Linda Scarabelli

A potential novel mechanism involving connexin 43 gap junction for control of sertoli cell proliferation by thyroid hormones

There is strong evidence that thyroid hormones through triiodothyronine (T3) regulate Sertoli cell proliferation and differentiation in the neonatal testis. However, the mechanism(s) by which they are able to control Sertoli cell proliferation is unclear. In the present study in vivo approaches (PTU‐induced neonatal hypothyroidism known to affect Sertoli cell proliferation) associated with in vitro experiments on a Sertoli cell line were developed to investigate this question. We demonstrated that the inhibitory effect of T3 on Sertoli cell growth, analyzed by evaluating DNA‐incorporated [3H] thymidine, was associated with a time and dose‐dependent increase in the levels of Cx43, a constitutive protein of gap junctions, known to participate in the control of cell proliferation and the most predominant Cx in the testis. These Cx43 changes were associated with increased gap junction communication measured by gap FRAP. Consistent with these results two specific inhibitors of gap junction coupling, AGA and oleamide, were able to significantly reverse the T3 inhibitory effect on Sertoli cell proliferation. The present data also revealed a nongenomic effect of T3 on Cx43 Sertoli cells that was evidenced by a rapid up‐regulation of gap junction plaque number as identified in Cx43‐GFP transfected cells exposed to the hormone. This process appears mediated through actin cytoskeleton since incubation of the cells with cytochalasin D totally reversed the T3 stimulatory effect on Cx43‐GFP gap junction plaques. Based on these data, we propose a working hypothesis in which Cx43 could be an intermediate target for T3 inhibition of neonatal Sertoli cell proliferation. J. Cell. Physiol. 209: 153–161, 2006.

Changes in activity and mRNA levels of poly(ADP-ribose) polymerase during rat liver regeneration

ADP-ribosylation of nuclear proteins, catalysed by the enzyme poly(ADP-ribose) polymerase, is involved in the regulation of different cellular processes of DNA metabolism. To further clarify the role of the enzyme during proliferating activity of mammalian cells, we have studied the control of gene expression in regenerating rat liver. The changes in activity and mRNA levels were analysed during the early and late phases of the compensatory model. When enzyme activity was measured in isolated liver nuclei obtained at different times after hepatectomy, two different phases were observed: an early wave occurring before the onset of DNA synthesis, and a second one, starting several hours after the onset of DNA synthesis and returning to control values at later times. The evaluation of the enzymatic level in nuclear extracts and by activity gel analysis showed a more gradual increase starting 1 day after hepatectomy, in concomitance with the peak of DNA synthesis. By using a specific murine cDNA probe, a significant enhancement of mRNA levels for poly(ADP-ribose) polymerase was observed during liver regeneration, slightly preceding the onset of DNA synthesis. The results obtained show that changes in poly(ADP-ribose) polymerase activity, during liver regeneration, are associated both to early events preceding the increase in DNA synthesis and to later phases of the cell proliferation process.

Efects of growth hormone and cadmium on the transcription regulation of two metallothionein isoforms

The effect of growth hormone (GH) and cadmium (Cd) on metallothionein (MT) expression was investigated in hepatoma cells. In fish the constitutive isoform MT-B and the metal-responsive MT-A are expressed. Real-time RT-PCR revealed that: Cd up-regulates mostly MT-A, GH slightly induces MT-B and the GH/Cd combination induces synergistically both MTs. Perturbations in Ca2+ levels suppressed or reduced the Cd-induction of MTs and abolished the GH/Cd synergy. Similar results were obtained by inhibition of tyrosine kinases. Also the signaling molecules recruited by the GH receptor responded differently to GH and Cd, with ERKs showing a synergistic activation upon GH/Cd. The following conclusions can be drawn: (1) cytosolic Ca2+ is mainly involved in MT-A regulation; (2) both Ca2+ and tyrosine phosphorylation are essential for Cd-induction and GH/Cd synergy on MTs. The synergy could depend on interactions in different signaling pathways, leading to a differential recruitment of MTF-1 and AP-1 transcription factors.

The impact of long-term exposure to space environment on adult mammalian organisms: a study on mouse thyroid and testis.

Hormonal changes in humans during spaceflight have been demonstrated but the underlying mechanisms are still unknown. To clarify this point thyroid and testis/epididymis, both regulated by anterior pituitary gland, have been analyzed on long-term space-exposed male C57BL/10 mice, either wild type or pleiotrophin transgenic, overexpressing osteoblast stimulating factor-1. Glands were submitted to morphological and functional analysis. In thyroids, volumetric ratios between thyrocytes and colloid were measured. cAMP production in 10−7M and 10−8M thyrotropin-treated samples was studied. Thyrotropin receptor and caveolin-1 were quantitized by immunoblotting and localized by immunofluorescence. In space-exposed animals, both basal and thyrotropin-stimulated cAMP production were always higher. Also, the structure of thyroid follicles appeared more organized, while thyrotropin receptor and caveolin-1 were overexpressed. Unlike the control samples, in the space samples thyrotropin receptor and caveolin-1 were both observed at the intracellular junctions, suggesting their interaction in specific cell membrane microdomains. In testes, immunofluorescent reaction for 3β- steroid dehydrogenase was performed and the relative expressions of hormone receptors and interleukin-1β were quantified by RT-PCR. Epididymal sperm number was counted. In space-exposed animals, the presence of 3β and 17β steroid dehydrogenase was reduced. Also, the expression of androgen and follicle stimulating hormone receptors increased while lutenizing hormone receptor levels were not affected. The interleukin 1 β expression was upregulated. The tubular architecture was altered and the sperm cell number was significantly reduced in spaceflight mouse epididymis (approx. −90% vs. laboratory and ground controls), indicating that the space environment may lead to degenerative changes in seminiferous tubules. Space-induced changes of structure and function of thyroid and testis/epididymis could be responsible for variations of hormone levels in human during space missions. More research, hopefully a reflight of MDS, would be needed to establish whether the space environment acts directly on the peripheral glands or induces changes in the hypotalamus-pituitary-glandular axis.

Relationship between poly(ADP-ribose) polymerase activity and DNA synthesis in cultured hepatocytes

Previous studies have demonstrated that an increase in poly(ADP-ribose) polymerase activity could be closely related to DNA replication during liver regeneration and to DNA repair synthesis in different experimental systems. This relationship was further investigated by studying the time course of endogenous and total poly(ADP-ribose) polymerase activity in cultured rat hepatocytes stimulated by epidermal growth factor. This mitogen has been shown to stimulate DNA synthesis in liver cells both in vivo and in vitro. A 6-fold increase in endogenous activity was observed early after epidermal growth factor addition, just before DNA synthesis. A subsequent 4-fold increment in total enzyme activity, concomitant with DNA synthesis, was detected. Orotic acid, which has recently shown mitoinhibitory effect, abolished the epidermal-growth-factor-induced increase in endogenous and total poly(ADP-ribose) polymerase activity, as well as DNA synthesis. On the contrary, 3-aminobenzamide inhibitor of poly(ADP-ribose) polymerase completely suppressed the endogenous activity but only partially modified the increase in total catalytic level and the overall pattern of thymidine incorporation. Taken together, these data indicate that, in cultured hepatocytes, the induction of DNA synthesis is supported by an increased poly(ADP-ribose) polymerase activity.

Relationship between poly(ADP-ribose) polymerase activity and DNA damage induced by zinc dithiocarbamates in mouse and rat liver

The genotoxic effects due to in vivo treatment with zinc dithiocarbamates were evaluated in rat and mouse liver. The two pesticides Zineb and Ziram, belonging to this chemical class, induced an increase in single-strand DNA breaks, as measured by the alkaline elution technique. The nuclear enzyme poly(ADP-ribose) polymerase (pADPRP), a chromatin-bound catalytic protein, utilizing NAD+ as a substrate, was tested by a radiometric procedure. A close relationship between the increased extent of DNA damage and the enhanced level of endogenous pADPRP activity was obtained in rat liver, whereas both parameters remained unchanged in mouse liver.

Heavy metal and growth hormone pathways in metallothionein regulation in fish RTH-149 cell line.

Interference between heavy metals and growth hormone (GH) on cell signaling has been previously demonstrated in fish cells. This study was aimed at assessing their effects on expression of the metallothionein isoforms MT-A and MT-B. The results indicate that all heavy metals induce MT-A more markedly than MT-B, but differences appeared when metals were combined with GH. For MT-B induction, a positive interference between metals and GH was observed for Zn(2+)/GH and Cd(2+)/GH, a negative interference for Hg(2+)/GH. With regards to MT-A, no interference was observed for Zn(2+)/GH and Hg(2+)/GH, while a negative interference occurred with Cu(2+)/GH and a positive interference with Cd(2+)/GH. The possible mechanisms underlying the differential regulation of metallothioneins include different signaling pathways. The results show that STAT5 and ERKs responded differently to different combinations, and Zn(2+)/GH and Cd(2+)/GH exerted a slight positive interference on ERK activation. On the other hand, a synergic rise in [Ca(2+)](i) occurred for all combinations except for Cu(2+)/GH. Our data suggest that the cross-talk between heavy metals and GH resulting in MT transcription modulation does not strictly depend on Ca(2+) signalling; (ii)ERK activation may represent the point of cross-talk between Zn(2+) or Cd(2+) and GH, converging on MT-B transcription, probably through a differential recruitment of transcription factors.

Differential assay and biological significance of poly(ADP-ribose) polymerase activity in isolated liver nuclei.

Poly(ADP-ribosyl)ation of nuclear proteins is catalyzed by poly(ADP-ribose) polymerase. This enzyme is involved in the regulation of basic cellular functions of DNA metabolism. DNA breaks induced by DNA-damaging agents trigger the activation of poly(ADP-ribose) polymerase increasing its endogenous level. This increase modifies the pattern of poly(ADP-ribosyl)ated chromatin proteins. In this paper we describe a procedure for the isolation of intact nuclei from rat liver to be used for the endogenous activity assay. Artifactual activation of the enzyme was avoided since a very low level of DNA-strand breaks occurs during the isolation of nuclei. We present a series of experiments which prove the ability of this procedure to detect increases in endogenous liver activity without modification of the total level. The application of this technique can be useful for a better understanding of the role of early changes in poly(ADP-ribose) polymerase level in physiological conditions and during exposure to DNA-damaging agents.

Protection of Nuclear Enzymes by Aminothiols

The maintenance of an intact DNA repair capacity is a necessary requirement for cell physiology and for survival. On the other hand, long-lasting DNA lesions, induced by physical or chemical agents, represent the first step in aging (1), mutagenesis (2,3) or in the multistage carcinogenic process (4-6). Impaired DNA repair synthesis has been shown to be responsible for increased neoplastic development in human subjects affected by repairdeficient syndromes such as: Xeroderma pigmentosum, Ataxia telangiectasia, Bloom’s syndrome, Fanconi’s anemia (7,8).

Antigenotoxic and Anticarcinogenic Effects of Thiols. In Vitro Inhibition of the Mutagenicity of Drug Nitrosation Products and Protection of Rat Liver ADP-Ribosyl Transferase Activity

Reduced glutathione (GSH) is well-known to play a fundamental role in the protection of the organism against toxic, mutagenic and/or carcinogenic agents (see e.g. refs. 1–3 for reviews). Among synthetic aminothiols, acting as analogs and precursors of GSH, N-acetyl-L-cysteine (NAC) is of particular interest, because this molecule is already extensively used in the treatment of chronic respiratory diseases, and is extremely well tolerated in humans4. In addition, NAC is known to possess various antitoxic and antioxidant properties3–5.