Peter Gruß scite author profile

The paired box transcription factor Pax7 was isolated by representational difference analysis as a gene specifically expressed in cultured satellite cell-derived myoblasts. In situ hybridization revealed that Pax7 was also expressed in satellite cells residing in adult muscle. Cell culture and electron microscopic analysis revealed a complete absence of satellite cells in Pax7(-/-) skeletal muscle. Surprisingly, fluorescence-activated cell sorting analysis indicated that the proportion of muscle-derived stem cells was unaffected. Importantly, stem cells from Pax7(-/-) muscle displayed almost a 10-fold increase in their ability to form hematopoietic colonies. These results demonstrate that satellite cells and muscle-derived stem cells represent distinct cell populations. Together these studies suggest that induction of Pax7 in muscle-derived stem cells induces satellite cell specification by restricting alternate developmental programs.

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Pax6 Is Required for the Multipotent State of Retinal Progenitor Cells

Marquardt

Ashery‐Padan

Andrejewski

et al. 2001

Cell

844

866

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The molecular mechanisms mediating the retinogenic potential of multipotent retinal progenitor cells (RPCs) are poorly defined. Prior to initiating retinogenesis, RPCs express a limited set of transcription factors implicated in the evolutionary ancient genetic network that initiates eye development. We elucidated the function of one of these factors, Pax6, in the RPCs of the intact developing eye by conditional gene targeting. Upon Pax6 inactivation, the potential of RPCs becomes entirely restricted to only one of the cell fates normally available to RPCs, resulting in the exclusive generation of amacrine interneurons. Our findings demonstrate furthermore that Pax6 directly controls the transcriptional activation of retinogenic bHLH factors that bias subsets of RPCs toward the different retinal cell fates, thereby mediating the full retinogenic potential of RPCs.

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Development of peripheral lymphoid organs and natural killer cells depends on the helix–loop–helix inhibitor Id2

Yokota

Mansouri

Mori

et al. 1999

Nature

783

716

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Transcription factors with a basic helix-loop-helix (HLH) motif have been shown to be crucial for various cell differentiation processes during development of multicellular organisms. Id proteins inhibit the functions of these transcription factors in a dominant-negative manner by suppressing their heterodimerization partners through the HLH domains. Members of the Id family also promote cell proliferation, implying a role in the control of cell differentiation. Here we show that Id2 is indispensable for normal development of mice. Id2-/- mice lack lymph nodes and Peyer's patches. However, their splenic architecture is normal, exhibiting T-cell and B-cell compartments and distinct germinal centres. The cell population that produces lymphotoxins, essential factors for the development of secondary lymphoid organs, is barely detectable in the Id2-/- intestine. Furthermore, the null mutants show a greatly reduced population of natural killer (NK) cells, which is due to an intrinsic defect in NK-cell precursors. Our results indicate that Id2 has an essential role in the generation of peripheral lymphoid organs and NK cells.

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Apaf1 (CED-4 Homolog) Regulates Programmed Cell Death in Mammalian Development

Cecconi

Álvarez-Bolado

Meyer

et al. 1998

Cell

836

622

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The cytosolic protein APAF1, human homolog of C. elegans CED-4, participates in the CASPASE 9 (CASP9)-dependent activation of CASP3 in the general apoptotic pathway. We have generated by gene trap a null allele of the murine Apaf1. Homozygous mutants die at embryonic day 16.5. Their phenotype includes severe craniofacial malformations, brain overgrowth, persistence of the interdigital webs, and dramatic alterations of the lens and retina. Homozygous embryonic fibroblasts exhibit reduced response to various apoptotic stimuli. In situ immunodetection shows that the absence of Apaf1 protein prevents the activation of Casp3 in vivo. In agreement with the reported function of CED-4 in C. elegans, this phenotype can be correlated with a defect of apoptosis. Our findings suggest that Apaf1 is essential for Casp3 activation in embryonic brain and is a key regulator of developmental programmed cell death in mammals.

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Peter Gruß

Pax7 Is Required for the Specification of Myogenic Satellite Cells

Pax6 Is Required for the Multipotent State of Retinal Progenitor Cells

Development of peripheral lymphoid organs and natural killer cells depends on the helix–loop–helix inhibitor Id2

Apaf1 (CED-4 Homolog) Regulates Programmed Cell Death in Mammalian Development

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