Becker Klaus A, Lu Shaolei, Dickinson Ellen S, Dunphy Karen A, Mathews Lesley, Schneider Sallie Smith, Jerry D Joseph
Molecular and Cellular Biology Program, University of Massachusetts, Amherst, MA 01003, USA.
Oncogene. 2005 Sep 22;24(42):6345-53. doi: 10.1038/sj.onc.1208787.
DNA damage normally induces p53 activity, but responses to ionizing radiation in the mammary epithelium vary among developmental stages. The following studies examined the hormones and growth factors that regulate radiation-responsiveness of p53 in mouse mammary epithelium. Immunoreactive p21/WAF1 and TUNEL staining were used as indicators of p53 activity following exposure to ionizing radiation. In ovariectomized mice, radiation-induced accumulation of p21/WAF1 was minimal in the mammary epithelial cells (<1%). Systemic injections of estrogen and progesterone (E+P) for 72 h were necessary to recover maximal expression of p21/WAF1 following ionizing radiation (55%). The effects of E+P on radiation-induced p21/WAF1 were p53-dependent as responses were absent in Trp53-/- mice. Though hormonal treatments stimulated increases in the proportion of cycling cells (PCNA-positive), this was not directly correlated with p53 activity. Whole organ cultures were used to determine whether E+P act directly upon the mammary gland. Treatment with E+P was sufficient to render p53 responsive to radiation, but TGF-beta-neutralizing antibodies blocked responsiveness. In the absence of E+P, TGF-beta1 alone did not alter p53 activity. These results demonstrate that estrogen and progesterone together with TGF-beta signaling are necessary for maintenance of p53 activity in the mammary epithelium.
DNA损伤通常会诱导p53活性,但乳腺上皮对电离辐射的反应在不同发育阶段有所不同。以下研究检测了调节小鼠乳腺上皮中p53辐射反应性的激素和生长因子。免疫反应性p21/WAF1和TUNEL染色被用作电离辐射暴露后p53活性的指标。在去卵巢小鼠中,辐射诱导的p21/WAF1在乳腺上皮细胞中的积累极少(<1%)。全身注射雌激素和孕酮(E+P)72小时对于恢复电离辐射后p21/WAF1的最大表达是必要的(55%)。E+P对辐射诱导的p21/WAF1的影响是p53依赖性的,因为在Trp53基因敲除小鼠中没有反应。尽管激素处理刺激了循环细胞比例(PCNA阳性)的增加,但这与p53活性没有直接相关性。使用全器官培养来确定E+P是否直接作用于乳腺。用E+P处理足以使p53对辐射产生反应,但TGF-β中和抗体阻断了反应性。在没有E+P的情况下,单独的TGF-β1不会改变p53活性。这些结果表明,雌激素和孕酮以及TGF-β信号传导对于维持乳腺上皮中的p53活性是必要的。
