Maternal immune stimulation reduces both placental morphologic damage and down-regulated placental growth-factor and cell cycle gene expression caused by urethane: are these events related to reduced teratogenesis?

Activation of the maternal immune system in mice decreased cleft palate caused by the chemical teratogen, urethane. Direct and indirect mechanisms for this phenomenon have been suggested, including maternal macrophages that cross the placenta to find and eliminate pre-teratogenic cells, or maternal immune proteins (cytokines) that cross placenta to alleviate or partially alleviate toxicant-mediated effects in the developing fetus. A third mechanism to explain improved fetal developmental outcome in teratogen-challenged pregnant mice might involve beneficial effects of immune stimulation on the placenta. In the present experiments, urethane treatment altered placental morphology and impaired placental function, the latter indicated by down-regulated activity of cell cycle genes and of genes encoding cytokines and growth factors. Maternal immune stimulation with either Freund's complete adjuvant (FCA) or interferon-gamma (IFNgamma) reduced morphologic damage to the placenta caused by urethane and normalized expression of several genes that were down-regulated by urethane. Urethane treatment also shifted placental cytokine gene expression toward a T cell helper 1 (Th1) profile, while immunostimulation tended to restore a Th2 profile that may be more beneficial to pregnancy and fetal development. These data suggest that the beneficial effects of maternal immune stimulation on fetal development in teratogen-exposed mice may, in part, result from improved placental structure and function.

Immune stimulation in urethane-exposed pregnant mice increases expression level of spleen leukocyte genes for TGFbeta3 GM-CSF and other cytokines that may play a role in reduced chemical-induced birth defects.

For unknown reasons, activation of the maternal immune system in mice reduces morphologic defects caused by diverse teratogenic agents. Such immune stimulation of the maternal animal has been correlated with altered cytokine mRNA transcripts in the placenta (e.g., TGFbeta2) as well as in fetal target tissues of the teratogen (e.g., TNFalpha in fetal heads of cyclophosphamide-exposed pregnant mice). The teratogen urethane was reported to down-regulate cell cycle and apoptotic regulatory genes in fetal mouse heads that displayed cleft palate, an effect that was also reversed by maternal immune stimulation. The molecular mediators of the above phenomena have not been identified, however proteins synthesized and released by activated maternal immune cells have been suggested. The present studies therefore evaluated the effects of maternal immune stimulation in urethane-exposed mice on thymus and spleen leukocyte populations, in an attempt to identify events that may correlate with protection against birth defects. Immune stimulation did not change the hypocellularity of the thymus nor the altered T cell differentiation caused by urethane. A limited and transient increase in splenic leukocyte number, including increased T and B lymphocytes and macrophages, was caused by immune stimulation and was not felt to play a significant role in reduced morphologic defects. Urethane treatment caused down-regulated expression of numerous genes involved in cell-cycle control, while maternal immune stimulation caused comparative up-regulation of many of these genes. Coordinate shifts in gene expression by treatment were evaluated using principal component analysis, which identified several growth factor genes that were differentially expressed in mice receiving urethane alone as compared to urethane plus immune stimulation. Up-regulated expression of TGFbeta3 and GM-CSF genes, in particular, was observed in leukocytes of urethane-exposed mice receiving immunostimulation. Interestingly, the cytokine products of these two genes were recently suggested as growth factors that may be related to reduction of fetal defects caused by teratogens. Genes for growth factors IGF-I, IGF-II and IL-2 were also identified as differentially expressed in urethane vs. urethane+immune stimulation mice, suggesting that these proteins should be considered for a potential contributing effect to reduced birth defects caused by immunostimulation.

Maternal immune stimulation in mice decreases fetal malformations caused by teratogens.

For unknown reasons, non-specific stimulation of the maternal immune system in pregnant mice has what appears to be a broad-spectrum efficacy for reducing birth defects. Immune stimulation by diverse procedures has proven effective, including footpad injection with Freund's complete adjuvant (FCA), intraperitoneal (IP) injection with inert particles to activate resident macrophages, IP injection with attenuated Bacillus Calmette-Guerin (BCG), and intrauterine injection with allogeneic or zenogeneic lymphocytes. Morphologic lesions that were significantly reduced included cleft palate and associated craniofacial defects, digit and limb defects, tail malformations, and neural tube defect (NTD). Teratogenic stimuli to induce these lesions included chemical agents (2,3,7,8-tetrachlorodibenzo-p-dioxin [TCDD], ethyl carbamate [urethane], methylnitrosourea [MNU], cyclophosphamide [CP], and valproic acid [VA]), physical agents (X-rays, hyperthermia), and streptozocin (STZ)-induced diabetes mellitus. Limited information is available regarding mechanisms by which such immune stimulation reduced fetal dysmorphogenesis. The collective literature suggests the possibility that immunoregulatory cytokines of maternal origin may be the effector molecules in this phenomenon.

p53 Involvement in the control of murine hair follicle regression.

p53 is a transcription factor mediating a variety of biological responses including apoptotic cell death. p53 was recently shown to control apoptosis in the hair follicle induced by ionizing radiation and chemotherapy, but its role in the apoptosis-driven physiological hair follicle regression (catagen) remains to be elucidated. Here, we show that p53 protein is strongly expressed and co-localized with apoptotic markers in the regressing hair follicle compartments during catagen. In contrast to wild-type mice, p53 knockout mice show significant retardation of catagen accompanied by significant decrease in the number of apoptotic cells in the hair matrix. Furthermore, p53 null hair follicles are characterized by alterations in the expression of markers that are encoded by p53 target genes and are implicated in the control of catagen (Bax, Bcl-2, insulin-like growth factor binding protein-3). These data suggest that p53 is involved in the control of apoptosis in the hair follicle during physiological regression and imply that p53 antagonists may be useful for the management of hair growth disorders characterized by premature entry into catagen, such as androgenetic alopecia, alopecia areata, and telogen effluvium.

Nonspecific stimulation of the maternal immune system. II. Effects on gene expression in the fetus.

BACKGROUND: Maternal immune stimulation reduces malformations caused by chemical teratogens. Mechanisms for this effect are not known. Altered expression of regulatory molecules (e.g., transforming growth factor [TGF-beta], tumor necrosis factor-alpha [TNF-alpha]) has been reported in fetuses from immunostimulated mice, which may affect gene expression. Expression of selected genes that function to control proliferation, differentiation, or apoptosis was evaluated in chemical-exposed fetuses, with or without maternal immunostimulation. METHODS: Ethyl carbamate (urethane) was given to pregnant ICR mice on day 10 of gestation to induce cleft palate. Before teratogen administration, the immune system of the female mice was stimulated by footpad injection with Freund's complete adjuvant (FCA) or by intraperitoneal injection with interferon-gamma (IFN-gamma). RESULTS: Maternal immunostimulation with interferon-gamma (IFN-gamma) decreased severity of the cleft palate lesion caused by urethane, while FCA decreased both incidence and severity of cleft palate. Gestation day 14 fetuses from urethane-exposed mothers displayed decreased expression of cell cycle/apoptotic genes bcl2alpha, bcl2beta, pkCalpha, and p53 in fetal heads. Immune stimulation with IFN-gamma-normalized expression of bcl2alpha, bcl2beta, and pkCalpha to control levels. Urethane also decreased the ratio of expression of bclalpha/p53, bclbeta/p53, and pkCalpha/p53, while maternal injection with IFN-gamma restored these expression ratios to control levels. Maternal immunization with FCA also significantly increased bcl2alpha/p53, bcl2beta/p53, and pkCalpha/p53 gene expression ratios. CONCLUSIONS: These results suggest that (1) the maternal immune system may possess heretofore unrecognized regulatory activity in fetal development, and (2) protection against urethane-induced cleft palate may be mediated through maternal immune regulation of fetal gene expression.

Two month glucocorticoid treatment increases estradiol-induced stromal and myometrial cell proliferation in the uterus of ovariectomized rats.

The present work was undertaken to examine the effect of 2 month glucocorticoid treatment on estradiol-induced proliferation in the uterus. Ovariectomized rats were treated with long-acting triamcinolone acetonide or saline for 60 days followed by a single injection of estradiol dipropionate or vehicle. Proliferation in the uterus was estimated by the mitotic index, bromodeoxyuridine-labelling index and proliferating cells nuclear antigen-labelling index 24, 36 and 48 h after the injection of estradiol or vehicle. Two month glucocorticoid treatment resulted in an initial decrease in all the parameters for luminal and glandular epithelia followed by an increase to 48 h after estradiol injection, and in a large increase in all proliferative parameters for stromal and myometrial cells at all periods of observation, compared with control rats untreated with glucocorticoid. The 2 month glucocorticoid treatment protocol had no significant effect on the parameters without estradiol administration. Analysis of proliferation for myometrial cells was also performed after 1 month treatment with glucocorticoid followed by estradiol or saline. Results showed no significant influence of 1 month treatment with glucocorticoid on myometrial cells.

Role of mast cells in oestradiol effects on the uterus of ovariectomized rats.

The role of mast cells and their main secretory products in the effects of oestradiol on the uterus was investigated. Ovariectomized rats were treated with a single injection of oestradiol (10 micrograms per rat, i.m.) or vehicle together with drugs affecting the activity of mast cells, cromoglycate (10 mg per rat, i.m.), which diminishes the degranulation of mast cells, or compound 48/80 (0.5 mg per rat, i.m.), which enhances this process. Oestradiol or vehicle was also administered with two important secretory products of mast cells, heparin (0.4 mg per rat, i.m.) or histamine (2 mg per rat, i.m.). All drugs were injected simultaneously with oestradiol (first injection) and then every 6 h until the animals were killed. Observations were performed at 24, 36 and 48 h after oestradiol or vehicle injection. The condition of mast cells was determined by the percentage of degranulated mast cells in sections stained with toluidine blue. Oestradiol-induced effects in the uterus were estimated by the mitotic index, proliferating cell nuclear antigen-labelling index, DNA content, volumes of cells, nuclei and nucleoli in the luminal epithelium, glandular epithelium and stroma cells of the endometrium. Cromoglycate treatment resulted in a decrease in both mast cell degranulation and all examined oestradiol effects in the uterus at all periods of observation. Compound 48/80 increased mast cell degranulation and expression of one aspect of oestradiol effects on the volumes of cell compartments. Histamine or heparin led to a marked increase in the cell, nucleus and nucleolus volumes in all uterine structures. However, heparin produced a depression in proliferation, whereas histamine had a weak transient stimulating action on this process. No effects of the protocols were found in the absence of oestradiol treatment. These results suggest that mast cells are involved in the realization of oestrogen action, including the stimulation of cell growth and proliferation in the uterus, and that the effect of mast cells is mediated by both histamine and heparin.

[Melatonin production in patients with duodenal ulcer at different stages of disease]. / Produktsiia melatonina u bol'nykh iazvennoi bolezn'iu dvenadtsatiperstnoi kishiki v razlichnye stadii techeniia zabolevaniia.

Melatonin secretion was measured in patients with duodenal ulcer in exacerbation and remission. Melatonin production was found abnormal both in duodenal ulcer remission and exacerbation. It is suggested that melatonin may participate in pathogenesis of duodenal ulcer.

Self-reproducing systems: structure, niche relations and evolution.

A formal definition of a self-reproducing system is proposed using Petri nets. A potential self-reproducing system is a set of places in the Petri net such that the number of tokens in each place increases due to some sequence of internal transitions (a transition is called internal to the marked subset of places if at least one of its starting places and one of its terminating places belongs to that subset). An actual self-reproducing system is a system that compensates the outflow of its components by reproduction. In a suitable environment every potential self-reproducing system becomes an actual one. Each Petri net can be considered as an ecosystem with the web of ecological niches bound together with trophic and other relations. The stationary dynamics of the ecosystem is characterized by the set of filled niches. The process of evolution is described in terms of niche composition change. Perspectives of the theory of self-reproducing systems in biology are discussed.