury and regeneration: the release of satellite cells from their sublaminal location provides the necessary space for a more active regenerative process.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/47397/1/418_2005_Article_12.pd

Plasticity of the Muscle Stem Cell Microenvironment

Satellite cells (SCs) are adult muscle stem cells capable of repairing damaged and creating new muscle tissue throughout life. Their functionality is tightly controlled by a microenvironment composed of a wide variety of factors, such as numerous secreted molecules and different cell types, including blood vessels, oxygen, hormones, motor neurons, immune cells, cytokines, fibroblasts, growth factors, myofibers, myofiber metabolism, the extracellular matrix and tissue stiffness. This complex niche controls SC biology-quiescence, activation, proliferation, differentiation or renewal and return to quiescence. In this review, we attempt to give a brief overview of the most important players in the niche and their mutual interaction with SCs. We address the importance of the niche to SC behavior under physiological and pathological conditions, and finally survey the significance of an artificial niche both for basic and translational research purposes

Measuring parenting practices and family functioning with brief and simple instruments: Validation of the Spanish version of the PAFAS.

noA set of instruments with different response formats is usually used to assess parenting practices in clinical settings and in research studies. These complex protocols can be problematic for parents with low-literacy levels. The Parenting and Family Adjustment Scales (PAFAS) is a brief, easy to read instrument that has been developed to address these concerns. The English version of this instrument suggested that it has good internal consistency (range from .70 to .96), as well as satisfactory construct and predictive validity. The aim of the present study was to explore the validity and reliability of the Spanish version of the PAFAS. A sample of 174 Spanish-speaking parents (85 % mothers; M = 37 years old; SD = 9.1) from Panama in Central America completed the instrument alongside the Parenting Scale and the Depression Anxiety Stress Scale (DASS-21). Psychometric evaluations revealed that the measure had satisfactory construct and concurrent validity as well as good internal consistency (values >.60 for all subscales) and test–retest reliability (ICC >.60 for all subscales). The PAFAS shows promise as a brief outcome measure to assess parenting practices and family functioning with Spanish-speaking parents. Potential uses of the measure and implications for further validation with diverse samples are discussed