Müllerian-inhibiting substance: an update

Diffusable growth factors induce bladder smooth muscle differentiation

Bladder smooth muscle differentiation is dependent on the presence of bladder epithelium. Previously, we have shown that direct contact between the epithelium and bladder mesenchyme (BLM) is necessary for this interaction. In this study, we tested the hypothesis that bladder smooth muscle can be induced via diffusable growth factors. Fourteen-day embryonic rat bladders were separated into bladder mesenchyme (prior to smooth muscle differentiation) and epithelium by enzymatic digestion and microdissection. Six in vitro experiments were performed with either direct cellular contact or no contact (1) 14-d embryonic bladder mesenchyme (BLM) alone (control), (Contact) (2) 14-d embryonic bladders intact (control), (3) 14-d embryonic bladder mesenchyme combined with BPH-1 cells (an epithelial prostate cell line) in direct contact, (4) 14-d embryonic bladder mesenchyme with recombined bladder epithelium (BLE) in direct contact, (No Contact) (5) 14-d embryonic bladder mesenchyme with BPH-1 prostatic epithelial cells cocultured in type 1 collagen gel on the bottom of the well, and (6) 14-d embryonic bladder mesenchyme with BPH-1 epithelium cultured in a monolayer on a transwell filter. In each case the bladder tissue was cultured on Millicell-CM 0.4-microm membranes for 7 d in plastic wells using serum free medium. Growth was assessed by observing the size of the bladder organoids in histologic cross section as well as the vertical height obtained in vitro. Immunohistochemical analysis of the tissue explants was performed to assess cellular differentiation with markers for smooth muscle alpha-actin and pancytokeratin to detect epithelial cells. Control (1) bladder mesenchyme grown alone did not exhibit growth or smooth muscle and epithelial differentiation. Contact experiments (2) intact embryonic bladder, (3) embryonic bladder mesenchyme recombined with BPH-1 cells, and (4) embryonic bladder mesenchyme recombined with urothelium each exhibited excellent growth and bladder smooth muscle and epithelial differentiation. Both noncontact experiments (5) and (6) exhibited growth as well as bladder smooth muscle and epithelial differentiation but to a subjectively lesser degree than the contact experiments. Direct contact of the epithelium with bladder mesenchyme provides the optimal environment for growth and smooth muscle differentiation. Smooth muscle growth and differentiation can also occur without direct cell to cell contact and is not specific to urothelium. This data supports the hypothesis that epithelium produces diffusable growth factors that induce bladder smooth muscle.

Negative regulation of DNA synthesis in early erythropoietic progenitor cells (BFU-E) by a protein purified from the medium of C57BL/6 mouse marrow cells

During studies on the influence of Fv-2 on the cycle state of the erythroid burst-forming unit (BFU-E), an activity was found in bone marrow supernatants from C57BL/6 (B6) mice that shut down DNA synthesis of the BFU-E in vitro. It acted within minutes, its action was completely reversed by a single wash, and it appeared specific to the BFU-E. The activity-causing substance, being macromolecular, heat stable, and trypsin-sensitive, was evidently a protein and was named negative regulatory protein. We purified a negative regulatory protein from a bone marrow-derived "B6 Pan" cell line with properties thus far indistinguishable from those of the negative regulatory protein obtained directly from B6 marrow. By gel filtration the protein has a Mr of approximately equal to 79,000, by cation- and anion-exchange chromatography it appears to be a neutral molecule at physiological pH, and the molecule does not bind to Con A. After five sequential chromatographic steps, we obtained a preparation active at a concentration of 25 ng/ml. Our findings are compatible with the hypothesis that quiescence of BFU-E with respect to DNA synthesis in vivo in B6 mice is mediated by negative regulatory protein molecules.

Unusual dual genital duct remnants in true hermaphroditism

A case of true hermaphroditism is reported in which a 46,XY karyotype was associated with a testis and an ovotestis. The dual presence of a Fallopian tube and a vas deferens on the side of the ovotestis is documented as a previously unreported finding.

The unique endocrine milieu of the fetus

Table II summarizes in tabular form the major features of the fetal endocrine milieu discussed in the foregoing pages. The mammalian fetus develops in an environment where respiration, alimentation, and excretory functions are provided by the placenta. Fetal tissue metabolism is oriented largely to anabolism; body temperature is modulated by maternal metabolism, and fetal tissue thermogenesis is maintained at a basal level. Tissue and organ growth appear to be regulated by growth factors which probably function by autocrine or paracrine mechanisms during most of gestation (72, 146-148). In this milieu conventional endocrine control systems are largely redundant, and other transient systems more appropriate to the intrauterine environment have evolved. We have developed some insights into these systems, but much more information is necessary before we can truly understand this fascinating environment.

Perineal reconstruction in ambiguous genitalia infants raised as females

Sixty-six patients with ambiguous genitalia, representing a combined experience, underwent reconstruction of the perineum to achieve a feminine phenotype. These patients represent four major etiologic groups, adrenogenital syndrome, male pseudohermaphroditism, mixed gonadal dysgenesis, and true hermaphroditism. If the patient is to be raised as a female, the perineum is reconstructed early in the neonatal period by doing a clitoral recession, labial reduction, and vaginal exteriorization. The latter is delayed if the vagina enters the urogenital sinus high, until 2 years. The factors affecting the choice of gender and the details and the timing of the surgical techniques are described.