BACKGROUND: Hox genes encode transcriptional regulatory proteins that are largely responsible for establishing the body plan of all metazoan organisms. A subset of Hox genes is expressed during the period of organogenesis and into adulthood. hoxb-13 is a recently-described member of the Hox gene family that is expressed in the spinal cord, hindgut, and urogenital sinus during embryogenesis. METHODS: Northern blot and in situ hybridization analyses of hoxb-13 expression in adult mouse tissues were performed. RESULTS: hoxb-13 mRNA is restricted to the prostate gland and distal colon in adult animals. In situ hybridization of mouse prostate tissue demonstrated that hoxb-13 is expressed in the epithelial cells of the ventral, dorsal, lateral, and anterior prostate lobes. Accumulation of hoxb-13 mRNA is not diminished following castration. CONCLUSIONS: These data demonstrate that hoxb-13 expression is androgen-independent in mouse prostate glands. The identification of hoxb-13 as an androgen-independent gene expressed in adult mouse prostate epithelial cells provides a new potential target for developing therapeutics to treat advanced prostate cancer. Copyright 1999 Wiley-Liss, Inc.
BACKGROUND: Hox genes encode transcriptional regulatory proteins that are largely responsible for establishing the body plan of all metazoan organisms. A subset of Hox genes is expressed during the period of organogenesis and into adulthood. hoxb-13 is a recently-described member of the Hox gene family that is expressed in the spinal cord, hindgut, and urogenital sinus during embryogenesis. METHODS: Northern blot and in situ hybridization analyses of hoxb-13 expression in adult mouse tissues were performed. RESULTS:hoxb-13 mRNA is restricted to the prostate gland and distal colon in adult animals. In situ hybridization of mouse prostate tissue demonstrated that hoxb-13 is expressed in the epithelial cells of the ventral, dorsal, lateral, and anterior prostate lobes. Accumulation of hoxb-13 mRNA is not diminished following castration. CONCLUSIONS: These data demonstrate that hoxb-13 expression is androgen-independent in mouse prostate glands. The identification of hoxb-13 as an androgen-independent gene expressed in adult mouse prostate epithelial cells provides a new potential target for developing therapeutics to treat advanced prostate cancer. Copyright 1999 Wiley-Liss, Inc.
Authors: Ryan P McMullin; Albert Dobi; Laura N Mutton; András Orosz; Shilpi Maheshwari; Cooduvalli S Shashikant; Charles J Bieberich Journal: Proc Natl Acad Sci U S A Date: 2009-12-14 Impact factor: 11.205