Abstract
Stat5 and Stat3, two members of the Stat (signal transducer and activator of transcription) family, are known to play critical roles in mammopoiesis/lactogenesis and involution, respectively, in the mammary gland. Phosphotyrosine phosphatase Shp2 has been shown to dephosphorylate and thus inactivate both Stat5 and Stat3 in vitro. Paradoxically, cell culture studies also suggest a positive role of Shp2 in promoting prolactin-stimulated Stat5 activation. We have shown here that selective deletion of Shp2 in mouse mammary glands suppresses Stat5 activity during pregnancy and lactation, resulting in significant impairment of lobulo-alveolar outgrowth and lactation. In contrast, Stat3 activity was slightly up-regulated shortly before/at involution, leading to normal epithelial cell apoptosis/involution in Shp2-deficient mammary gland. Thus, Shp2 acts to promote Stat5 activation by the JAK2.prolactin receptor complex, while negatively modulating Stat3 activity before the onset of involution. This is the first demonstration that Shp2 manipulates Stat5 and Stat3 activities reciprocally in mammary epithelial cells, providing novel insight into the complex mechanisms for regulation of various Stat family members by a cytoplasmic tyrosine phosphatase.
Highlights
Intracellular signaling mechanisms directing the developmental program in mammary glands are not fully understood
Immunohistochemical analysis revealed that Shp2 was highly expressed in luminal epithelial cells in control animals (Shp2F/F), whereas Shp2 expression levels were dramatically decreased in Shp2MϪ/Ϫ mammary glands (Fig. 1D)
We have demonstrated here a positive role of Shp2 in mammopoiesis and lactogenesis but not in involution through generating a mutant mouse model with targeted deletion of Shp2 in the mammary gland
Summary
Intracellular signaling mechanisms directing the developmental program in mammary glands are not fully understood. Immunohistochemical analysis revealed that Shp2 was highly expressed in luminal epithelial cells in control animals (Shp2F/F), whereas Shp2 expression levels were dramatically decreased in Shp2MϪ/Ϫ mammary glands (Fig. 1D).
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