Correlated nuclear and cytoplasmic reorganizations during the 14 hr of reactivated meiosis in vivo and in vitro were examined in the laboratory mouse. Observations of living oocytes by differential interference contrast microscopy, and by fluorescent microscopy with nontoxic mitochondrial and DNA-specific probes, enabled us to determine that the major cytoplasmic reorganization involved two mitochondrial translocations associated with two stages of nuclear maturation. These observations were confirmed at the fine structural level by parallel transmission electron microscopy. Mitochondria translocate to the perinuclear region during formation of the first metaphase spindle and subsequently disperse during abstriction of the first polar body. Determinations of frequency of maturation in more than 2,900 normal oocytes, and in more than 1,100 oocytes in which germinal vesicle breakdown was reversibly inhibited, indicated that mitochondrial redistributions are a normal and probably necessary feature of reactivated meiosis in the laboratory mouse. We suggest that these two rapid translocations serve to concentrate mitochondria for localized activities that require elevated levels of adenosine triphosphate.
A homologous chimeric prostate was produced by implantation of intact fetal urogenital sinus(es) (UGS) into the ventral prostate gland (VP) of an adult athymic mouse. A 10- to 20-fold overgrowth of the chimeric lobe of ventral prostate gland, as measured by glandular wet weight and by DNA content, was observed 4 to 9 wk following UGS implantation. The overgrowth was prostate-like as indicated by histologic composition and by responses to endogenous androgen, and was composed of both host and donor cells in about equal proportions as shown by glucose phosphate isomerase isozymic profiles. Unlike the canine model for prostatic hyperplasia, the mouse prostatic overgrowth occurred in the complete absence of exogenous sex steroids. The histoarchitecture of the chimeric VP and the isozymic detection of the contribution to the overgrowth by host cells have provided strong evidence that adult prostatic cells have been recruited to respond proliferatively by cellular interactions with fetal UGS. The demonstration of cellular interactions followed by reactivation of the fetal growth potential provides direct experimental evidence in support of McNeal's hypothesis that the reactivation of fetal growth potential may account for the development of human benign prostatic hyperplasia (BPH).
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