"Tissue" transglutaminase in animal development.

The "tissue" transglutaminase is a multifunctional enzyme that in its cross-linking configuration catalyzes Ca2+ -dependent reactions resulting in post-translational modification of proteins by establishing epsilon(gamma-glutamyl) lysine cross-links and/or covalent incorporation of biogenic amines (di- and poly-amines and histamine) into proteins. Several laboratories have shown that in Vertebrates, "tissue" transglutaminase (tTG) gene expression specifically characterizes cells undergoing apoptosis or programmed cell death (PCD). The Ca2+ -dependent activation of this enzyme leads to the formation of detergent-insoluble cross-linked protein polymers in cells undergoing PCD. This insoluble protein scaffold could stabilize the integrity of the dying cells before their clearance by phagocytosis, preventing the non-specific release of harmful intracellular components (e.g. lysosomal enzymes, nucleic acids, etc.) and consequently inflammatory responses and scar formation in bystander tissues. In this review we attempt to present an overview of the current knowledge on tTG expression and regulation in animal reproduction and development. The data available so far further strengthen the relationship existing between tTG expression and the induction of PCD.

Evaluation of the efficacy of potential antineoplastic drugs on tumour metastasis by a computer-assisted image analysis.

Computerised image analysis, performed on histological sections of (C57BL6/N) mouse lungs that had been intravenously (i.v.) injected with B16-F10 melanoma cells was used to develop a novel method to quantify the efficacy of potential antineoplastic drugs. This procedure allowed the evaluation of the rate of inhibition of growth and the anti-invasive capability of new molecules, thus resulting in more accurate data than that obtained from common macroscopical counting of surface metastatic foci. Several morphological parameters can be measured by this method: the percentage of tissue area occupied by metastases, which accounts for tumour implantation into the organ; the growth index, related to the size of the metastases, and the invasion index, related to the frequency of foci. These morphometric data were found to be correlated to the levels of lung hydroxyproline and transglutaminase activity, well known markers of tumour invasion and cell differentiation, respectively. The main objective of this computerised procedure was to evaluate how the tumour cell is affected in the host by the drug under investigation. The use of the method is exemplified by an analysis of the antitumour activity of some methylxanthines.

'Tissue' transglutaminase release from apoptotic cells into extracellular matrix during human liver fibrogenesis.

Enhanced apoptosis characterizes several pathologies affecting human liver. This study sought to determine whether apoptosis is involved in the formation of fibrotic lesions occurring in hepatic disease. The expression of Bcl-2 was analysed, and of 'tissue' transglutaminase (tTG), a cross-linking enzyme which recent evidence suggests plays a role in the formation of fibrotic lesions in experimental settings. Regardless of the degree of liver injury, tTG abnormally accumulated in the liver cells adjacent to fibrotic tissue. Many cells showing DNA fragmentation and morphological features of apoptosis were also observed near fibrotic lesions. Bcl-2 was detected predominantly in infiltrating lymphocytes within the liver tissue. Marked staining for both tTG protein and chromatin was also observed in the acellular fibrotic tissue, which suggested an active release of intracellular macromolecules from the dying cells into the extracellular matrix. This study indicates that fibrogenesis in the liver is associated with the release of tTG from dying cells. By cross-linking extracellular matrix proteins, this enzyme might play a role in the formation of fibrotic lesions.

Hormonal control of "tissue" transglutaminase induction during programmed cell death in frog liver.

In this study, we show that sex hormones (testosterone, estradiol, and progesterone) act as physiological modulators of programmed cell death (PCD) during the frog liver involution observed postvitellogenesis. PCD in parenchymal cells is paralleled by the specific induction of the "tissue" transglutaminase (tTG) gene. tTG protein specifically accumulates in hepatocytes showing the morphological features of apoptosis. The hormone-dependent increase of both PCD and tTG was reproduced in ovariectomized frogs. Treatment of castrated animals with testosterone, estradiol, and progesterone inhibited the induction of both tTG and PCD, thus indicating that in vivo the drop in the circulating sex hormone is the signal favoring the involution phase of the maternal frog liver after mating. Although an affinity-purified polyclonal antibody raised against mammalian transglutaminase reacts in frog liver with a 55- to 60-kDa protein, concomitant with the onset of PCD, tTG cleavage products were detected, suggesting a proteolytic processing of the enzyme protein. These results represent the first evidence indicating that the physiological involution occurring postvitellogenesis of frog liver takes place by programmed cell death and that this, together with the concomitant induction of tTG gene expression, is regulated by sex hormones.

"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.

Immunohistochemical localization of tissue transglutaminase and Bcl-2 in rat uterine tissues during embryo implantation and post-partum involution.

Rat pregnancy is characterized by a progressive continuous induction of apoptosis in the maternal tissues lining the conceptus. Different cell types (decidual cells, giant cells, epithelial cells, etc.) undergo apoptosis at the different stages of development. We demonstrated here that, independently from their origin and stage of pregnancy, the dying cells were invariably characterized by the presence of 'tissue' transglutaminase (tTG) and negligible amounts of Bcl-2 proteins. This finding confirms the antithetic roles played by these two gene products within the apoptotic pathway. It is noteworthy that Bcl-2 was detected in decidual cells just after the implant; however, starting from day 9, its positive detection was reduced in the maternal tissues and appeared in the embryonal ones. The apoptotic nature of death was also suggested by the presence of a high phagocytic activity in the maternal involuting regions and by morphological observations showing that the tTG positive cell remnants displayed typical phenotypic features of apoptosis. The possibility that the cells lining the conceptus that die by apoptosis could be envisaged as an inert barrier between the maternal and fetal tissues is discussed.

Galactose-specific receptor modulation related to the onset of apoptosis in rat liver.

The expression of the asialoglycoprotein receptor of hepatocytes and the galactose-specific receptors of non-parenchymal liver cells during the onset of apoptosis in liver of rats treated with lead nitrate was studied. During the involution of lead nitrate-induced hyperplasia in rat liver (occurring at 5 days after the injection) a significant increase of asialoglycoprotein receptor (ASGP-R) expression on hepatocytes coincided with the massive death by apoptosis of the same cells. The increase in the receptor expression was sustained by a large increase in the level of its specific mRNA. As a consequence of lead nitrate injection, we also detected a drastic change of the galactose-specific receptor expression and distribution on the surface of rat liver sinusoidal cells. However, the modulation of the receptor expression on the Kupffer cells did not parallel that observed for the ASGP-R: the peak of surface expression measured on hepatocytes always followed the one observed on Kupffer cells. Our data show a first evidence of a receptor modulation during the process of apoptosis. In fact, the entire carbohydrate recognition system of the liver is modulated during the onset of apoptosis induced by lead nitrate injection, but the pattern of modulation depends on the cellular types. We suggest that a physiological role for the hepatic carbohydrate recognition systems is related to the apoptosis of liver.

The simultaneous exposition of galactose and mannose-specific receptors on rat liver macrophages is developmentally regulated.

We studied the simultaneous binding of galactose and mannose-exposing ligands in sinusoidal rat liver cells during development and aging. The galactose-specific receptors were visualized using 17 nm diameter colloidal gold particles coupled with Lactosylated bovine serum albumine (LacBSA), while mannose-specific receptors were localized by means of 5 nm diameter particles adsorbed with mannan. We observed the presence of four different classes of Kupffer cells in relation to the ligands bound. The percentage of each group of Kupffer cells varied in relation to the age of the subject from which the sample was taken. There were few double-labelled cells in the livers from newborn rats, with numbers increasing with age to adulthood, and decreasing again in the older animals. Cells without labelling were in the majority after birth, but they decreased in number up to adulthood and increased again during subsequent aging. The numbers of single-labelled cells did not change significantly during liver maturation. We hypothesize that the exposition of galactose and mannose-specific receptorial systems is regulated by developmental conditions.

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 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.

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.

Degradation of cells dying by apoptosis leads to accumulation of epsilon(gamma-glutamyl)lysine isodipeptide in culture fluid and blood.

epsilon(gamma-Glutamyl)lysine isodipeptide, the end-product of proteolytic digestion of proteins cross-linked by transglutaminase, was detected in culture fluid of neonatal rat hepatocytes and plasma of adult rats. The concentration of the isodipeptide was significantly increased in both when high rate of apoptosis with phagocytosis of dying hepatocytes was produced either by epidermal growth factor in the culture or by lead nitrate-induced hyperplasia with subsequent involution in rats. Specific induction of tissue transglutaminase and the consequent formation of highly cross-linked protein envelopes in apoptotic cells have been previously demonstrated by us in both systems.

"Tissue" transglutaminase is specifically expressed in neonatal rat liver cells undergoing apoptosis upon epidermal growth factor-stimulation.

We recently reported that activation of "tissue" transglutaminase (EC 2.3.2.13; tTG) in liver cells undergoing apoptosis determines extensive cross-linking of cellular proteins resulting in the formation of SDS-insoluble shells in the so-called "apoptotic bodies". In attempt to obtain further insight into the role played by tTG in apoptosis of liver cells, we investigated its expression in primary cultures of neonatal rat liver cells stimulated with epidermal growth factor (EGF). EGF-treatment of neonatal rat liver cells induces first hyperplasia of hepatocytes, followed by involution characterized by a high incidence of apoptosis. The proliferative phase of hepatocytes is paralleled by a 10-fold increase in tTG mRNA level, which is followed, during the phase of involution, by sequential increases in enzyme activity and levels of SDS-insoluble apoptotic bodies. tTG immunostaining at both the light- and electron-microscopic levels shows that the most intensive reaction is present in globular structures showing the typical morphological appearance of mature apoptotic bodies. In early apoptotic stages, tTG protein is localized in the perinuclear region of the cell. Intense immunostaining is also found in the apoptotic bodies present inside phagosomes within the cytoplasm of neighboring cells. This evidence confirms and extends our previous findings, indicating that tTG induction and activation specifically takes place in cells undergoing apoptosis, suggesting a key role for the enzyme in the apoptotic program.

Ca2(+)-dependence of arachidonic acid redistribution among phospholipids of cultured mouse keratinocytes.

Mouse keratinocytes cultured in a medium containing less than 0.1 mM Ca2+ (low Ca2+) incorporated [1-14C]arachidonic acid (AA) into phospholipids by kinetics including; (i) a rapid labelling of phosphatidylinositol (PtdIns), phosphatidylserine (PtdSer) and both acid-stable and alkenylacyl forms of phosphatidylcholine (PtdCho); and (ii) a slow but long-lasting radiolabel incorporation into both acid-stable and alkenylacyl forms of phosphatidylethanolamine (PtdEtn), partly associated with a net radioactivity loss from acid stable-PtdCho. Under low Ca2+ conditions no radioactivity transfer apparently occurred between PtdIns and other phospholipid classes. When cells were prelabelled for 24 h with [1-14C]AA and reincubated in label-free medium containing 1.2 mM Ca2+ (normal Ca2+), an early and extensive loss of radioactivity from PtdIns was observed, reasonably in connection with Ca2+ stimulation of phosphoinositide turnover. Cell shift to normal Ca2+ did not result in an increased synthesis of labelled eicosanoids, but was consistent with an increase of radioactivity incorporation into diacylglycerol (DAG) and with a complex pattern of [1-14C]AA redistribution, eventually leading to a marked radioactivity incorporation into acid stable-PtdEtn (but not into alkenylacyl-PtdEtn) and to a labelling decrease of acid stable-PtdCho. The possible mechanisms driving AA recycling after cell shift to normal Ca2+ are discussed.

Polyamine-dependent post-translational modification of proteins in differentiating mouse epidermal cells.

In order to get a better understanding of the role played by polyamines in calcium-induced epidermal cell differentiation, the time course of their metabolism was investigated. Results demonstrate that differentiating epidermal cells are characterized by time-dependent changes in polyamine concentrations. An early polyamine catabolic phase, characterized by increased total putrescine concentration and drastic reduction of both spermidine and spermine levels, is followed by active spermidine biosynthesis. The differences in putrescine and, in particular, spermidine metabolism are reflected in a time-dependent modulation of protein-bound polyamine derivatives. In fact, upon addition of calcium to the culture medium, hypusine N epsilon-(4-amino-2-hydroxybutyllysine) is rapidly reduced to undetectable levels. The very low hypusine level is paralleled by an increase in gamma-glutamyl putrescine derivatives and followed by a large increase in gamma-glutamyl spermidine derivatives; in addition, there is a remarkable concomitant biosynthesis of transglutaminase-catalyzed mono and bis gamma-glutamyl spermidine derivatives and epsilon(gamma-glutamyl)lysine cross-links. The effect of TPA and RA on hypusine formation is also reported.

Apoptotic hepatocytes become insoluble in detergents and chaotropic agents as a result of transglutaminase action.

Physiological deletion of cells ensues programmed death which involves formation of apoptotic bodies with fragmented DNA. Here we report that apoptotic hepatocytes are insoluble in detergents, urea, guanidine hydrochloride, reducing agents and thereby can be isolated from rat liver following collagenase treatment. They are wrinkled, spherical structures similar to cornified envelopes of epidermis by phase-contrast microscopy and show irregular, globular morphology by scanning-electron microscopy. Part of their DNA content is cleaved into nucleosomal and oligonucleosomal fragments. Their insolubility, like that of the cornified envelope, is evoked by epsilon-(gamma-glutamyl)lysine and N1,N8-bis(gamma-glutamyl)spermidine protein cross-linking bonds formed by transglutaminase.

Proline-incorporating cells in chronic active liver diseases.

The incorporation of 3H-proline in cells of liver biopsy specimens from patients with chronic active liver diseases has been studied by light and electron microscopic autoradiography. The labeled proline is incorporated by hepatocytes of the external rows of the residual liver lobule, by the cells of the proliferating bile ductule and very actively by the plasma cells localized at the boundary between the inflammatory infiltrate and the liver lobule. These plasma cells, which are often in close contact with the hepatocytes at the edge of the liver lobule, appear to be either negative or positive after the immunohistochemical tests for the k and lambda chains of immunoglobulins. Results are discussed in relation to both the synthesis of collagen and the role of the immunocompetent cells during the process of the piecemeal necrosis.

Covalent incorporation of polyamines as gamma-glutamyl derivatives into CHO cell protein.

The possible role of polyamines in the covalent modification of proteins in CHO cells was investigated by metabolic labeling with [3H]putrescine. A single radiolabeled protein band with an apparent relative molecular mass of 18,000 Da was observed by SDS-polyacrylamide gel electrophoresis. Almost all the radioactivity covalently linked to this protein was recovered as hypusine. The labeling of this protein was increased several-fold when cells were cultured with alpha-difluoromethylornithine (DFMO) or with this drug plus methylglyoxal bis(guanylhydrazone) (MGBG), as a result of increase in specific radioactivity of the hypusine immediate precursor, spermidine. Also labeled under the latter condition were other cellular proteins. These were aggregates on the top both of the stacking gel and of the running gel, and protein-like materials with relative molecular masses of 36 and 8 kDa. The radioactivity covalently associated with these proteins was recovered after acid hydrolysis as polyamines. The identification of gamma-glutamylputrescine and gamma-glutamylspermidines in proteolytic digests of the acid-insoluble fraction of treated cells indicates that polyamines are covalently linked to these cellular protein. Several possible cellular functions of gamma-glutamylpolyamine protein components are discussed.