Stromal growth and epithelial cell proliferation in ventral prostates of liver X receptor knockout mice

Abstract: With specific liver X receptor ␣ and ␤ (LXR␣ and LXR␤) antibodies, we found that LXR␣ is strongly expressed in the luminal and basal cells of prostatic epithelium. The ventral prostates (VP) of LXR␣ ؊/؊ mice are characterized by the presence of smooth-muscle actinpositive stromal overgrowth around the prostatic ducts and by numerous fibrous nodules pushing into the ducts and causing obstruction, so that most of the ducts were extremely dilated. BrdU labeling and Ki67 staining revealed epithelial and stromal pr… Show more

“…Indeed, in the ventral prostate of LXRα −/− mice, an abnormal stromal overgrowth is accompanied by high expression of SNAIL and SMAD-2/3, markers of an enhanced TGF-β activity (16). A cross-talk between LXRα and TGF-β has been previously hypothesized but still remains poorly understood.…”

“…Anti-LXRα and anti-LXRβ antibodies were developed in our laboratory (16,30) and used in immunohistochemical studies to investigate expression and localization of LXRα and LXRβ in the gallbladders of WT, LXRα −/− , and LXRβ −/− mice. Positive immunoreactivity both for LXRα (Fig.…”

“…Treatment with LXR agonist has an antiproliferative effect in vitro and in vivo (11-15) with a mechanism that seems to involve an increase of the kinase inhibitor p27 (37), suppression of the oncogenic β-catenin (38), and an interplay with TGF-β signaling (16). Indeed, in the ventral prostate of LXRα −/− mice, an abnormal stromal overgrowth is accompanied by high expression of SNAIL and SMAD-2/3, markers of an enhanced TGF-β activity (16).…”

“…Goat polyclonal IgG against LXRα and against LXRβ were prepared in our laboratory as previously described (16,30). The following antibodies were used: rabbit polyclonal to PCNA (GTX22426; GeneTex) at 1:200 dilution; rabbit polyclonal anti-E-cadherin (H-108, sc-7870; Santa Cruz Biotechnology) at 1:200; rabbit anti-pSMAD-2 (AB3849; Chemicon) at 1:100; and rabbit monoclonal to SMAD-4 (Ab40759; Abcam) at 1:100.…”

“…Effects of LXR on regulation of cell cycle have been described in other tissues including the prostate (11), breast cancer cells (12), pancreatic β cells (13,14), and T and B lymphocytes (15). Indeed, the ventral prostate of LXRα −/− mice is affected by a pathological stromal overgrowth positive for pSMAD-2/3 and SNAIL, markers of enhanced TGF-β signaling (16). Moreover, LXR agonist inhibits the growth of prostate tumors in athymic mice inoculated with prostate cancer cells (11) and inhibits estrogen-dependent proliferation of uterine epithelial cells and breast cancer-xenograph growth in nude mice (17).…”

Estrogen-dependent gallbladder carcinogenesis in LXRβ ^−/− female mice

“…Indeed, in the ventral prostate of LXRα −/− mice, an abnormal stromal overgrowth is accompanied by high expression of SNAIL and SMAD-2/3, markers of an enhanced TGF-β activity (16). A cross-talk between LXRα and TGF-β has been previously hypothesized but still remains poorly understood.…”

“…Anti-LXRα and anti-LXRβ antibodies were developed in our laboratory (16,30) and used in immunohistochemical studies to investigate expression and localization of LXRα and LXRβ in the gallbladders of WT, LXRα −/− , and LXRβ −/− mice. Positive immunoreactivity both for LXRα (Fig.…”

“…Treatment with LXR agonist has an antiproliferative effect in vitro and in vivo (11-15) with a mechanism that seems to involve an increase of the kinase inhibitor p27 (37), suppression of the oncogenic β-catenin (38), and an interplay with TGF-β signaling (16). Indeed, in the ventral prostate of LXRα −/− mice, an abnormal stromal overgrowth is accompanied by high expression of SNAIL and SMAD-2/3, markers of an enhanced TGF-β activity (16).…”

“…Goat polyclonal IgG against LXRα and against LXRβ were prepared in our laboratory as previously described (16,30). The following antibodies were used: rabbit polyclonal to PCNA (GTX22426; GeneTex) at 1:200 dilution; rabbit polyclonal anti-E-cadherin (H-108, sc-7870; Santa Cruz Biotechnology) at 1:200; rabbit anti-pSMAD-2 (AB3849; Chemicon) at 1:100; and rabbit monoclonal to SMAD-4 (Ab40759; Abcam) at 1:100.…”

“…Effects of LXR on regulation of cell cycle have been described in other tissues including the prostate (11), breast cancer cells (12), pancreatic β cells (13,14), and T and B lymphocytes (15). Indeed, the ventral prostate of LXRα −/− mice is affected by a pathological stromal overgrowth positive for pSMAD-2/3 and SNAIL, markers of enhanced TGF-β signaling (16). Moreover, LXR agonist inhibits the growth of prostate tumors in athymic mice inoculated with prostate cancer cells (11) and inhibits estrogen-dependent proliferation of uterine epithelial cells and breast cancer-xenograph growth in nude mice (17).…”

Estrogen-dependent gallbladder carcinogenesis in LXRβ ^−/− female mice

Desquamation takes center stage at the origin of proliferative inflammatory atrophy, epithelial–mesenchymal transition, and stromal growth in benign prostate hyperplasia

Contractile signaling pathways in mouse prostate smooth muscle