Transglutaminase Type 2 is Involved in the Hematopoietic Stem Cells Homeostasis

Type 2 transglutaminase (TG2) is a multifunctional protein involved in various biological processes playing a key regulatory role in cell homeostasis such as cell death and autophagy. New evidence is emerging that support an important role of autophagy in regulating normal hematopoiesis. Prompted by these findings, in this study we investigated in vivo involvement of TG2 in mouse hematopoiesis under normal or nutrient deprivation conditions. We found that the number and rate of differentiation of bone marrow hematopoietic stem cell was decreased in the TG2 knockout mice. We present evidence showing that these effects on hematopoietic system are very likely due to the TG2-dependent impairment of autophagy. In fact, stimulation of autophagy by starvation is able to rescue the block of the differentiation of stem cells progenitors in the TG2 KO mice. It was also shown that the RhoA/ERK½ pathway, known to be essential for regulation of the bone marrow progenitor cells homeostasis, was significantly impaired in the absence of TG2. Hence, this study expanded our knowledge about TG2 discovering a role of this enzyme in regulation of hematopoiesis.

Study of Women who DID not Respond to Screening for Cervical Cancer

Demographic and social factors influencing the population response to cervical screening programs have been studied. Age, marital status and, to a lesser extent, place of birth and socio-economic status were the most relevant factors. On the other hand, the reasons for nonparticipation were mainly the lack of information and motivation. Personal invitations, the recall of women who did not present on the first call, and the setting up of decentralized smear collection clinics proved to be useful tools to increase attendance.

'Tissue' transglutaminase ablation reduces neuronal death and prolongs survival in a mouse model of Huntington's disease

By crossing Huntington's disease (HD) R6/1 transgenic mice with 'tissue' transglutaminase (TG2) knock-out mice, we have demonstrated that this multifunctional enzyme plays an important role in the neuronal death characterising this disorder in vivo. In fact, a large reduction in cell death is observed in R6/1, TG2(-/-) compared with R6/1 transgenic mice. In addition, we have shown that the formation of neuronal intranuclear inclusions (NII) is potentiated in absence of the 'tissue' transglutaminase. These phenomena are paralleled by a significant improvement both in motor performances and survival of R6/1, TG2(-/-) versus R6/1 mice. Taken together these findings suggest an important role for tissue transglutaminase in the regulation of neuronal cell death occurring in Huntington's disease.

The clearance of apoptotic cells in the liver is mediated by the asialoglycoprotein receptor

Apoptosing cells are actively phagocytosed in parenchymal tissues, thus preventing the inflammatory reaction which could derive from their slow uncontrolled degradation. The molecular mechanisms by which an apoptotic cell is recognized and taken up are largely unknown. We propose that the recognition of apoptotic hepatocytes is mediated by the sugar recognition systems of the liver, particularly the asialoglycoprotein receptor (ASGP-R). The results presented here demonstrated the participation of ASGP-R in the removal of apoptotic parenchymal cells, and indicate a new perspective for the understanding of its physiological role.

Early alterations in gene expression and cell morphology in a mouse model of Huntington's disease

Several mouse models for Huntington's disease (HD) have been produced to date. Based on differences in strain, promoter, construct, and number of glutamines, these models have provided a broad spectrum of neurological symptoms, ranging from simple increases in aggressiveness with no signs of neuropathology, to tremors and seizures in absence of degeneration, to neurological symptoms in the presence of gliosis and TUNEL (terminal deoxynucleotidyl transferase-mediated dUTP nick end-labeling) positivity, and finally to selective striatal damage associated with electrophysiological and behavioral abnormalities. We decided to analyze the morphology of striatum and hippocampus from a mouse transgenic line obtained by microinjection of exon 1 from the HD gene after introduction of a very high number of CAG repeat units. We found a massive darkening and compacting of striatal and hippocampal neurons in affected mice, associated with a lower degree of more classical apoptotic cell condensation. We then explored whether this morphology could be explained with alterations in gene expression by hybridizing normal and affected total brain RNA to a panel of 588 known mouse cDNAs. We show that some genes are significantly and consistently up-regulated and that others are down-regulated in the affected brains. Here we discuss the possible significance of these alterations in neuronal morphology and gene expression.

Inhibition of "tissue" transglutaminase increases cell survival by preventing apoptosis

Treatment of the human promonocytic cell line U937 with all-trans-retinoic acid (RA) commits these cells to apoptosis, which can be triggered by simply increasing intracellular calcium levels by the ionophore A23187. RA treatment of U937 cells is characterized by a decrease in Bcl-2 and marked induction of "tissue" transglutaminase (tTG) gene expression. In this study, we show that the inhibition of tTG expression in U937 cells undergoing apoptosis prevents their death. In fact, U937 cell-derived clones transfected with the human tTG gene in the antisense orientation showed a pronounced decrease in apoptosis induced by several stimuli. These findings demonstrate that the Ca(2+)-dependent irreversible cross-linking of intracellular proteins catalyzed by tTG represents an important biochemical event in the gene-regulated cell death in monoblasts. In addition, our data indicate that the apoptotic program in promonocytic cells is strictly regulated by RA and that a key role is played by the free intracellular calcium concentration.

Calpain involvement in calphostin C-induced apoptosis

A major problem in assessing the role of calpains in apoptosis induction concerns the fact that calpain inhibitors can also impair the activity of the proteasome, also reported to be involved in apoptosis. Herein we showed that apoptosis induced by calphostin C in U937 human promonocytic leukemia cells was associated, at its onset, with enhanced protein (poly)ubiquitination. This observation prompted us to study whether protein degradation through the ubiquitin/proteasome pathway was involved in apoptosis induction. We found that N-acetyl-Leu-Leu-norleucinal (50 microM), a proteasome as well as a calpain inhibitor, was able to reduce calphostin C-induced apoptosis by approximately 60%, whereas lactacystin (10 microM), a specific proteasome inhibitor, was ineffective. These results suggest that calphostin C-induced apoptosis is partly calpain-mediated, but does not require protein degradation through the ubiquitin/proteasome pathway.

"Tissue" transglutaminase and apoptosis

In this paper we discuss the role of "tissue" transglutaminase (tTG) in apoptosis. This enzyme by catalizing the Ca(2+)-dependent cross-linking of intracellular proteins leads to the formation of the SDS-insoluble protein scaffold in cells undergoing programmed cell death. These intracellular structures confer resistance to mechanical and chemical attack to the polipeptides involved in the linkages. tTG is induced during apoptosis, in fact, tTG mRNA is transcripted as a consequence of apoptosis induction. Overexpression of tTG in many cell lines enhances their susceptibility to apoptosis, indicating a pivotal role for tTG in this process. In keeping with these findings transfection of the human tTG complementary DNA in antisense orientation leads in a pronounced decrease of both spontaneous as well as induced apoptosis. Interestingly, the identification of the tTG substrate proteins in cells undergoing apoptosis has evidenced that many of the tTG proteins are also substrates of caspases.

Tissue transglutaminase-dependent posttranslational modification of the retinoblastoma gene product in promonocytic cells undergoing apoptosis

The retinoblastoma gene product (pRB) plays an important role in controlling both cell release from the G1 phase and apoptosis. We show here that in the early phases of apoptosis, pRB is posttranslationally modified by a tissue transglutaminase (tTG)-catalyzed reaction. In fact, by employing a novel haptenized lysis synthetic substrate which allows the isolation of glutaminyl-tTG substrates in vivo, we identified pRB as a potential tTG substrate in U937 cells undergoing apoptosis. In keeping with this finding, we showed that apoptosis of U937 cells is characterized by the rapid disappearance of the 105,000- to 110,000-molecular-weight pRB forms concomitantly with the appearance of a smear of immunoreactive products with a molecular weight of greater than 250,000. The shift in pRB molecular weight was reproduced by adding exogenous purified tTG to extracts obtained from viable U937 cells and was prevented by dansylcadaverine, a potent enzyme inhibitor. The effect of the pRB posttranslational modification during apoptosis was investigated by determining the E2F-1 levels and by isolating and characterizing pRB-null clones from U937 cells. Notably, the lack of pRB in these U937-derived clones renders these p53-null cells highly resistant to apoptosis induced by serum withdrawal, calphostin C, and ceramide. Taken together, these data suggest that tTG, acting on the pRB protein, might play an important role in the cell progression through the death program.

Differential growth of N- and S-type human neuroblastoma cells xenografted into scid mice. correlation with apoptosis

This study concerns the role of apoptosis in the growth of human neuroblastomas transplanted into immunodeficient SCID mice. Human neuroblastoma cell lines may consist of one or more distinct phenotypes including the neural 'N-type' and flat substrate-adherent 'S-type'. A differential phenotype-specific proliferation was apparent among S- and N-type cell clones transplanted into SCID mice when compared with the wild-type SK-N-BE(2) cell line. This differential growth capacity of the tumours was correlated with spontaneous apoptosis. Another SK-N-BE(2)-derived cell line (TGA), displaying high levels of apoptosis upon stable transfection with the full length 'tissue' transglutaminase (tTG) cDNA, was unable to induce tumour development when xenografted into SCID mice. To support these observations, the expression of apoptosis-related genes (i.e., bcl-2, p53, and tTG) in the various neuroblastomas was also investigated.

Induction of apoptosis in thymocytes by prostaglandin E2 in vivo

In vivo administration in mice of a synthetic analog of prostaglandin E2 (PGE2) caused a selective and dramatic decrease of CD4+CD8+ double-positive, CD3/T-cell-receptor-alpha beta(lo) cells in the thymus. This loss was corticosteroid-independent and not affected by Cyclosporin A. The disappearance of CD4+CD8+ thymocytes was strictly correlated with the induction of apoptosis inside the thymus as shown by morphological studies and by the induction of intracellular transglutaminase expression. Considering that PGE2 has been found to be produced by different cell populations inside the thymus, these results indicate that PGE2 may act as endogenous signals for apoptosis during T-cell differentiation.

HIV-1 gp120-dependent induction of apoptosis in antigen-specific human T cell clones is characterized by 'tissue' transglutaminase expression and prevented by cyclosporin A

We investigated the effect of cyclosporin (CsA) on HIV-gp120-dependent induction of cell death by apoptosis of human T cell clones specific for influenza virus haemagglutinin and restricted by HLA-DR1. Preincubation of the clones with gp120 induced a large inhibition of their proliferation which was paralleled by the induction of apoptosis. Exposure to the specific antigen alone was able to trigger apoptosis in a significant fraction of cells, this effect was potentiated by pretreatment with gp120. Apoptosis was characterized by the typical morphological changes and by the expression of 'tissue' Transglutaminase (tTG), one of the few characterized effector elements of programmed cell death. Interestingly, the tTG protein induction was detectable within the first 24 hours following the gp120 treatment and preceded the appearance of the typical apoptotic phenotype. Noteworthy, CsA treatment prevented the gp120-dependent induction of apoptosis by blocking the activation of the Ca(2+)-dependent effector elements such as tTG.

Correlation between induction of lymphocyte apoptosis and prostaglandin E2 production by macrophages infected with HIV

Several data indicate that HIV infection of antigen-presenting cells (APCs) and apoptosis of lymphocytes play important roles in pathogenesis of AIDS. We have recently demonstrated that prostaglandin E2 (PGE2) can cause thymocyte apoptosis in vivo. In the present study we have investigated the possibility that the intercellular contacts between HIV-infected APCs and lymphocytes could induce apoptosis in the latter population and that PGE2-production by HIV-infected APCs could be involved in the hypothesized phenomenon. Monocytes/macrophages separated from peripheral blood mononuclear cells (PBM phi) of healthy donors were infected in vitro and maintained in culture. PGE2 was promptly produced by HIV-infected PBM phi and values of PGE2 concentrations in supernatants over the background noninfected controls persisted for more than 2 weeks. HIV-infected PBM phi or cell-free supernatants from their cultures were then added to autologous uninfected lymphocytes and apoptosis was assessed by morphological criteria and by looking to the expression of tissue transglutaminase, one of the effector elements of the program of cell death. In both culture conditions the percentage of apoptotic lymphocytes was significantly increased in respect to values obtained in control cultures. When a cyclooxygenase inhibitor was added to the HIV-infected PBM phi cultures, the percentage of apoptotic lymphocytes was reduced at levels similar to those observed after cocultivation with uninfected PBM phi or exposure to supernatants from uninfected PBM phi. In addition, a substantial increase in apoptosis in lymphocytes from healthy donors was found following PGE2 treatment in vitro.

Phenotype-specific "tissue" transglutaminase regulation in human neuroblastoma cells in response to retinoic acid: correlation with cell death by apoptosis

Neuroblastomas in culture are characterized by the presence of 2 morphologically and biochemically distinct phenotypes (i.e., neural "N-type" and flat substrate-adherent "S-type") which undergo transdifferentiation. Human neuroblastoma SK-N-BE(2) cells differentiate toward a neural phenotype upon retinoic acid (RA) treatment. However, we recently showed that, during the RA treatment, a subset of SK-N-BE(2) cells undergo apoptosis; these cells specifically express a high "tissue" transglutaminase (tTG) level. This study was undertaken to investigate the cellular and molecular basis of the action of retinoic acid on apoptosis in human neuroblastoma cells. As a biochemical marker of the phenomenon we studied the tTG gene expression in the parental line SK-N-BE(2) and in 2 clones which stably express neuroblastic [BE(2)-M17] and substrate-adherent [BE(2)-C] features, respectively. Data showed a differential phenotype-specific regulation of tTG gene expression. In fact, RA treatment enhanced tTG expression and apoptotic index in the flat substrate-adherent variant, whereas, in cells expressing the neural phenotype, very low tTG expression and apoptosis were found. Northern-blotting analysis revealed that the substrate-adherent cells had a basal 3-fold higher level of tTG mRNA. An increase in tTG mRNA major transcript levels (3.7 kb) occurred within a few hours of exposure to RA in both the phenotypic variants. By contrast, tTG protein level was very low in the cell expressing the neuronal phenotype, even after prolonged exposure to RA. Immunohistochemical analysis indicated that tTG protein, in addition to mature apoptotic cells, was specifically localized in the flat substrate-adherent variant both in the wild-type and in the BE(2)-C clone. These findings suggest that the ability to undergo apoptosis in the neuroblastoma cells is associated with the expression of a non-neuronal neuroectodermal (substrate-adherent cells) immature phenotype.

Cycloheximide can rescue heat-shocked L cells from death by blocking stress-induced apoptosis

Cultured mouse L cells undergo apoptosis upon 1 h heat shock at 43 and 45 degrees C. Morphologically characteristic apoptotic cells begin to appear soon after the shock. Immunohistochemistry with anti-transglutaminase antibody shows that in most treated cells the enzyme is induced. Its activation results in the formation of highly cross-linked detergent-resistant apoptotic bodies during recovery. Cycloheximide added during hyperthermic stress inhibits the appearance of apoptotic bodies, showing that heat-shock-induced apoptosis is dependent on protein neosynthesis. The analysis of colony-forming ability of heat-shocked L cells shows a survival of 5% at 43 degrees C and less than 0.02% at 45 degrees C. When protein synthesis is inhibited during heat shock the fraction of surviving cells increases to 23% at 43 degrees C and 0.9% at 45 degrees C. This suggest that part of the cells that die upon heat shock are not heavily damaged and would have survived in the presence of a block in protein synthesis.

Induction of two different modes of cell death, apoptosis and necrosis, in rat liver after a single dose of thioacetamide

A sequential study of the appearance of liver cell death after thioacetamide (TH) administration was performed in male Wistar rats. Within 3 hours of a single dose of TH, occurrence of cell death by apoptosis was evident around the centrilobular area. Light as well as electron microscopic examination demonstrated the presence of eosinophilic globules, often containing nuclear remnants (apoptotic bodies); they frequently were found within the cytoplasm of intact hepatocytes. The number of apoptotic bodies (ABs) was further enhanced at 6 hours, resulting in a 70-fold increase over the control values. Although necrosis or inflammation could not be observed at this time, as monitored by microscopic analysis as well as by determination of serum glutamate pyruvate transaminase levels, centrilobular necrosis accompanied by massive inflammatory reaction was evident at 12 hours and even more pronounced at 24 to 36 hours. Evidence of liver regeneration was found to occur at 48 hours, and the liver regained its normal architecture between 72 and 96 hours. Studies performed to analyze the activity of 'tissue' transglutaminase (tTG), a presumptive marker of apoptosis, showed that, 1 hour after treatment, TH caused a drastic dose-dependent inhibition of the enzyme activity. This early inhibition was followed by a rapid recovery in tTG activity that paralleled the induction of apoptosis in the liver. Treatment with cycloheximide (CH) 2 hours after TH partially inhibited the incidence of ABs at 6 hours (approximately 30% inhibition). The present study indicates that two different modes of cell death, apoptosis and necrosis, may be induced in a sequential fashion by a single dose of TH.