Histochemical and histofluorescence tracing of chelatable zinc in the developing mouse.

Zinc is an essential element in mammalian development. However, little is known about concentrations of zinc in specific regions/organs in the embryo. We have employed selenite autometallography (AMG) and TSQ histofluoroscence to detect histochemically reactive (chelatable) zinc in whole midsagittal embryos and sections from neonatal mice. Chelatable zinc exhibited a broad distribution, being particularly localized to rapidly proliferating tissues, such as skin and gastrointestinal epithelium. Zinc was also observed in various types of tissues such as bone and liver. In the perinatal central nervous system, zinc was present almost exclusively in choroid plexus. The two methods used demonstrated generally similar distributions with some exceptions, e.g., in liver and blood. The ubiquity of zinc in the embryo, particularly in rapidly proliferating tissues, suggests a widespread role in fetal physiology.     

Embryonic expression of pericentrin suggests universal roles in ciliogenesis

Pericentrin (Pcnt) is a giant coiled-coil protein known to mediate microtubule organization. It has been recently reported that mitosis-specific centrosomal anchoring of γ tubulin complexes by Pcnt acts to control mitotic spindle organization, though little is known about the in vivo expression of Pcnt. In this study, we investigated Pcnt expression in mouse embryos. In situ hybridization analysis revealed preferential expression of Pcnt in quiescent G₀ phase cells throughout the embryo with an unexpectedly low expression level in proliferating cells, suggesting that Pcnt might not play an important role in mitotic proliferation. Immunofluorescence analysis confirmed preferential expression of the Pcnt protein in G₀ phase cells. Moreover, Pcnt was shown to be localized to the base of primary cilia in multiple embryonic tissues, in agreement with a recent study demonstrating the involvement of Pcnt in primary cilia formation using cultured mammalian cells.     

Preferential expression of cystein-rich secretory protein-3 (CRISP-3) in chronic pancreatitis

BACKGROUND: Chronic pancreatitis (CP) is a progressive inflammatory process resulting in exocrine and endocrine pancreatic insufficiency in advanced stages. Cysteine-rich secretory protein (CRISP-3) has been identified as a defense-associated molecule with predominant expression in the salivary gland, pancreas and prostate. AIMS: In this study, we investigated CRISP-3 expression in normal pancreatic tissues, chronic pancreatitis tissues, pancreatic cancer tissues and pancreatic cancer cell lines, as well as in other gastrointestinal organs. MATERIALS AND METHODS: 15 normal pancreatic tissues, 14 chronic pancreatitis tissues and 14 pancreatic cancer tissues as well as three pancreatic cancer cell lines were analyzed. Moreover, hepatocellular carcinoma and esophageal, stomach and colon cancers were also analyzed together with the corresponding normal controls. RESULTS: CRISP-3 was expressed at moderate to high levels in chronic pancreatitis tissues and at moderate levels in pancreatic cancer tissues but at low levels in normal pancreatic tissues, and was absent in three pancreatic cancer cell lines. CRISP-3 expression was below the level of detection in all cancerous gastrointestinal tissues and in all normal tissues except 2 of 16 colon tissue samples. CRISP-3 mRNA signals and immunoreactivity were strongly present in the cytoplasm of degenerating acinar cells and in small proliferating ductal cells in CP tissues and CP-like lesions in pancreatic cancer tissues. In contrast, CRISP-3 expression was weak to absent in the cytoplasm of cancer cells as well as in acinar cells and ductal cells in pancreatic cancer tissues and normal pancreatic tissues. CONCLUSION: These results reveal that the distribution of CRISP-3 in gastrointestinal tissues is predominantly in the pancreas. High levels of CRISP-3 in acinar cells dedifferentiating into small proliferating ductal cells in CP and CP-like lesions in pancreatic cancer suggests a role of this molecule in the pathophysiology of CP.     

Somatic embryogenesis and plant regeneration in embryo cultures of Euterpe edulis mart. (palmae)

The induction of somatic embryogenesis in embryo cultures of Euterpe edulis is described. The basal medium was composed of LS salts and Morel & Wetmore vitamins. Activated charcoal was added to prevent explant oxidation. 2,4-D higher than 50 mg/l was necessary for inducing embryogenesis which occurs 45–180 days after the start of cultures. Embryos arise directly from surface proliferating tissues on the matrix structure , without callus formation. The transfer of tissues with embryo clusters to medium with NAA plus 2iP, or without growth regulators, induces embryo development into plantlets.     

Immunofluorescent study of DNA polymerase alpha in rat cells and tissues

An indirect immunofluorescent test based on globulin preparation from a highly specific antiserum against rat liver DNA polymerase alpha was used to direct the enzyme in sections of various tissues of the rat. The immunofluorescent staining was found in cells of the thymus and the wall of intestine crypt, in sparse cells of the intestinal muscular layer, and in cells of the embryo skin epithelium. In sections of liver the intensity of staining and the number of stained cells increased significantly during regeneration. The immunoglobulins did not interact with the cytoplasm and nuclei of skeletal muscle myotubes, with the epithelial cells at the top of intestinal villi, and with erythrocytes. The intracellular localization of the fluorescence observed was of two general types: 1) staining in the region of the nuclear envelope and/or in the cytoplasm; 2) an additional intranuclear staining. The staining of the first type is characteristic of the cells of intact liver and of leyomyocytes. It was also observed in the proliferating cells of thymus and crypt wall, and in cultured myogenic L6 cells. Cells of the embryo skin epithelium, the satellite cells in the skeletal muscle, and about one half of the regenerating liver cells appeared to have the second type of staining. These data serve an indication of possible histotypical differences in in the intracellular localization of DNA polymerase alpha in proliferating cells. It is proposed that the presence of DNA polymerase in resting cells is in association with their ability to respond to the mitogenic stimulus.     

Immunohistochemical identification of proliferating cells in organ culture using bromodeoxyuridine and a monoclonal antibody

The ability to measure cell proliferation is important in the study of cancer biology. The usual technique for quantitating proliferating cells in tissue explant and organ culture by detection of [3H]-thymidine incorporation into DNA by autoradiography is tedious and time-consuming. We have developed a technique for identification and quantitation of bromodeoxyuridine (an analogue of thymidine) in cultured tissue explants. Fetal mouse colon explants were exposed in vitro to bromodeoxyuridine (BUdR) or [3H]-thymidine for 3 to 72 hr and then for various periods to unlabeled thymidine. The tissues were stained with a monoclonal anti-bromodeoxyuridine antibody and in parallel [3H]-thymidine incorporation was detected by autoradiography. Incorporation of BUdR was measured by quantitating the amount of pigment deposited over nuclei after immunohistochemical staining, using an optical data digitizer. It was found that both techniques identified proliferating cells. Dividing cells were present both in crypts and in the surrounding stroma in Day 14 fetal mouse colon cultures. The immunohistochemical technique was more rapid and less cumbersome than autoradiography.     

Proliferating cell nuclear antigen of the rat thyroid gland before and after birth]

We were studied the proliferative activity of the thyroid gland's cells of embryo and adult Wistar rats due to using the antiserum against the cell nuclear antigen (PCNA). The 100% of cells in thyroid's embryo was a positive on the 16th, 17th, 18th stages of the embryonic development (stages by Kornegy). The percent of PCNA-positive cells considerably increased to 67% on the 19th stage. This fact the 20th and 21th stages of prenatal development relatively the previous stage coordinate with starting of the thyroid hormones in fetal thyroid gland and the first follicles formation. The small increasing of number of PCNA-positive cells detected on the 20th and 21th stages of prenatal development relatively the previous stage. Considerable elevation of the proliferating cells to 75% immediately before the birth (22th stage). An infant rats had have the 39% of proliferating cells. The 51% cells divided on the 5th day of postnatal development. Considerable decreased of the cell's division was occurred until the postnatal day 60. Using of the PCNA antiserum allowed to study cell proliferation in thyroid gland during pre- and postnatal rat development.     

Succinic Dehydrogenase and Cytochrome Oxidase Activities in Cell Cultures

Succinic dehydrogenase and cytochrome oxidase have been assayed in permanent cell lines (HEP 1, HEP 2, and HLM), in short-term cultures of chick embryo heart cells, and in various tissues. Their activities in different cells are compared by relating them to deoxyribonucleic acid. They are very low in HEP 1, HEP 2, and HLM cells by comparison with the activities in any normal tissues examined. All the succinic dehydrogenase was shown to be located in the mitochondria of the permanent cell lines by staining with tetrazolium derivatives. Both enzymes were more active in tissues of 19-day chick embryos than in those of 11- or 14-day embryos. The increasing activities found during normal development were quickly curtailed or reversed when heart cells were grown as monolayer cultures. Digitonin-treated mitochondria produced preparations with much higher activities of cytochrome oxidase than untreated samples. Activities measured in this way were again very much lower in HEP 1, HEP 2, and HLM cells than in the normal tissues. From the derived ratio of cytochrome oxidase:succinic dehydrogenase, it was apparent that cytochrome oxidase is diminished to a greater extent than succinic dehydrogenase in both permanent cell lines and short-term cultures, by comparison with the corresponding activities in embryonic and adult tissues. The features common to the metabolism of proliferating cells in vitro and malignant cells are discussed.     

Divergent Kinetics of Proliferating T Cell Subsets in Simian Immunodeficiency Virus (SIV) Infection: SIV Eliminates the “First Responder” CD4+ T Cells in Primary Infection

Although increased lymphocyte turnover in chronic human immunodeficiency virus and simian immunodeficiency virus (SIV) infection has been reported in blood, there is little information on cell turnover in tissues, particularly in primary SIV infection. Here we examined the levels of proliferating T cell subsets in mucosal and peripheral lymphoid tissues of adult macaques throughout SIV infection. To specifically label cells in S-phase division, all animals were inoculated with bromodeoxyuridine 24 h prior to sampling. In healthy macaques, the highest levels of proliferating CD4⁺ and CD8⁺ T cells were in blood and, to a lesser extent, in spleen. Substantial percentages of proliferating cells were also found in intestinal tissues, including the jejunum, ileum, and colon, but very few proliferating cells were detected in lymph nodes (axillary and mesenteric). Moreover, essentially all proliferating T cells in uninfected animals coexpressed CD95 and many coexpressed CCR5 in the tissues examined. Confocal microscopy also demonstrated that proliferating cells were substantial viral target cells for SIV infection and viral replication. After acute SIV infection, percentages of proliferating CD4⁺ and CD8⁺ T cells were significantly higher in tissues of chronically infected macaques and macaques with AIDS than in those of the controls. Surprisingly, however, we found that proliferating CD4⁺ T cells were selectively decreased in very early infection (8 to 10 days postinoculation [dpi]). In contrast, levels of proliferating CD8⁺ T cells rapidly increased after SIV infection, peaked by 13 to 21 dpi, and thereafter remained significantly higher than those in the controls. Taken together, these findings suggest that SIV selectively infects and destroys dividing, nonspecific CD4⁺ T cells in acute infection, resulting in homeostatic changes and perhaps continuing loss of replication capacity to respond to nonspecific and, later, SIV-specific antigens.     

The development of teratomas from parthenogenetically activated ovarian mouse eggs

Ovarian teratomas developed spontaneously in about half of the females of the inbred strain LT. Some of them began to develop at about 30 days of age, and the incidence rose to about 50% in animals 90 days old. They originated from ovarian eggs that began to develop parthenogenetically. They resembled normal embryos until the blastocyst stage, after which most became disorganized. The most advanced ovarian embryo observed had a primitive streak and resembled a normal embryo of 7.5 days' gestation. Most of the teratomas were benign and composed of many types of well differentiated tissues of embryonic and extraembryonic origin, but some of them contained proliferating undifferentiated cells. Parts of many of them were grafted subcutaneously, but only one gave rise to a transplantable teratoma. It produced several tissue types and undifferentiated stem cells.Parthenogenesis also occurs spontaneously in a small percentage of ovulated LT eggs. They undergo cleavage and implant in the uterus. Most of them die at 5 to 7 days of gestation.     

A role for the Warburg effect in preimplantation embryo development: metabolic modification to support rapid cell proliferation

In this essay, we propose that embryos express a metabolic phenotype necessarily different from that of differentiated somatic cells and more like that of rapidly proliferating cancer cells. This metabolic adaptation, known as the Warburg effect, supports rapid cell proliferation. One of the hallmarks of the Warburg effect is that pyruvate is directed away from the tri-carboxylic acid cycle and metabolized to lactate, resulting in a buildup of glycolytic intermediates. Although this is a comparatively inefficient way to generate ATP, this adaptation allows the cell to meet other critical metabolic requirements, including biomass production and redox regulation. Thus, utilization of WE gives proliferating cells a selective growth advantage. This model represents a completely new understanding of embryo metabolism in the context of a broad, interconnected network of metabolic mechanisms that influence viability, versus the current dogma of carbohydrate metabolism via oxidative phosphorylation. A more complete understanding of embryo metabolism is critical to better support embryo viability in vitro, and to avoid forcing embryos to adapt to suboptimal culture conditions at a significant cost to future growth and development.     

Intracellular and secreted proteins of density-inhibited, serum-arrested and proliferating mouse embryo cells

Short-term labelling of secondary cultures of mouse embryo fibroblasts with [14-C] aminoacids enabled the identification and quantitation of proteins specific for quiescent and proliferative stages. Intracellular and secreted proteins of cells maintained under different growth conditions were resolved in high resolution SDS-polyacrylamide gradient gels. Two proteins, identified as fibronectin and procollagens and a 34 000 D polypeptide were found to be secreted by all three types (density-arrested, serum arrested and proliferating) of cells. Both types of arrested cells exclusively secreted a 375 000 D protein while the proliferating cells specifically secreted a 48 000 D polypeptide. During progression of cells from quiescence to proliferation, two intracellular proteins showed major variations. A 205 000 D intracellular protein was found to be synthesized in higher amounts by proliferating cells than by arrested cells. Another protein, identified as actin, showed a marked increase in synthesis following the release of cells from serum arrest. The arrested cells showed reduced levels of actin synthesis and the turning-off process in the synthesis of actin was found to be relatively slow as the cells entered into quiescence.     

Ki-67 monoclonal antibody (MAb) reacts with a proliferation associated nuclear antigen in the rabbit Oryctolagus cuniculus

The Ki-67 monoclonal antibody which recognizes a human nuclear antigen expressed by cycling cells but not by resting cells was found to react immunohistochemically with tissues from the rabbit Oryctolagus cuniculus. Ki-67 immunoreactivity was restricted to the nucleus. A comparative study with bromodeoxyuridine labelling patterns was carried out to study the association with proliferating cells. In lingual, jejunal and appendix mucosa, skin, adrenal gland, thymus, spleen, bone marrow, testis, growth cartilage, periosteum and periochondrium of long bones the distribution of Ki-67 positive and bromodeoxyuridine labelled cells was similar and consistent with the distribution of proliferating cells in these tissues. In tissue from the brain, kidney, skeletal or cardiac muscle and liver no Ki-67 positive or bromodeoxyuridine labelled cells were seen. In cartilage labelled in vivo with tritiated thymidine, all thymidine labelled cells were also Ki-67 positive. These results suggest that the Ki-67 antibody recognizes a nuclear antigen in the rabbit that is associated with cell proliferation and is expressed by cells in S-phase as well as in other phases of the cell cycle.     

Ki-67 monoclonal antibody (MAb) reacts with a proliferation associated nuclear antigen in the rabbitOryctolagus cuniculus

Summary The Ki-67 monoclonal antibody which recognizes a human nuclear antigen expressed by cycling cells but not by resting cells was found to react immunohistochemically with tissues from the rabbitOryctolagus cuniculus. Ki-67 immunoreactivity was restricted to the nucleus. A comparative study with bromodeoxyuridine labelling patterns was carried out to study the association with proliferating cells. In lingual, jejunal and appendix mucosa, skin, adrenal gland, thymus, spleen, bone marrow, testis, growth cartilage, periosteum and perichondrium of long bones the distribution of Ki-67 positive and bromodeoxyuridine labelled cells was similar and consistent with the distribution of proliferating cells in these tissues. In tissue from the brain, kidney, skeletal or cardiac muscle and liver no Ki-67 positive or bromodeoxyuridine labelled cells were seen. In cartilage labelled in vivo with tritiated thymidine, all thymidine labelled cells were also Ki-67 positive. These results suggest that the Ki-67 antibody recognizes a nuclear antigen in the rabbit that is associated with cell proliferation and is expressed by cells in S-phase as well as in other phases of the cell cycle.     

Mouse Ubc9 knockout: many path(way)s to ruin

In this issue of Developmental Cell, Nacerddine et al. (2005) describe a targeted germ line mutation of the mouse SUMO-specific E2 Ubc9, which abrogates the SUMO conjugation pathway, broadly crippling nuclear function in proliferating cells of the early embryo. This study reveals the wide-ranging roles for this protein modifier in nuclear organization, chromosome segregation, and Ran-driven nucleo-cytoplasmic transport.     

A simple model for estimating the active reactions of embryonic tissues to a deforming mechanical force

Active reactions of embryonic tissues to mechanical forces play an important role in morphogenesis. To study these reactions, experimental models that enable to evaluate the applied forces and the deformations of the tissues are required. A model based upon the active intrusion of a living early gastrula Xenopus embryo into a tube half the embryo in diameter is described. The intrusion is initially triggered by a suction force of several dozen Pa but then continues in the absence of external driving force, stopping immediately after the entire embryo has penetrated into the tube. The process can be stopped by cytoskeletal drugs or by the damage of the part of the embryo still non-aspirated and is associated with the transversal contraction and meridional elongation of the non-aspirated part of the embryo surface and quasi-periodic longitudinal contractions/extensions of the cells within the part already aspirated. We suggest that this reaction is an active response to the embryo deformation and discuss its morphogenetic role. The problem of estimating the elastic modules of embryonic tissues is also discussed.     

Somatic embryogenesis and plantlet regeneration from cotyledon explants isolated from emblings and seedlings of hybrid firs

Embryogenic tissues have been initiated on cotyledon explants dissected from seedlings or emblings of hybrid firs. Cotyledons of seedling origin (Abies alba x A. cephalonica) gave a relatively low initiation frequency (1.94 percnt;). In embling-derived cotyledons (Abies alba x A. cephalonica, Abies alba x A. numidica), the initiation was cell-line dependent and reached values between 1.25 and 24.28 percnt;. The established embryogenic cell lines are being maintained in long-term cultures.The origin and development of the somatic embryos have been traced histologically. The early stages of somatic embryo development have been characterised by cell division activity (predominantly periclinal) in the epidermal and subepidermal layers of cotyledons and subsequently by development of nodular structures. Further differentiation led to the formation and emergence of somatic embryos on the surface of cotyledons.Somatic embryo development and plantlet regeneration occurred from proliferating tissues initiated from cotyledons of embling as well as seedling origin.