Gabriele Mugrauer scite author profile

The N-myc proto-oncogene is expressed during embryogenesis, suggesting that it plays a role in normal development. Since the myc-family oncogenes have been implicated in the control of cell growth, the embryonic expression may reflect rapid proliferation known to occur in development. Alternatively, N-myc expression may be involved in specific differentiation stages. In many embryonic tissues, early and late differentiation events occur in different locations. By in situ hybridization of tissue sections, we now demonstrate a restricted expression of N-myc mRNA to a few tissues and to areas where the first differentiation stages occur. N-myc expression was most strongly expressed in the developing kidney, hair follicles, and in various parts of the central nervous system. In these tissues, expression was restricted to a few cell lineages. In all lineages, expression was confined to early differentiation stages, and, at onset of overt differentiation, the level of expression decreased dramatically. Several rapidly proliferating tissues showed very little, if any, N-myc expression. In the brain, post-mitotic but not yet differentiated cells expressed high levels of N-myc mRNA. Therefore, N-myc expression is not a simple marker for proliferation in the embryo. Rather, N-myc expression seems to be a feature of early differentiation stages of some cell lineages in kidney, brain, and hair follicles, regardless of the proliferative status of the cell. The results raise the possibility that N-myc may participate in the control of these early differentiation events.

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Transient and locally restricted expression of laminin a chain mRNA by developing epithelial cells during kidney organogenesis

Ekblom

Klein

Mugrauer

et al. 1990

Cell

223

116

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Contrasting expression patterns of three members of the myc family of protooncogenes in the developing and adult mouse kidney.

Mugrauer

Ekblom

1991

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Abstract. The myc family of protooncogenes encode similar but distinct nuclear proteins. Since N-myc, e-myc, and L-myc have been found to be expressed in the newborn kidney, we studied their expression during murine kidney development. By organ culture studies and in situ hybridization of tissue sections, we found that each of the three members of the myc gene family shows a remarkably distinct expression pattern during kidney development. It is known that mesenchymal stem cells of the embryonic kidney convert into epithelium if properly induced. We demonstrate that N-myc expression increases during the first 24 h of in vitro culture as an early response to induction. Moreover, the upregulation was transient and expression levels were already low during the first stages of overt epithelial cell polarization. In contrast, neither c-myc nor L-myc were upregulated by induction of epithelial differentiation, e-myc was expressed in the uninduced mesenchyme but subsequently became restricted to the newly formed epithelium and was not expressed in the surrounding loose mesenchyme. At onset of terminal differentiation c-myc expression was turned off also from the epithelial tubules. We conelude that N-myc is a marker for induction and early epithelial differentiation states. That the undifferentiated mesenehyme, unlike stromal cells of later developmental stages, express c-myc demonstrates that the undifferentiated mesenchymal stem cells are distinct from the stromal cells. The most astonishing finding, however, was the high level of L-myc mRNA in the ureter, ureter-derived renal pelvis, papilla, and collecting duets. In the ureter, expression increased, rather than decreased, with advancing maturation and was highest in adult tissue. Our results suggest that each of the three members of the myc gene family are involved in quite disparate differentiation processes, even within one tissue.

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Development of kidney epithelial cells

Sorokin

Klein²,

Mugrauer

et al. 1992

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Laminin isoforms in the developing kidney

Ekblom¹,

Fecker²,

Mugrauer³

et al. 1989

Cell Differentiation and Development

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