Mark Powzaniuk scite author profile

The LATS2/KPM Tumor Suppressor Is a Negative Regulator of the Androgen Receptor

Powzaniuk

¹

,

McElwee-Witmer

²

,

Vogel

³

et al. 2004

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The androgen receptor (AR) is a member of the steroid receptor superfamily that plays critical roles in the development and maintenance of the male reproductive system and in prostate cancer. Actions of AR are controlled by interaction with several classes of coregulators. In this study, we have identified LATS2/KPM as a novel AR-interacting protein. Human LATS1 and LATS2 are tumor suppressors that are homologs of Drosophila warts/lats. The interaction surface of LATS2 is mapped to the central region of the protein, whereas the AR ligand binding domain is sufficient for this interaction. LATS2 functions as a modulator of AR by inhibiting androgen-regulated gene expression. The mechanism of LATS2-mediated repression of AR activity appears to involve the inhibition of AR NH2- and COOH-terminal interaction. Chromatin immunoprecipitation assays in human prostate carcinoma cells reveal that LATS2 and AR are present in the protein complex that binds at the promoter and enhancer regions of prostate-specific antigen, and overexpression of LATS2 results in a reduction in androgen-induced expression of endogenous prostate-specific antigen mRNA. Immunohistochemistry shows that LATS2 and AR are localized within the prostate epithelium and that LATS2 expression is lower in human prostate tumor samples than in normal prostate. The results suggest that LATS2 may play a role in AR-mediated transcription and contribute to the development of prostate cancer.

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Myb and Ets Proteins Are Candidate Regulators of c-kit Expression in Human Hematopoietic Cells

Ratajczak

¹

,

Perrotti

²

,

Melotti

³

et al. 1998

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Kit is a tyrosine kinase receptor that plays an important role in human hematopoietic cell growth. The promoter elements that modulate the gene's expression have not been extensively studied. Because of c-kit's acknowledged importance in hematopoiesis, we sought to address this issue in more detail. To perform these studies we analyzed a human c-kit 5′ flanking fragment ∼1 kilobase in length. Deletion constructs showed a region ∼139 nucleotides upstream from the translation initiation site that was critical for promoter activity. A region containing a potential silencing element was also identified. Sequence analysis indicated several potential Myb- and Ets-binding sites. The functional significance of these sites was explored by showing that both wild-type Myb and Ets-2 protein, but not a DNA binding-deficient Myb mutant protein, bound to distinct 5′ flanking fragments that included these sites. Furthermore, binding of recombinant Myb and Ets-2 protein to these fragments could be competed with an excess of double stranded oligodeoxynucleotides containing canonical, but not mutated,Myb- or Ets-binding sites. We also showed that the 5′ flanking region of c-kit exhibited promoter activity in nonhematopoietic cells only when the cells were transfected with c-myb or ets-2 expression vectors. Moreover,Myb and Ets-2 coexpression in such cells augmented transactivation of c-kit promoter constructs in comparison to that observed in cells transfected with either construct alone. Promoter constructs lacking various Myb and Ets sites deleted were much less effective in this same system. Finally,Myb and Ets-2 mRNA expression was detected in CD34+, Kitlow as well as CD34+, Kitbright cells. In aggregate, these data further define the human c-kit promoter's functional anatomy and suggest that Myb and Etsproteins play an important, perhaps cooperative, role in regulating expression of this critical hematopoietic cell receptor.

show abstract

Myb and Ets Proteins Are Candidate Regulators of c-kit Expression in Human Hematopoietic Cells

Ratajczak

¹

,

Perrotti

²

,

Melotti

³

et al. 1998

View full text Add to dashboard Cite

Kit is a tyrosine kinase receptor that plays an important role in human hematopoietic cell growth. The promoter elements that modulate the gene's expression have not been extensively studied. Because of c-kit's acknowledged importance in hematopoiesis, we sought to address this issue in more detail. To perform these studies we analyzed a human c-kit 5′ flanking fragment ∼1 kilobase in length. Deletion constructs showed a region ∼139 nucleotides upstream from the translation initiation site that was critical for promoter activity. A region containing a potential silencing element was also identified. Sequence analysis indicated several potential Myb- and Ets-binding sites. The functional significance of these sites was explored by showing that both wild-type Myb and Ets-2 protein, but not a DNA binding-deficient Myb mutant protein, bound to distinct 5′ flanking fragments that included these sites. Furthermore, binding of recombinant Myb and Ets-2 protein to these fragments could be competed with an excess of double stranded oligodeoxynucleotides containing canonical, but not mutated,Myb- or Ets-binding sites. We also showed that the 5′ flanking region of c-kit exhibited promoter activity in nonhematopoietic cells only when the cells were transfected with c-myb or ets-2 expression vectors. Moreover,Myb and Ets-2 coexpression in such cells augmented transactivation of c-kit promoter constructs in comparison to that observed in cells transfected with either construct alone. Promoter constructs lacking various Myb and Ets sites deleted were much less effective in this same system. Finally,Myb and Ets-2 mRNA expression was detected in CD34+, Kitlow as well as CD34+, Kitbright cells. In aggregate, these data further define the human c-kit promoter's functional anatomy and suggest that Myb and Etsproteins play an important, perhaps cooperative, role in regulating expression of this critical hematopoietic cell receptor.

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Mark Powzaniuk

The LATS2/KPM Tumor Suppressor Is a Negative Regulator of the Androgen Receptor

Myb and Ets Proteins Are Candidate Regulators of c-kit Expression in Human Hematopoietic Cells

Myb and Ets Proteins Are Candidate Regulators of c-kit Expression in Human Hematopoietic Cells

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