Showing papers on "Apoptosis published in 1986"

Rapid in Vivo Effects of Glucocorticoids on the Integrity of Rat Lymphocyte Genomic Deoxyribonucleic Acid

Abstract: Glucocorticoid-induced lymphocytolysis has been studied for many years; however, the mechanism of lymphoid cell death has not been elucidated. In this study we have investigated the effects of glucocorticoids on the lymphocyte genome using the rat thymocyte model. Adrenalectomized rats were injected ip with dexamethasone (DEX) and killed thereafter. The thymus gland was removed, and DNA was extracted from isolated thymocytes and then separated electrophoretically on 1.8% agarose gels. Administration of glucocorticoids in vivo resulted in the cleavage of lymphocyte DNA at internucleosomal intervals. Genomic DNA separated on agarose gels from DEX-treated rats appeared as a ladder of DNA fragments which were multiples of about 180 base pairs, while DNA from control rats appeared as a single high mol wt band. This cleavage of thymocyte DNA was a rapid effect of adrenal steroid treatment and occurred before cell death. Thymocyte DNA fragmentation increased with time after DEX treatment and the dose of half-maximal response in vivo was estimated to be about 1.8 X 10(-8) M. Internucleosomal cleavage of DNA was only observed in lymphoid tissues (thymus and spleen), but not in other glucocorticoid-sensitive tissues (kidney, liver, heart, brain, or testis). Treatment of rats with estrogen, androgen, or progestin failed to elicit thymocyte DNA degradation. Glucocorticoid-induced DNA cleavage was partly inhibited by the glucocorticoid antagonist RU 486 (17 beta-hydroxy-11 beta,4-dimethylaminophenyl-17 alpha-propynl-estra-4,9-diene-3-one). These findings suggest that glucocorticoids activate, via a receptor-mediated process, an endonuclease-like activity in lymphoid tissues which cleaves the lymphocyte genome at internucleosomal sites. Activation of this nuclease by glucocorticoids precedes lymphocytolysis and may represent the hormonal regulation of programmed cell death.

Cell death in the development of the human retina: phagocytosis of pyknotic and apoptotic bodies by retinal cells

Abstract: Apoptosis is a natural form of cell death and has features in common with aspects of cell deletion observed in the course of human retinal development. In this report, we describe the occurrence of apoptotic cells in various layers of the developing retina. Pyknotic residues were observed within phagosomes of neighbouring retinal cells. Our observations imply that most of the debris resulting from cell death is taken up by adjacent tissue cells rather than by mononuclear phagocyte series cells (macrophages) during early stages of human retinal development.

Kinetic and physical studies of cell death induced by chemotherapeutic agents or hyperthermia.

Abstract: The kinetics of three physical parameters: cell density, relative cytoplasmic viscosity and DNA stability to denaturation have been measured during the period preceding cell death induced by hyperthermia, methylprednisolone and a series of cancer chemotherapeutic agents. This series of measurements employed cultured human lymphoblastoid cells as an experimental system to establish the changes that can be observed in the early stages of cell death, prior to applying such measurements to tissue biopsies from solid human tumours. Cell death, induced by hyperthermia up to 43 degrees C, methylprednisolone, vincristine, 5-fluorouracil, BCNU and melphalan, showed essentially identical and reproducible changes corresponding to those which characterize programmed cell death (apoptosis). Such changes could also be observed following hyperthermia above 43 degrees C, but reproducibility was poor and increasing damage to the cell membranes was evident. In cells treated with adriamycin or methotrexate, cell sub-populations showing an increase in cell density were not detected. Measurements of DNA stability were readily performed by flow cytofluorometry thus allowing rapid quantitation of the fraction of cells in the early stages of cell death. Modified flow cytometric instrumentation would further allow measurement of cytoplastic viscosity as an additional parameter to indicate entry into programmed cell death. This suggests that these measurements could readily be applied to cell suspensions derived from tumour tissue biopsies for a more accurate assessment of tumour growth rate, and to allow monitoring of response to therapy in sequential tumour biopsies.

Kinetic studies on a murine sarcoma and an analysis of apoptosis.

Abstract: A stathmokinetic method has been used to determine the cell cycle parameters, particularly the potential tumour doubling time, of a murine fat pad sarcoma. Additional information has been obtained by determining the percentage of labelled mitoses (PLM). A technique which simultaneously demonstrates autoradiographically labelled S phase nuclei and histochemically localized acid phosphatase activity has also been used at light microscope level to compare these parameters: acid phosphatase activity was demonstrated in tumour cells and macrophages. Single cell deletion by apoptosis has been investigated as distinct from necrosis. Condensed, dying apoptotic cells, have been found in proliferative areas of tumour that are not under physiological stress. The analysis of apoptosis indicated a previously unsuspected variation in apoptotic activity with tumour weight. Cell death by apoptosis initially rose as the tumour grew, but after the tumour reached a threshold weight it declined dramatically, and finally remained stable. This may reflect an initial attempt at autoregulation of tumour size which ultimately fails. Apoptosis was estimated to account for an average of 7% of the total cell loss rate in this tumour.

Evidence for soluble factors regulating cell death and cell proliferation in primary cultures of rabbit endometrial cells grown on collagen.

Abstract: Primary cultures of rabbit endometrial cells grown on collagen substrates exhibit cyclic changes in DNA content throughout extended periods of culture. These cycles are characterized by periods of significant increases and decreases in the DNA content of the cultures or number of cells present, yet through the entire duration of culture there is no net change in the total DNA. The rates of cell proliferation and cell death change through time in culture with the same periodicity as the changes in DNA. Neither changes in the rate of cell proliferation nor the rate of cell death alone are sufficient to account for the changes in DNA. Rather, there appears to be a feedback mechanism operating between cell proliferation and cell death such that when one increases, the other increases concomitantly in order to maintain a homeostasis in total culture mass. This homeostasis appears to be mediated by a soluble cell proliferation factor (CPF) and a cell death factor (CDF) produced by the cells. CPF and CDF may be obtained from either conditioned media or cultured cell extracts. These biological activities are heat and trypsin sensitive. The major mode of cell death in these cultures appears to be apoptosis or programmed cell death, characteristic of renewing epithelia. The data suggest that this tissue culture model system represents a renewing cell population containing stem cells and their progeny, whose total growth is strictly regulated by CPF and CDF. As such, it provides a model system in which to study homeostasis and how it may be altered in hyperplasia and neoplasia, as well as its regulation by hormones.

Cell death (apoptosis) during pancreatic involution after raw soya flour feeding in the rat

Abstract: Involution of the enlarged pancreas was studied in rats changed from a diet of raw soya flour (RSF) to a normal diet of cubes. After feeding RSF for 4 or 12 wk pancreatic weight, DNA, RNA, and protein were all significantly greater than in control animals fed cubes continuously. When these animals were changed to a cube diet, pancreatic DNA and RNA returned to control values within 48 h, while pancreatic weight and protein reverted to control values within 7 days of the change in diet. The morphological changes seen in the pancreas during involution indicate that cell death occurred by the process of apoptosis. Increased cell death during involution was seen as a rapid increase in the incidence of apoptotic bodies (AB) located in the cytoplasm of intact acinar cells and macrophages. These AB's contained condensed fragments of cytoplasm, nuclear, or a combination of these remnants, which were derived from the acinar cell. The increase in apoptosis after withdrawal of the RSF diet was probably in response to the withdrawal of the trophic influence, cholecystokinin.

The morphologic categorization of cell death induced by mild hyperthermia and comparison with death induced by ionizing radiation and cytotoxic drugs.

Abstract: This paper presents a summary of the morphological categorization of cell death, results of two in vivo studies on the cell death induced by mild hyperthermia in rat small intestine and mouse mastocytoma, and a comparison of the cell death induced by hyperthermia, radiation and cytotoxic drugs. Two distinct forms of cell death, apoptosis and necrosis, can be recognized on morphologic grounds. Apoptosis appears to be a process of active cellular self-destruction to which a biologically meaningful role can usually be attributed, whereas necrosis is a passive degenerative phenomenon that results from irreversible cellular injury. Light and transmission electron microscopic studies showed that lower body hyperthermia (43 degrees C for 30 min) induced only apoptosis of intestinal epithelial cells, and of lymphocytes, plasma cells, and eosinophils. In the mastocytoma, hyperthermia (43 degrees C for 15 min) produced widespread tumor necrosis and also enhanced apoptosis of tumor cells. Ionizing radiation and cytotoxic drugs are also known to induce apoptosis in a variety of tissues. It is attractive to speculate that DNA damage by each agent is the common event which triggers the same process of active cellular self-destruction that characteristically effects selective cell deletion in normal tissue homeostasis.

Growth stimulation and apoptosis induced in cultures of neonatal rat liver cells by repeated exposures to epidermal growth factor/urogastrone with or without associated pancreatic hormones.

Abstract: In untreated primary cultures of neonatal rat liver kept in high-calcium (1.8 mmol/l), foetal bovine serum (10%v/v)-containing minimal essential medium (FBSMEM), the absolute numbers of hepatocytes did not change between day 4 and day 9 because ongoing cell loss was counterbalanced by proliferation of a discrete sub-population of the cells. By contrast, the number of stromal cells increased linearly with time. Growth of hepatocytes and stromal cells was differently affected by the daily addition, between day 4 and day 8 of culture, of fresh medium to which peptide mitogen(s) in concentrations ranging from 10-14 to 10-8 mol/l had been added. Epidermal growth factor/urogastrone (EGF/URO) with or without equimolar mixtures of glucagon and insulin, induced first hyperplasia of hepatocytes and stromal cells and then apopotosis (degeneration and death) of the progeny of the stimulated cells. By contrast, equimolar mixtures of glucagon and insulin caused a progressive increase in the number of hepatocytes and stromal cells unbalanced by any increase in cell death. At subphysiological concentrations glucagon, in synergism with EGF/URO and/or some other unknown heat-stable component of serum, acted as a trophic factor for hepatocytes. By contrast, insulin alone did not enhance growth of hepatocytes, but rather blocked the mitogenic effects of EGF/URO. The three hormones exerted neither mitogenic nor apoptotic effects when administered in a low calcium (0.01 mmol/l) FBS-MEM medium. These results reveal that EGF/URO may control the size of cell populations in neonatal liver by calcium-dependent mechanisms that make it unlikely to be a promoter of hepatocyte tumours. They also show that glucagon acts as a positive trophic regulator for hepatocytes.

The Inhibitory Effect of Zinc on the Cadmium-induced Apoptosis in Human Breast Cancer Cells

Abstract: Apoptosis is a positive programmed form of cell death, which eliminates genetically damaged and infected cells from the body, which is of importance for the control of development and of homeostasis in multi cellular organisms (Li et al., 2000; Owuor and Kong, 2002). The morphological and biochemical features of cells undergoing apoptosis are characterized by cell shrinkage, membrane blebbing, and nuclei breaks, and by protein expressions such as Bcl 2 family proteins and caspases (Thornberry and The Inhibitory Effect of Zinc on the Cadmium induced Apoptosis in Human Breast Cancer Cells