The placenta of the salp (Tunicata: Thaliacea).

The morphology of the mature 'placenta' of the pelagic tunicate Salpa fusiformis is described, and it is shown that two syncytial layers, intimately connected by interdigitating microvilli, separate maternal and embryonic circulations. The central placental layer facing the maternal circulation is bordered by membrane infoldings; the cortical layer facing the embryonic circulation is bordered by extensively branching microvilli. Both layers are of maternal origin, although embryonic leucocytes pass into, and add to, the cortical layer.

Purification and characterization of guinea-pig chorionic gonadotrophin.

A human chorionic gonadotrophin-like protein (GF-1, 1.0 g) from the placentae of 50 guinea-pigs killed at Day 26 of gestation was purified by pH and ammonium salt fractionation followed by column chromatography on DEAE-Sephadex and filtration on Sephadex G-100. Relative to the Second International hCG standard (MRC 61/6) GF-1 had an immunological potency of 21 000 i.u./mg as measured in a specific hCG-beta radioimmunoassay and, using the ovarian ascorbic acid depletion assay, an apparent biological potency of 24 064 i.u./mg. Isoelectric focusing yielded 6 bands between pH 4.4 and 5.7 and the material comprised two non-covalently linked subunits. The Stokes' radii were 3.40 nm for the native preparation, and 2.38 nm and 3.15 nm for GF-1-alpha and GF-1-beta subunits respectively. The guinea-pig placenta therefore produces a chorionic gonadotrophin which on purification has physicochemical, biological and immunological properties similar to those of hCG.

Development of the caruncular and intercaruncular regions in the bovine endometrium.

Uterine specimens from fetal and postnatal heifers were examined by various types of microscopy to determine when the endometrium differentiated into caruncular and intercaruncular regions and changes in the cell types as the uterus developed. The luminal surface of the fetal uterus was formed into prominent pedunculated or mushroom-shaped nodules. Glandular development was first observed at about 250 days of gestation as short invaginations of the epithelium of the internodular surface adjacent to nodular stalks. The basal profile of each epithelial cell in the deeper portions of developing glands formed cytoplasmic processes which extended into the stroma. Between birth and 3 months of age there was a tremendous increase in the glandular epithelium. Concurrent thickening of the connective tissue component caused expansion of the nodular peduncle and a gradual flattening of the nodule until, by 1 year of age, only slight elevations remained, with a discrete caruncle visible on each. By following the development of the glandular component it was concluded that only the apical portion of each fetal nodule will develop into a caruncle and the sides of the nodule, together with the internodular portion, are destined to be the intercaruncular region.

Unusual phenomena during pregnancy in the cat and cow.

Unusual situations were observed during examination of pregnant uteri from a cat and a cow. The feline specimen revealed three corpora lutea at the surface of each ovary with three fetuses developing normally in the left and two in the right uterine horn. The right horn had been ruptured between two of the locular enlargements but the damage was sealed by the omentum. Three conceptuses were present in the cow's uterus. Two of these embryos, each with its individual allantois, were developing within a single chorion within one uterine horn. The adjacent tips of these allantoic vesicles were entangled into a complex knot which could provide opportunity for vascular anastomosis.

The existence during gestation of an immunological buffer zone at the interface between maternal and foetal tissues.

In mammalian pregnancy the trophoblast normally constitutes an uninterrupted boundary of foetal tissue in immediate contact with maternal tissue, including blood in some species, and is the decisive immunological barrier to rejection of the foetus as an allograft. The ability of the trophoblast to function as a barrier evidently results from its capacity to resist immunological attack by either alloantibody or alloimmune cells and to prevent immunocompetent cells from reaching and damaging the foetus but, as yet, there is no general agreement regarding the means by which it exercises these functions. In view of the dramatic hormonal changes that occur during pregnancy and the undisputed involvement of trophoblast in these endocrine events, the possibility exists of an interaction between the hormones of pregnancy and the immunological phenomena. The present account furnishes evidence that endocrine activity at the maternal surface of the trophoblast, the presumptive site of the immunological frontier between foetus and mother, may be a factor in its local survival at implantation. The placental hormones so far known that are capable of blocking the antigen receptor sites of the mother's lymphocytes and thus preventing the latter from reacting with the foetal antigens are the glycoprotein, human chorionic gonadotrophin (HCG) and the polypeptide hormone, human chorionic somatomammotrophin (HCS) or human placental lactogen (HPL), both of which are specific to the human placenta. The origin of these hormones, their spatial distribution and their probable interaction with placental steroid hormones are discussed. It is argued that the place of highest concentration of these hormones is on the surface of the syncytial microvilli and the adjacent caviolae of the apical plasma membrane, as well as on the surfaces of the persisting cytotrophoblastic cells of the basal plate (cytotrophoblastic shell), the cell islands and the septa-precisely where the immunological challenge of the foetal allograft to the maternal host occurs. An explanation is offered for the continuing production of the voluminous quantities of these hormones during human pregnancy.