Increased cell surface protease activity in UV-irradiated cells undergoing apoptosis.

UVB-irradiated HeLa cells undergoing apoptosis have increased cell surface protease (CSP) activity compared to viable or necrotic cells. In order to elucidate whether caspase 3 plays a role in the activation of CSP in cells undergoing apoptosis, HeLa cell cultures were pre-treated with the caspase inhibitor, DEVD, prior to being exposed to 500 Jm(-2) UVB. DEVD significantly inhibited caspase 3 activity in cells undergoing apoptosis, but did not affect the activation of CSP in these cells. The findings suggest that the activation of CSP in apoptotic cells is unrelated to caspase 3 activity.

Ultrastructural localization of epithelial mucin core proteins in colorectal tissues.

Mucins are high molecular weight glycoproteins with a variety of postulated biological functions, including physicochemical protection from toxins and mutagens, adhesion modulation, signal transduction, and regulation of cell growth. Mucins are widely and differentially expressed in the gastrointestinal tract. To date, studies of cellular expression have relied on light microscopy using in situ hybridization and immunohistochemistry. Although informative, it has been difficult with these techniques to ascertain exactly which cell types are producing a given mucin. We studied expression of MUC1, MUC2, and MUC4 apomucins in a series of normal colon biopsies using a combination of immunoelectron microscopy and light microscopy. MUC1 mucin was localized to both goblet and columnar cells, where it was seen in secretory vesicles, microvilli, and in cytoplasmic remnants in goblet cell thecae. MUC2 expression was restricted to goblet cells, in which reactivity was concentrated in the rough endoplasmic reticulum (RER). MUC4 expression was seen in both columnar and goblet cells, localized to the RER. The inability to detect MUC2 and MUC4 apomucins in the Golgi complex and the mature mucous gel probably represents masking of peptide epitopes following O-glycosylation. This study has helped clarify lineage-specific mucin synthesis in the normal colon.

Tumor necrosis factor-alpha induces apoptosis of human adipose cells.

Tumor necrosis factor-alpha (TNF-alpha) production by adipocytes is elevated in obesity, as shown by increased adipose tissue TNF-alpha mRNA and protein levels and by increased circulating concentrations of the cytokine. Furthermore, TNF-alpha has distinct effects on adipose tissue including induction of insulin resistance, induction of leptin production, stimulation of lipolysis, suppression of lipogenesis, induction of adipocyte dedifferentiation, and impairment of preadipocyte differentiation in vitro. Taken together, these effects all tend to decrease adipocyte volume and number and suggest a role for TNF-alpha in limiting increase in fat mass. The aim of the present study was to determine if TNF-alpha could induce apoptosis in human adipose cells, hence delineating another mechanism by which the cytokine could act to limit the development of, or extent of, obesity. Cultured human preadipocytes and mature adipocytes in explant cultures were exposed in vitro to human TNF-alpha at varying concentrations for up to 24 h. Apoptosis was assessed using morphological (histology, nuclear morphology following acridine orange staining, electron microscopy) and biochemical (demonstration of internucleosomal DNA cleavage by gel electrophoresis and of annexin V staining using immunocytochemistry) criteria. In control cultures, apoptotic indexes were between 0 and 2.3% in all experiments. In the experimental systems, TNF-alpha induced apoptosis in both preadipocytes and adipocytes, with indexes between 5 and 25%. Therefore, TNF-alpha induces apoptosis of human preadipocytes and adipocytes in vitro. In view of the major metabolic role of TNF-alpha in human adipose tissue, and the knowledge that adipose tissue is dynamic (with cell acquisition via preadipocyte replication/differentiation and cell loss via apoptosis), these findings describe a further mechanism whereby adipose tissue mass may be modified by TNF-alpha.

Streptozotocin at low doses induces apoptosis and at high doses causes necrosis in a murine pancreatic beta cell line, INS-1.

The ability of beta cells to endure assaults by various environmental agents, including toxins and viruses, may be relevant to the development of diabetes. We have examined the mode of cell death caused by streptozotocin (STZ) in a murine pancreatic beta cell line, INS-1. Apoptosis was identified by detection of initial endonuclease-mediated DNA strand breaks by DNA gel electrophoresis. Apoptosis and necrosis were distinguished morphologically by light and electron microscopy. Higher rates of apoptosis, as compared to necrosis, were observed when cells were exposed to 15 mM STZ for 1 hr followed by a 24 hrs recovery period. Higher doses of STZ (30 mM) caused the cells to undergo necrosis (22%) as well as apoptosis (17%). These results suggest that the cytotoxic effect of STZ, at low doses, on beta cells involves the activation of the apoptotic pathway, whereas, at high doses, the mode of beta cell death is predominantly necrosis.

Apoptosis in normal epithelium, premalignant and malignant lesions of the oropharynx and oral cavity: a preliminary study.

To explore the involvement of apoptosis in the development of oral and oropharyngeal squamous cell carcinoma (SCC) in vivo, biopsies were taken from patients with macroscopically normal (n = 6), leukoplakic (n = 12) or malignant (n = 8) mucosa. Leukoplakic lesions were divided histologically into dysplasia (n = 5) or carcinoma in situ (CIS: n = 7). Material was prepared for light and electron microscopy. The apoptotic index (AI), vertical cell position of apoptoses (cp), mitotic index (MI) and AI:MI ratio were calculated for each patient. AI increased from 0.12% +/- 0.07 S.E.M. (normal) to 0.58 +/- 0.13 (CIS) but fell to 0.14 +/- 0.14 in SCC. Apoptoses were suprabasal in normals, but generalised in CIS. MI increased from normal (0.20 +/- 0.06) to SCC (0.32 +/- 0.09), and AI:MI was at its maximum in CIS (1.57; SCC: 0.44). The results suggest that a change in apoptosis accompanies the onset of invasion in a premalignant lesion of the human oral cavity and oropharynx.

Human adipocyte apoptosis occurs in malignancy.

Rapid weight loss is frequently seen in malignancy. This weight loss is considered to result from enhanced lipolysis. Here, we show that adipocyte deletion by apoptosis, demonstrated by electron microscopy and DNA gel electrophoresis, occurs in some patients. Adipocyte apoptosis could not be demonstrated in patients without malignancy. These findings suggest that fat cell loss by apoptosis plays a role in malignancy-associated weight loss.

Apoptosis of human adipocytes in vitro.

Large increases in fat stores involve an increase in adipocyte number via the replication and differentiation of preadipocytes, with the resultant cell gain widely regarded as irreversible. To date, there has been no clearly defined process or mechanism reported by which adipocyte deletion may occur. Here, we show that human adipocytes undergo apoptosis following growth factor deprivation or mild heat injury in vitro, thus demonstrating a cellular mechanism by which normal adipocyte loss could occur in vivo. The findings have implications for the understanding of adipose tissue kinetics and its derangement as well as for the potential development of methods for modifying fat store size.

Apoptosis. Its significance in cancer and cancer therapy.

Apoptosis is a distinct mode of cell death that is responsible for deletion of cells in normal tissues; it also occurs in specific pathologic contexts. Morphologically, it involves rapid condensation and budding of the cell, with the formation of membrane-enclosed apoptotic bodies containing well-preserved organelles, which are phagocytosed and digested by nearby resident cells. There is no associated inflammation. A characteristic biochemical feature of the process is double-strand cleavage of nuclear DNA at the linker regions between nucleosomes leading to the production of oligonucleosomal fragments. In many, although not all of the circumstances in which apoptosis occurs, it is suppressed by inhibitors of messenger RNA and protein synthesis. Apoptosis occurs spontaneously in malignant tumors, often markedly retarding their growth, and it is increased in tumors responding to irradiation, cytotoxic chemotherapy, heating and hormone ablation. However, much of the current interest in the process stems from the discovery that it can be regulated by certain proto-oncogenes and the p53 tumor suppressor gene. Thus, c-myc expression has been shown to be involved in the initiation of apoptosis in some situations, and bcl-2 has emerged as a new type of proto-oncogene that inhibits apoptosis, rather than stimulating mitosis. In p53-negative tumor-derived cell lines transfected with wild-type p53, induction of the gene has, in rare cases, been found to cause extensive apoptosis, instead of growth arrest. Finally, the demonstration that antibodies against a cell-surface protein designated APO-1 or Fas can enhance apoptosis in some human lymphoid cell lines may have therapeutic implications.

Ethionine-induced atrophy of rat pancreas involves apoptosis of acinar cells.

The mechanism of acinar cell loss occurring during ethionine-induced atrophy of the pancreas was investigated. Rats were given a standard diet, a protein-depletion diet (PDD), or a PDD with low- (0.04 g/kg body wt; LDE) or high- (0.4 g/kg; HDE) dose ethionine administered intraperitoneally daily for 10 days. Changes were most extensive in the animals given a PDD and HDE: After 10 days, pancreatic weight was reduced by 72%, and most of the acinar cells had disappeared. Prior to their deletion, these cells showed cytoplasmic vacuolation and enhanced autophagy. The main mechanism involved in their deletion was apoptosis, the apoptotic bodies being phagocytosed and degraded by adjacent acinar cells and intraepithelial macrophages. In contrast, necrosis of acinar cells was rare. Interstitial inflammation and apoptosis of capillary endothelial cells were also observed. In animals given a PDD and LDE, enhanced apoptosis occurred later and was more limited in extent, and additional manifestations of cell injury were not evident. As in other circumstances where glandular atrophy is effected by apoptosis, the basic tissue architecture was preserved, thus explaining the known capacity for the pancreas to regenerate after ethionine is discontinued.

Cell death induced by vincristine in the intestinal crypts of mice and in a human Burkitt's lymphoma cell line.

Although vincristine is widely used clinically in the treatment of some human cancers, its mechanism of action has not been clearly established. In this study, the patterns of cell death induced by vincristine in the intestinal crypts of mice and in a human Burkitt's lymphoma cell line were investigated by light and electron microscopy. Vincristine was found to enhance apoptosis of interphase cells in both systems and also to cause the arrest of cells in mitosis, the latter effect being more pronounced in the intestinal crypts. Arrested mitotic cells went on to die by a process that had a number of features in common with apoptosis. These include compaction of chromatin (following coalescence of chromosomes), condensation of the cytoplasm, initial preservation of organelle integrity, and eventually the fragmentation of the cell into a number of membrane-enclosed bodies which are morphologically similar to conventional apoptotic bodies. The results suggest that the cytocidal effect of vincristine is not solely dependent on metaphase arrest but is a cumulative one, resulting both from apoptosis of interphase cells and the 'apoptotic-like' death of cells arrested in metaphase.

Hydroxyurea induces apoptosis and regular DNA fragmentation in a Burkitt's lymphoma cell line.

Hydroxyurea (HU) is an S-phase-specific cytotoxic drug used in the clinical treatment of haematological malignancies. HU treatment has been shown to lead to accumulation of short DNA fragments which show direct correlation with cytotoxicity. Specific regular DNA fragmentation is a biochemical feature of apoptosis (programmed cell death) in some systems. We investigated the effect of HU on a neoplastic (Burkitt's lymphoma) cell line (BM13674) in vitro to determine the role of apoptosis in HU action. HU produced growth inhibition and cell death by apoptosis in BM13674 cells. Low dose HU (66 and 131 mumol/l) gave a growth inhibition effect only with no apoptosis being induced. Higher doses (0.66-13 mmol/l) induced apoptosis in a dose-dependent manner. Regular DNA fragmentation was detected by agarose gel electrophoresis of DNA and this correlated in time with the onset of apoptosis detected by light and electron microscopy. The results do not exclude the possibility that HU directly induces DNA strand breaks, which then initiate apoptosis and accompanying regular fragmentation of DNA in the apoptotic cells.

Ultrastructure of the rat pancreas after experimental duct ligation. II. Duct and stromal cell proliferation, differentiation, and deletion.

Ligation of the pancreas in rats was followed by rapid atrophy of the distal part of the gland, where deletion of the acinar cells by apoptosis and simultaneous extensive proliferation of duct cells resulted in the lobules being converted into groups of closely packed small ducts within 5 days. We found no ultrastructural evidence that cells lining these small ducts arose from acinar cells by a process of dedifferentiation, as has been suggested by some investigators. During the succeeding weeks, some of the ductal lining cells developed islet cell or partial acinar cell differentiation. The latter soon died by apoptosis, and some ductlike and islet cells were also deleted by this means. Most of the apoptotic bodies formed in the ducts were phagocytosed by intraepithelial macrophages. In the longer term, continuing apoptosis eventually resulted in the disappearance of many ducts, only their thickened basal laminae remaining. Differentiation of stromal fibroblasts into contractile myofibroblasts may have contributed to shrinkage of the duct-obstructed glandular tissue, and apoptosis of endothelial cells probably accounted for the associated reduction of the capillary bed.

The role of apoptosis in the response of cells and tumours to mild hyperthermia.

There is now abundant evidence that apoptosis, the cell death mechanism responsible for physiological deletion of cells, can be triggered by mild hyperthermia. However, the overall importance of this mode of death in heated tumours has not yet been established. In this light and electron microscopic study, apoptosis induced by 43 degrees C or 44 degrees C water bath heating for 30 min in a range of murine and human tumours growing in vitro and in four murine tumours growing as solid nodules in vivo, was identified on the basis of its characteristic morphology, and the amount present quantified. Apoptosis was found to play a variable role in the response of tumours to heating, with the lowest levels produced in human melanoma lines (less than 1%) and the highest levels in some Burkitt's lymphoma lines (up to 97%). In these latter tumours the induction of apoptosis is clearly a major component of the hyperthermic response.