Diverse effect of tributyltin on apoptosis in PC12 cells

It has not been fully elucidated how endocrine-disrupting chemicals disrupt hormone functions or how strong their effects are compared with natural hormones. There is little information concerning the effects of tributyltin (TBT), one of the endocrine disrupters on living organisms. Although TBT at high concentration induced apoptosis in PC12 cells, TBT at low concentration inhibited the DNA fragmentation in the cells cultured in serum-free medium or in medium containing 6-hydroxydopamine. The cell viability grown in both medium conditions increased after treatment with TBT. These findings suggest that TBT exerted a apoptosis-inducing and -inhibiting effect. These diverse effect of TBT on apoptosis would cause serious damages on cell differentiation.     

The effect of tributyltin on human eosinophylic leukemia EoL-1 cells

Organotin compounds are chemicals that are widely used in industry and agriculture as plastic stabilizers, catalysts and biocides. Many of them, including tributyltin (TBT), have been detected in human food and, as a consequence, detectable levels have been found in human blood. As organotin compounds were shown to possess immunotoxic activity, we focused our attention on the effect of TBT on the basic determinants of the function of eosinophils, i.e. cell adhesiveness and motility. We used human eosinophylic leukemia EoL-1 cells, a common in vitro cellular model of human eosinophils. Here, we demonstrate that TBT causes a dose-dependent decrease in the viability of EoL-1 cells. When administered at sub-lethal concentrations, TBT significantly decreases the adhesion of EoL-1 cells to human fibroblasts (HSFs) and inhibits their migration on fibroblast surfaces. Since the basic function of eosinophils is to invade inflamed tissues, our results indicate that TBT, and possibly other organotin compounds, may affect major cellular properties involved in the determination of in vivo eosinophil function. Paper authored by participants of the international conference: XXXIV Winter School of the Faculty of Biochemistry, Biophysics and Biotechnology of Jagiellonian University, Zakopane, March 7–11, 2007, “The Cell and Its Environment”. Publication costs were covered by the organisers of this meeting.     

Estrogens in calf embryos

A particular technique has been restated for the analysis of extradiol and extrones. Availing ourselves of such a technique, we have determined the presence of the steroid hormones, extradiol and extrones, in the calf embryos. The above studies are framed within the sphere of the researches made in our Institute, having the scope of determining the biological effects and the chemical composition of the calf embryos, which is utilized like a commercial product in some other Nations.     

Estrogens and the diabetic kidney

Background: Across all ages, the incidence and rate of progression of most nondiabetic renal diseases are markedly higher in men compared with age-matched women. These observations suggest that female sex may be renoprotective. In the setting of diabetes, however, this female protection against the development and progression of renal disease is diminished.Objective: This review aimed to summarize our current understanding of sex differences in the development and progression of diabetic renal disease, and of the contribution of sex hormones, particularly estrogens, to the pathophysiology of this disease. We also attempted to answer why female sex does not protect the diabetic kidney.Methods: Using terms such as gender, sex, diabetes, diabetic nephropathy, estrogens, and sex hormones, the PubMed database was searched for English-language articles; targeted searches were conducted using terms such as gender/sex differences in diabetic renal disease. No restrictions were imposed on publication dates.Results: Although the existing data regarding the sex differences in the incidence and progression of diabetic renal disease are inconclusive, the undisputed fact is that women with either type 1 or type 2 diabetes mellitus exhibit a much higher incidence of renal disease compared with nondiabetic women. It is conceivable that the loss of female sex as a renoprotective factor in diabetes may be related to the abnormal regulation of sex hormone concentrations. Both clinical and experimental data suggest that diabetes may be associated with an imbalance in estradiol concentrations. Supplementation with 17β-estradiol or administration of selective estrogen receptor modulators reduces the incidence of diabetes and attenuates the progression of diabetic renal disease.Conclusions: Serum concentrations of ovarian hormones may provide a new means for predicting future risk of renal complications in diabetes. Exogenous steroid hormones may be an effective treatment for attenuating the progression of diabetic nephropathy.     

Comparative genetics of sex determination: masculinizing mutations in Caenorhabditis briggsae

The nematodes Caenorhabditis elegans and C. briggsae independently evolved self-fertile hermaphroditism from gonochoristic ancestors. C. briggsae has variably divergent orthologs of nearly all genes in the C. elegans sex determination pathway. Their functional characterization has generally relied on reverse genetic approaches, such as RNA interference and cross-species transgene rescue and more recently on deletion mutations. We have taken an unbiased forward mutagenesis approach to isolating zygotic mutations that masculinize all tissues of C. briggsae hermaphrodites. The screens identified loss-of-function mutations in the C. briggsae orthologs of tra-1, tra-2, and tra-3. The somatic and germline phenotypes of these mutations are largely identical to those of their C. elegans homologs, including the poorly understood germline feminization of tra-1(lf) males. This overall conservation of Cb-tra phenotypes is in contrast to the fem genes, with which they directly interact and which are significantly divergent in germline function. In addition, we show that in both C. briggsae and C. elegans large C-terminal truncations of TRA-1 that retain the DNA-binding domain affect sex determination more strongly than somatic gonad development. Beyond these immediate results, this collection of mutations provides an essential foundation for further comparative genetic analysis of the Caenorhabditis sex determination pathway.     

Effect of the fungicides tributyltin acetate and tributyltin chloride on multilamellar liposomes: fluorescence studies.

The influence of tri-n-butyltin acetate (TBTA) and tri-n-butyltin chloride (TBTC) on the physico-chemical state of charged and neutral phospholipids was investigated using multilamellar liposomes. The thermal dependence of steady state fluorescence polarization of DPH and its charged derivative TMA-DPH was recorded. The two fungicides lowered DPPC phase transition temperature and broadened the temperature range of the transition in different ways. The effects were concentration-dependent. The results show that TBTC interacts more effectively with DPPC model membranes rather than TBTA. Moreover, TBTC broadens and shifts the main phase transition (Tm) more effectively in DPPC rather than in DMPC liposomes. Below Tm, TBTC decreases fluorescence polarization (P) in all phospholipids used. Above Tm P is almost constant in phospholipids with saturated acyl chains, except for DMPG. In fact, an increase of P is detectable in this lipid as in PLs with unsaturated acyl chains. It is suggested that the effects of TBT on liposomal membranes are dependent on the anion moiety and phospholipids characteristics.     

Estrogens in the tissues of guinea pig embryos]

The content of estrogens was determined in tissues of the guinea pig embryos, blood of pregnant females and placenta by means of biological testing. It was the highest in embryonic ovaries at all developmental stages. The sexual dimorphism in estrogen content was found in embryonic suprarenals: it was higher in females than in males. The estrogen content in blood of male embryos and pregnant females was similar but lower than that in female embryos. Estrogens were also found in placenta and their traces were detected in spleen, brain, hypothalamus and uterus. The problem of possible participation of estrogens in the sex differentiation of female embryos is discussed.     

Loss of rRNA genes during a phenotypic, masculinizing mutation in Allomyces arbuscla

Summary Saturation hybridization of ³H rRNA from Allomyces arbuscula Bali wild-type to homologous DNA and to DNA preparations from Allomyces arbuscula Bali X-ray induced male mutant and an interspecific male hybrid (Allomyces arbusculaxAllomyces macrogynus Emerson and Wilson) has shown approximately 50–60% reduction in the cistrons coding for rRNA in the masculinized strains.     

Somatic signals counteract reproductive aging in females

Recent research shows that declining oocyte quality with age is not inevitable in nematodes, and similar signals might regulate reproductive aging in women.     

Microbiological Aspects in the Hydroxylation of Estrogens by Fusarium moniliforme

A strain of Fusarium moniliforme (IH4), isolated from soil, showed outstanding enzymatic abilities to hydroxylate a number of estrogens. Estrone and estradiol were transformed into the 15alpha-hydroxy derivatives, and estradiol 3-methyl ether was transformed into the corresponding 6beta-hydroxy derivative. Delta(6)-Estrone was not hydroxylated. The accumulation of 15alpha-hydroxyestrone was influenced by the nutritional conditions of the fungus. Maximal yield was obtained when the organism grew in Czapek solution supplemented with yeast extract, although good conversion was also found in a peptone-corn molasses medium. Substitution of NO(3)-N in Czapek medium with NH(4)-N, lactalbumin hydrolysate, Casitone, or Casamino Acids resulted in limited hydroxylation of estrone. A remarkable strain specificity was demonstrated in this conversion. Of 13 strains of F. moniliforme and Gibberella fujikuroi under investigation, only 2 strains (IH4 and ATCC 9851) accumulated substantial amounts of the 15alpha-hydroxylated product. However, marked quantitative variations were observed which are attributable to a different ability of the organisms to degrade the steroid nucleus. Biochemical instabilities were also found through the appearance of spontaneous variants lacking steroid-hydroxylating activity. Replacement culture studies revealed that 15alpha-hydroxylation of estrone was dependent on the supply of external phosphate; exogenous nitrogen or energy sources were not required. Most of the enzymatic activity was confined to the mycelia. Microconidia showed a very limited hydroxylating activity, even in the presence of supplements or energy sources.