Significance of nuclear phospholipase C signaling through type 1 IGF receptor.

The existence of a nuclear polyphosphoinositol metabolism independent from that at the plasma membrane is now widely recognized. Specific changes in the nuclear phosphatidylinositol (Ptdlns) metabolism have been implicated in cell growth, differentiation, and neoplastic transformation. Here we shall review the main features of nuclear inositol lipid signaling through type I IGF receptor, focusing the attention on the role of inositide-specific phospholipase C (PI-PLC) beta1 in cell proliferation and differentiation, given its peculiar localization in the nuclear compartment.

Chromatin fibers organization within the nucleus.

In order to evaluate at the ultrastructural level the three dimensional arrangement of the dispersed chromatin during the intephase, the immunogold detection of Bromodeoxyuridine (BrdU), of the DNA polymerase alpha and of the proliferating cell nuclear antigen (PCNA) was performed on human HL60 leukemia cells and nuclear matrices extracted from the same cellular model. The Field Emission In lens Scanning Electron Microscopy analysis of the ultrathin cryosectioned cells revealed the presence of a chromatin three dimensional network where the different constituents appeared repetitively assembled. Also the nuclear matrix showed a repetitive structure, on which the deprivation of the DNA corresponded to the selective loss of particular class sized fibers. The single or multiple combined immunolocalization of different structures involved in the DNA replication, where BrdU, DNA polymerase alpha and PCNA represent, respectively, the substratum, the polymerizing enzyme and a regulator of the reaction, allowed the understanding of its reciprocal spatial relationship on the dispersed interphasic chromatin and the role of the nuclear matrix in the replicative process.

Scanning electron microscopic detection of nuclear structures involved in DNA replication.

In order to evaluate at the ultrastructural level the three dimensional chromatin arrangement during interphase and particularly during the S phase, the immunogold detection of Bromodeoxyuridine (BrdU), as a marker of DNA synthesis, was performed in human HeLa, HL60, and in murine Friend leukemia cells (FLC). Field emission in lens scanning electron microscopy analysis of ultrathin cryosections revealed the presence of a regular three-dimensional network of fibers in dispersed chromatin. This spatial architecture was apparently constituted mainly of 10 nm filaments organized in loops of about 80-100 nm. Nodal points and the overlapping of such coils appeared as thicker structures of about 30 nm in diameter. Thin filaments of about 5 nm did not show a regular distribution. This three-dimensional fiber organization seemed quite constant in the dispersed chromatin of all the cell lines analyzed. The DNase treatment of the samples selectively removed the 10 nm class fibers, whereas the BrdU labeling confirmed the presence of newly synthesized DNA organized into chromatin units with a regular arrangement. These data suggest that the 10 nm chromatin fiber likely represents the DNA condensation order at which DNA duplication starts and the main weft of a three dimensional network within the interphase nucleus.

El diagnóstico de alcoholismo en estudiantes de medicina un enfoque transhispanoamericano: México, Colombia, Perú (Lima y Cuzco) y Ecuador / Diagnosis of alcoholismo in students of medicine: A transhispanic-american approach: México, Colombia, Perú (Lima and Cuzco) and Ecuador

Mediante el inventario de evaluación sussmilch (IES), previamente validado y confiabilizado, se estableció una diferencia significativa entre la teoría y la realidad de la calidad de la información publicada (1967-1999). Esto señala que esos resultados no pueden generalizarse ni dentro ni fuera de las muestras de estudiantes, también de medicina. En contraste, con base en el principio de que resultados negativos también son resultados, en este ejercicio de demostró empíricamente que los resultados obtenidos representan bien a las muestras de estudiantes que fueron admitidos a cinco facultades de medicina hispanoamericana (FMH). Se desarrolló el indice de alcoholismo de pregrado (IAPG) integrado por cuatro (ó cinco) reactivos con respuestas dicotómicas, capaces de discernir, con error conocido, entre estudiantes de medicina no-alcohólicos (NOH), sospechosos (SOH) y alcohólicos (OH). El perfil psicométrico del IAPG exhibió una equivalente entre las Facultades de Medicina de la Universidad Nacional Autónoma de México (UNAM), Universidad Nacional de Colombia (UNC), Universidad Peruana Cayetano Heredia(UPCH), universidad Nacional de San Antonio Abad del Cuzco (UNSAAC) y Universidad de Cuenca(UC).

Phosphatidylinositol 3-kinase translocation to the nucleus is an early event in the interleukin-1 signalling mechanism in human osteosarcoma Saos-2 cells.

Interleukin 1 (IL-1) is a proinflammatory cytokine which can elicit proliferative, differentiative, or metabolic responses. The molecular mechanisms by which IL-1 signals are transduced from the plasma membrane to the nucleus, although extensively studied, have not been completely elucidated. We previously demonstrated that human osteosarcoma Saos-2 cells incubated with IL-1 presented a rapid and transient increase of phospholipase C activity exclusively at the nuclear level. Moreover, we presented evidence that not only the canonical inositol lipid signalling pathway was involved, but also the D3-phosphorylated lipids generated by phosphatidylinositol 3-kinase (PI 3-kinase) were affected. The results of this study indicate that in Saos-2 cells PI 3-kinase is recruited and activated by IL-1 receptor I (IL-1RI) through binding of the SH2 domains to the consensus sequence on the C-terminal tail of the receptor, and that Tyr-479 is essential for PI 3-kinase activation. Moreover, IL-1 treatment triggers PI 3-kinase translocation to the nucleus; this event is rapid and transient in cells expressing high levels of IL-1RI (Saos-2/IL-1R) as well as in untransfected cells, although to a lesser extent. The data, based on immunochemical and immunocytochemical quantitative methods, indicate that PI 3-kinase translocation to the nucleus depends on PI 3-kinase activation. In fact, inactivation by two independent mechanisms, addition of specific PI 3-kinase inhibitors, or overexpression of a mutant form of IL-1RI, resulted in a substantial inhibition of PI 3-kinase translocation to the nucleus. These data suggest that PI 3-kinase recruitment by the activated receptor is a limiting step in PI 3-kinase activation and nuclear translocation. This early event in the IL-1 signalling mechanisms confirms that D3 inositides, as well as canonical inositides produced by nuclear phospholipase C isoforms, are involved in this pathway of activation of transcription factors.

Field emission in-lens SEM study of enamel and dentin.

This investigation used field emission in-lens scanning electron microscopy (FEISEM) for the study of tooth surfaces, with particular reference to adhesive bonding and acid conditioning. Dentin wafers with an intact enamel periphery were treated by either ethylenediaminetetraacetic acid (EDTA) (pH 7.4) or phosphoric acid (pH 0.7). The samples were then fixed, sequentially dehydrated in alcohol, and either air- or critical point-dried. After coating, surfaces were examined by FEISEM. For enamel, intraprismatic crystals were clearly recognizable, with the crystals showing both a longitudinal and parallel orientation to the long axis of the prisms. For dentin, the surface ultrastructure (mineral crystals and collagen banding) for the both untreated and treated samples was observed. Fine structures measuring on the order of 6 nm were also observed on samples treated by EDTA. We conclude that FEISEM can routinely provide high-resolution images of enamel and dentin, and that it has the capability of revealing the defined distribution of crystals and collagen fibers in dental tissues.

Protocolo para evaluar la eficacia de nuevos antidepresivos en depresión mayor / Protocol to evaluate the effectiveness of new antidepressants in major depression

El presente documento detalla: Justificación, objetivos, metodología, medicación, historia de enfermedades médicas y medicación concominante, descontinuación

Inositides in the nucleus: taking stock of PLC beta 1.

The nucleus was shown to be a site for inositol lipid cycle which can be affected by treatment of quiescent cells with growth factors such as IGF-I. In fact, the exposure of Swiss 3T3 cells to IGF-I results in a rapid and transient increase in nuclear PLC beta 1 activity. In addition, several other reports have shown the involvement of PLC beta 1 in nuclear signalling in different cell types. Indeed, PLC beta 1 differs from the PLC gamma and della isozymes in that it has a long COOH-terminal sequence which contains a cluster of lysine residues that are critical for association with the nucleus. Although the demonstration of PtInsP and PtdInsP2 hydrolysis by nuclear PLC beta 1 established the existence of nuclear PLC signalling, the significance of this autonomous pathway in the nucleus has yet to be thoroughly clarified. By inducing both the inhibition of PLC beta 1 expression by antisense RNA and its overexpression we show that this nuclear PLC is essential for the onset of DNA synthesis following IGF-I stimulation of quiescent Swiss 3T3 cells. Moreover, using a different cell system, i.e. Friend erythroleukemia cells induced to differentiate towards erythrocytes, it has been evidenced that there is a relationship between the expression and activity of nuclear PLC beta 1 and the association of PI-PT alpha with the nucleus in that, when PLC activity ceases, in differentiated and resting cells at the same time there is a dramatic decrease of the association of PI-PT alpha with the nucleus.

Immunocytochemical discrimination between early and late S phase: a new approach to the study of gingival epithelium proliferation in rats.

The renewal of the free gingival margin epithelium in rats was studied evaluating 5-bromodeoxyuridine (BrdU) incorporation in proliferating cells by means of an immunocytochemical method. We found a close correspondence between light and electron microscopy patterns of BrdU incorporation at a nuclear level. BrdU was localized in the inner interchromatin regions in cells starting DNA synthesis, while it was localized in the peripheral heterochromatin domains in cells terminating the S phase. This possibility of discriminating cells in early S phase from cells in late S is able to provide far more information as to the time at which a labeled cell starts proliferation than that obtainable with 3H-thymidine autoradiography. This, in turn, permits detection of cells that start proliferation in a wide period of time by means of a single BrdU administration. Rats treated at 7 a.m. demonstrated higher proliferation than rats treated at 7 p.m., supporting the existence of circadian variations in the epithelial renewal. Proliferative events take place by consecutive activation of at least three replication waves, producing clusters of labeled cells which could be observed in rats sacrificed at 10 a.m. In rats treated once with BrdU at 7 a.m., the clusters were localized in both the basal and suprabasal layer of the epithelium; in rats further injected with BrdU at the same time, the clusters increased in size, progressively extending throughout the epithelium. In this way, the renewal of the free gingival margin epithelium does not proceed randomly, but by consecutive activation of discrete units or clusters of basal cells, which then extend to the upper layers. This can be followed at a morphological level as a progression of labeled cells, which move from the basal layer to the epithelium surface in approximately 82-85 hours.

Nuclear morphology during the S phase.

In order to evaluate at the ultrastructural level the chromatin arrangement during the S phase of the cell cycle, the detection of Bromodeoxyuridine (BrdU) by immunogold has been performed in synchronized 3T3 fibroblasts, regenerating liver, and Friend Leukemia Cells (FLC). After a 5-minute BrdU pulse, this label is detected in 10-nm-wide fibers, organized as lacework and assumed to be replication units. In the early part of the S phase, DNA replication units are localized exclusively in the dispersed chromatin domains far from the nuclear envelope. In the middle S, replication occurs at the border between condensed and dispersed chromatin and, finally, in late S, it mainly occurs in perinuclear heterochromatin regions. After replication, the 10-nm fibers can condense in heterochromatin without translocation. Chromatin is highly dispersed in early S and computer image analysis shows an increase in condensed chromatin areas ranging from 13 to 18% at the end of the S phase with a temporal and morphological pattern of distribution characteristic for each cell type. Scanning transmission electron microscopy demonstrates a regular and repetitive structure of dispersed chromatin, represented by a ring-like arrangement of the 10-nm fibers; assuming the same spatial distribution, gold particles that identify incorporated BrdU confirm this organization. By evaluating the organization and the distribution of DNA replication units during S phase, the results suggest that DNA replication occurs at a nucleosomal-like fiber level and that replicating enzymes machinery moves over a fixed template.

Cytochemistry of the functional domains of the nucleus in normal and in pathologic conditions.

By means of ultrastructural cytochemistry significant advances have been made in understanding the functional roles of many nuclear domains. This review gives schematic information about the main nuclear domains involved in replication, transcription, processing and transport of the transcripts in normal and in pathologic conditions. Particular attention is paid to a functional domain that appears to be involved in signal transduction. Data are reported on the intranuclear specific localization of key elements of the polyphosphoinositide signal transduction system in different cell types including human osteosarcoma cell lines. Compared with the compartmentalization of the cytoplasm, the nucleus has long been considered as relatively unstructured. On the other hand, fundamental nuclear functions, such as DNA replication and RNA transcription, can be molecularly characterized also in cell-free systems, suggesting that supramolecular organization is not so strictly required as for other cell functions occurring within intact cytoplasmic organelles. Nevertheless, a stringent organization is required for packing about 200 cm of DNA in the about 30 micron 3 of the nucleus. In the absence of membrane-delimited organelles, the nuclear organization is based on functional compartments, or domains, whose spatial localization involves the nuclear matrix, which shares many properties with the cytoskeleton. The nuclear domains are defined as structural compartments, not necessarily stable but dynamically variable, which perform specific metabolic functions through the partitioning of molecular complexes. Their identification has been made possible in the last few years by the development of specific nuclear probes for confocal and electron microscope immunocytochemistry. Therefore, the complex network of structures and enzymatic functions that make up the nucleus is in several cases yielding to molecular analysis, but a large part remains unknown (Strouboulis and Wolffe, 1996; Laemmli and Tjian, 1996). Rapid advances in understanding the functional role of the nuclear domains have been made recently: in particular, of the nuclear envelope, of the nucleolus, and of RNA splicing. In other cases, e.g. the precise localization of the nuclear domains involved in signal transduction, much remains to be clarified (Forbes and Johnson, 1997). It is conceivable that in the near future unexpected new nuclear domains will come to light and new nuclear functions may emerge, especially in field of post-transcriptional processing and transport of RNAs, and in the relationships between the nucleo-skeleton and enzymic fixed sites involved in replication, transcription and signal transduction. The aim of this review is to provide information about the morphological characteristics, the associated functions and the molecular composition of the main nuclear domains found to date. To simplify the exposition, the main data on each nuclear domain are reported in Tables, together with the principal references on the subject. Figures refer to original findings on some aspects of nuclear domain organization.

Age- and training-related events in active T subpopulation. Changes in polyphosphoinositide metabolism during mitogenic stimulation.

To examine the effects of age and training on the active T subpopulation we considered elderly amateur cyclists over 65 in comparison with young amateur cyclists and young and aged sedentary healthy controls. Significant differences were observed between trained and sedentary elderly subjects consisting of an increase in the percentage of active E rosettes after 4 and 24 h of in vitro PHA stimulation, and of a decrease in the in vitro phosphorylation of phosphatydylinositol 4,5-bisphosphate (PtdInsP2) and a corresponding increase in phosphatydylinositol 4-phosphate (PtdInsP) in the early steps of the mitotic response. Our findings support the hypothesis of the involvement of inositol lipids in controlling the expression of lymphocyte surface receptors.

Early events of liver regeneration in rats: a multiparametric analysis.

5-Bromodeoxyuridine (BrdU), a synthetic analogue of thymidine, has been utilized in vivo to detect the proliferation which occurs in the liver after two-thirds surgical hepatectomy. Immunocytochemical detection of BrdU incorporation has been carried out at both the morphological and flow cytometrical level, while structural changes of regenerating liver have been investigated, using Mallory-Azan-stained paraffin sections, by means of an image analyser. The results obtained show that in vivo DNA synthesis progression throughout S phase follows a pattern similar to that previously described in vitro in both 3T3 fibroblasts and Friend erythroleukemia cells and also demonstrate a precise correlation between morphological patterns of BrdU incorporating cells and their lobular distribution. Moreover, the activation of at least two proliferation waves can be detected from 18 to 34 h after hepatectomy: the former, starting from adjacent regions of contiguous lobules, apparently induces an irregular increase of lobular dimension; the latter, involving both inner and peripheral lobular domains, seems to be correlated with the appearance of nodule-like structures at the lobule periphery. In view of these results the role of the hepatic acinus and the hypothesis of a streaming of parenchymal cells during liver regeneration have been discussed.

Inositol lipid cycle and autonomous nuclear signalling.

The involvement of phospholipids and in particular polyphosphoinositides in cellular signalling has been documented in detail in the last 20 years. In addition to the plasma membrane localization also the nucleus is shown to be a site for both synthesis and hydrolysis of the phosphorylated forms of phosphatidylinositol. Previous observation have established that the nucleus possesses a specific PLC for inositol lipids, i.e., the PLC beta 1 isoform, which undergoes rapid and transient activation after IGF-I stimulation of quiescent Swiss 3T3 cells and is down-regulated after treatment of Friend erythroleukemia cells with DMSO. Here we have reviewed: (i) the potential of nuclear PLC beta 1 to be a target for anti-cancer drug, (ii) the capability of this PLC isoform, when activated by IGF-I, to be a key signalling molecule in the onset of DNA synthesis, via DAG generation and PKC alpha translocation to the nucleus, (iii) the chromosome mapping of PLC beta 1 gene. The differentiation program of Friend cells can be activated by other agents besides DMSO including tiazofurin, an anti-tumor drug, also capable of affecting the nuclear inositol lipid cycle. Tiazofurin induces a lowering of the activity of PLC beta 1 due to down regulation of this isoform as revealed by both Western blotting and Northern blotting analyses. Using Swiss 3T3 cells stably transformed with an antisense PLC beta 1 construct, the knock-out of the PLC beta 1 gene induces both a loss of PLC beta 1 expression, as determined by Western blots, and a loss of the mitogenic responsiveness to IGF-I. These events show a direct relationship between nuclear PLC beta 1 evoked signals and IGF-I induced cell proliferation. Finally, the assignment of the PLC beta 1 gene to the band q35-36 of rat chromosome 3 paves the way for further genetic studies given the fact that the region where PLC beta 1 gene maps is a hot spot for genetic alterations in a number of experimentally induced rat tumors. Taken as a whole, these results assign a key role to the regulation of nuclear PLC activity and expression both in growth-factor activated mitogenesis and in in vitro erythroid differentiation.

Immunocytochemical detection of phosphatidylinositol 4,5-bisphosphate localization sites within the nucleus.

Phosphatidylinositol 4,5-bisphosphate (PIP2) is a key element of signal transduction, being the preferential substrate of specific phospholipases that produce second messengers such as inositol trisphosphate (IP3) and diacylglycerol (DG). Because PIP2 has been cytochemically identified by monoclonal antibodies not only in the cytoplasmic membranes but also in the nuclear envelope and within the nucleus, we performed a study by immunoblotting and by confocal and electron microscopic immunocytochemistry to identify the nuclear sites of PIP2 localization and to exclude any cross-reactivity of the antibody with other nuclear molecules. The results confirm the specificity of the immunolabeling and indicate that PIP2 is localized at precise intranuclear sites both in in situ and in isolated nuclei. They also show that a significant amount of the phospholipid is retained by the cytoskeleton and by the inner nuclear matrix in in situ matrix preparations. Moreover the sensitivity of the immunocytochemical reaction is capable of detecting quantitative variations of PIP2 nuclear content induced by agonists that modulate the signal transduction system at the nuclear level.

Immunocytochemical detection of the intranuclear variations of phosphatidylinositol 4,5-bisphosphate amount associated with changes of activity and amount of phospholipase C beta 1 in cells exposed to mitogenic or differentiating agonists.

The intracellular localizations of phosphatidylinositol 4,5-bisphosphate (PIP2) and of its hydrolyzing enzyme phospholipase C (PLC; in this case the beta 1 isoform) have been evaluated by electron microscope immunocytochemistry in cells exposed to mitogenic or differentiating agents. These cells have been previously demonstrated to present a signal transduction system based on the polyphosphoinositide hydrolysis localized at the nuclear level, which can be specifically modulated by agonists. The results demonstrate that in Swiss 3T3 mouse fibroblasts mitogenically stimulated by insulin-like growth factor I (IGF-I), a rapid and transient decrease of the PIP2 detectable by immunogold labeling occurs at the nuclear interior. This effect appears due to the activation of the PLC beta 1 isozyme already present in the nucleus, since no significant variations of the enzyme amount and distribution can be detected by immunolabeling. However, after 30 min of exposure to IGF-I, when the PLC beta 1 activity is returned to basal level, a slight but significant increase of the enzyme amount is detected both in the nucleus and in the cytoplasm. On the other hand, an increased accumulation of PIP2 in the nucleus, accompanied by a decrease of the intranuclear amount of PLC beta 1 isozyme, have been observed in mouse erythroleukemia Friend cells, induced to erythroid differentiation by dimethylsulfoxide (DMSO). These results indicate that quantitative immunocytochemistry represents an increment in the available methodologies to investigate the complex regulation of nuclear PI-signalling.

Nuclear inositol lipid cycle and differentiation.

Previous investigations from our laboratory and others have shown the existence of an autonomous intranuclear inositide cycle endowed with conventional lipid kinases and PLC which in PC12 pheochromocytoma cells, human osteosarcoma SaOS-2 cells, rat liver and Swiss 3T3 cells is the isoform beta 1, which in the latter cells is activated upon IGF-I stimulation. The behavior of the nuclear inositol lipid cycle has been investigated in nuclei of Friend erythroleukemia cells. These nuclei possess both lipid kinases and PLC. The cycle upon treatment with differentiating agents (i.e., DMSO and tiazofurin) is characterized by an accumulation of polyphosphoinositides and a decrease of DAG due to down-regulation of a specific PLC. Indeed, even if both beta 1 and gamma 1 isoforms are present in these nuclei, when Friend cells undergo terminal erythroid differentiation only the PLC beta 1 isoform is down-regulated as shown by immunochemical and immunocytochemical analysis, by direct determination of enzymatic activity and in the presence of neutralizing monoclonal antibodies as well as by Northern blot for PLC beta 1 message, whilst the amount of PLC gamma 1 and its activity are unaffected by erythroid differentiation. In conclusion, the presence of a specific nuclear PLC whose activity and expression are down-regulated during differentiation of erythroleukemia cells points out a role for nuclear phosphoinositide signalling in the processes of cell differentiation and hints at the nuclear PLC beta 1 as an important step of the cycle in relation to the erythroid differentiative commitment of murine erythroleukemia cells.

Evidence for an early and transient involvement of nuclear inositol lipids in subcellular signalling events related to DNA repair processes.

The involvement of nuclear inositol lipids in the processes related to DNA repair upon ionizing radiation has been investigated in Murine Erythroleukaemia cells. Early changes in the in vitro phosphatidylinositol-bisphosphate phosphorylation in isolated nuclei were found to precede transiently the marked increase in DNA synthesis occurring after irradiation. Such an increase detected by anti-BrdU monoclonal antibodies has been found to be related mainly to DNA polymerase beta activity as revealed by the kinetic analysis of in vitro DNA synthesis. The results here presented allow us to speculate on a possible involvement of nuclear inositol lipids in the cascade of the early events leading to the regulation of DNA repair in the nucleus.

Ultrastructural patterns of cell damage and death following gamma radiation exposure of murine erythroleukemia cells.

Radiation causes damage to cell surface membranes, cytoplasmic organelles, and the nuclear process of DNA synthesis and repair, and this eventually results in different modes of cell death. In this study we examined murine erythroleukemia (MEL) cells, exposed to 15 and 60 Gy of 10 MeV photonic energy, and left in culture for up to 96 hours. Electron microscopical analysis was performed on conventionally embedded samples and freeze-fracture replicas, in order to detect ultrastructural patterns of cell damage and death. Of interest was the observation of chromatin condensates, nuclear membrane associations and nuclear pore redistribution during early apoptosis. Pronounced rearrangements of transmembrane particles during late stages of cellular necrosis were also found. The morphological damage induced by both doses of radiation as a function of time after exposure was only quantitatively but not qualitatively different.

Lymphocyte binding to K562 cells: effect of target cell irradiation and correlation with ICAM-1 and LFA-3 expression.

Tumor irradiation induces modifications in the interaction of surviving target cells with immune cells. This interaction is mediated by adhesion molecules, whose expression can be strongly altered by radiation treatment. Here the probably of K562 tumor cells for lymphocyte binding was studied after exposure of target cells to different doses of gamma-radiation. Results were correlated to the expression of ICAM-1 and LFA-3 adhesion molecules on target cells. Radiation treatment enhanced the expression of both ICAM-1 and LFA-3 on the surface of target cells in a dose and time of culture-dependent fashion, reaching a maximum 24 hrs postirradiation, when also lymphocyte binding was increased. 10-30 Gy irradiation of K562 cells in vitro induces after 24 hrs, an up-regulation of ICAM-1 and LFA-3 expression that, in turn, increase lymphocyte binding, making tumor cells more exposed to cytotoxic attack. The progressive morphological damage induced by radiation, documented by the scattering singlas in flow cytometry and by electron microscopy analysis of irradiated K562 cells, induced, particularly at delayed times of culture in high doses irradiated cells, alterations of the target cell surface that might prevent the correct interaction with immune cells.