Expression of Hox-7.1 in myoblasts inhibits terminal differentiation and induces cell transformation

K Song, Y Wang, D Sassoon - Nature, 1992 - nature.com
K Song, Y Wang, D Sassoon
Nature, 1992nature.com
THE terminal differentiation of myogenic cells initiates in the proximal portion of the limb bud
whereas the distal region remains undifferentiated and proliferate1–3 The apical ectodermal
ridge maintains the progress zone in an undifferentiated state4 and induces proliferation of
limb mesenchymal cells5. Hox-7.1, a homeobox-containing gene, is expressed throughout
the limb bud when limb outgrowth begins, whereas transcripts are later restricted to distal
limb mesenchyme6, 7 which is the proposed site of positional specification2 …
Abstract
THE terminal differentiation of myogenic cells initiates in the proximal portion of the limb bud whereas the distal region remains undifferentiated and proliferate1–3 The apical ectodermal ridge maintains the progress zone in an undifferentiated state4 and induces proliferation of limb mesenchymal cells5. Hox-7.1, a homeobox-containing gene, is expressed throughout the limb bud when limb outgrowth begins, whereas transcripts are later restricted to distal limb mesenchyme6,7 which is the proposed site of positional specification2. Transplantation of proximal limb bud tissue into the distal portion of the limb results in a re-expression of Hox-7.1 in the transplanted mesenchyme8. Similar grafts result in a positional reassignment to distal structures9 as well as dedifferentiation of the grafted proximal tissue10. Because of the association of Hox-7.1 expression with proliferative and undifferentiated cells, we tested whether Hox-7.1 regulates differentiation by transfection of Hox-7.1 complementary DNA into determined myogenic cells which represent one mesenchymal lineage in the limb. Here we report that forced expression of Hox-7.1 blocks terminal differentiation and results in a corresponding decrease in steady-state levels of MyoDl. Consistent with the association of Hox-7.1 with proliferation, Hox-7.1 -expressing cells also acquire a transformed phenotype. Forced expression of Hox-8.1, a related Hox-gene, does not affect terminal differentiation indicating that the effects of Hox-7.1 are specific.
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