Showing papers by "Eng M. Tan published in 1996"

The cytotoxic cell protease granzyme B initiates apoptosis in a cell-free system by proteolytic processing and activation of the ICE/CED-3 family protease, CPP32, via a novel two-step mechanism.

Abstract: The major mechanism of cytotoxic lymphocyte killing involves the directed release of granules containing perforin and a number of proteases onto the target cell membrane. One of these proteases, granzyme B, has an unusual substrate site preference for Asp residues, a property that it shares with members of the emerging interleukin-1beta-converting enzyme (ICE)/CED-3 family of proteases. Here we show that granzyme B is sufficient to reproduce rapidly all of the key features of apoptosis, including the degradation of several protein substrates, when introduced into Jurkat cell-free extracts. Granzyme B-induced apoptosis was neutralized by a tetrapeptide inhibitor of the ICE/CED-3 family protease, CPP32, whereas a similar inhibitor of ICE had no effect. Granzyme B was found to convert CPP32, but not ICE, to its active form by cleaving between the large and small subunits of the CPP32 proenzyme, resulting in removal of the prodomain via an autocatalytic step. The cowpox virus protein CrmA, a known inhibitor of ICE family proteases as well as granzyme B, inhibited granzyme B-mediated CPP32 processing and apoptosis. These data demonstrate that CPP32 activation is a key event during apoptosis initiated by granzyme B.

Selective cleavage of nuclear autoantigens during CD95 (Fas/APO-1)-mediated T cell apoptosis.

Abstract: Intracellular proteases appear to be important mediators of apoptosis Substrates cleaved by proteases during apoptosis include nuclear autoantigens targeted in systemic autoimmune diseases Using human autoantibodies as probes, we demonstrate here that T cell apoptosis mediated by CD95 (Fas/APO-1) is associated with substantial cleavage of a subset of nuclear autoantigens (7 of 33 examined) This subset included poly (ADP-ribose) polymerase, the 70-kD protein of the U1 small nuclear ribonucleoprotein particle, lamin B, the nuclear mitotic apparatus protein NuMA, DNA topoisomerases I and II, and the RNA polymerase I upstream binding factor UBF Several of the cleaved autoantigens are involved in ensuring the integrity and proper conformation of DNA in the nucleus through interactions with the nuclear matrix, suggesting the possibility that their cleavage may contribute to the collapse of nuclear structure during apoptosis The relative cleavage kinetics indicated that the autoantigens were targeted at various times after induction of apoptosis, suggesting either differential accessibility or activation of distinct proteases during the cell death process These data reinforce the hypothesis that apoptosis is accompanied by selective cleavage of key substrates and not by a generalized degradation of intracellular material

Recent Developments in the Understanding of Antinuclear Autoantibodies

Abstract: Studies of antinuclear autoantibodies (ANAs) associated with systemic autoimmune diseases and their target autoantigens have revealed several key features of the nature of the ANA response. First, each systemic autoimmune disease has a characteristic ANA spectrum, suggesting that specific inciting antigens must be associated with each disease. Second, ANAs are directed against components of functionally important subcellular particles. Third, ANAs recognize highly conserved, conformation-dependent epitopes associated with active regions of the targeted subcellular particle. Fourth, ANAs often target autoantigens associated with active cell division or proliferation. These features support the hypothesis that ANAs are driven by subcellular particles such as organelles or macromolecular complexes which might be in an activated or functional state. This hypothesis leads to the central question of how endogenous subcellular particles that are normally sequestered can be released from cells and exposed to the immune system in a manner that renders them capable of driving a sustained ANA response. An emerging view is that apoptosis could be a mechanism by which potentially immunostimulatory self-antigens might be released from cells. Unregulated cell death or aberrant phagocytic clearance and presentation of debris from dying cells might facilitate the exposure to the immune system of excessive amounts of intracellular material which could potentially induce and maintain, by repeated stimulation, an ANA response.

Nuclear autoantigen p330d/CENP-F: A marker for cell proliferation in human malignancies

Abstract: p330d, also known as CENP-F, is a newly characterized cell cycle specific nuclear autoantigen which is associated both with the centromeres and the nuclear matrix. It is expressed in low amounts in G0/G1-cells and accumulates in the nuclear matrix during S-phase with a maximum expression in G2/M-cells. In the present study we have investigated if p330d/CENP-F could be used as a marker for proliferation in different human malignancies. A flow cytometric method was developed by which p330d/CENP-F expression and DNA-content could be assessed on hematopoietic and solid tumors. Twenty-four different human hematopoietic malignancies, 12 breast cancers, and several cell lines were analyzed and the number of p330d/CENP-F positive cells and the S-phase fraction were determined. The percentage of p330d/CENP-F positive cells correlated with the fraction of S-phase cells in all human malignancies tested. Various cell lines revealed a similar cell cycle specific distribution. The association of p330d/CENP-F with the nuclear matrix facilitated the flow cytometric analysis of this protein due to its resistance to different preparation and fixation procedures. In summary, p330d/CENP-F seems to be a potentially valuable proliferation marker which can be applied to different tumors.

Antinuclear autoantibodies: probes for defining proteolytic events associated with apoptosis

Abstract: Antinuclear autoantibodies (ANAs) derived from patients with systemic autoimmune diseases have proven to be powerful tools in cell and molecular biology. The availability of these autoantibodies has been instrumental in the identification and characterization of a wide range of intracellular proteins involved in essential cellular activities. Recently, these autoantibodies have been used in molecular studies of apoptosis, particularly in the identification of substrates cleaved by proteases of the ICE/CED-3 family during this cell death pathway. The identification of these substrates may help to understand the role of proteolysis in apoptosis. Examples of nuclear autoantigens whose cleavage during apoptosis have been defined using ANAs include the 70 kD protein of the U1 small nuclear ribonucleoprotein particle (U1-70 kD), the nuclear mitotic apparatus protein (NuMA), DNA topoisomerase I, the RNA polymerase I upstream binding factor (UBF), and the catalytic subunit of DNA-dependent protein kinase (DNA-PKcs). The use of ANAs as probes for defining proteolytic events associated with apoptosis promises to yield important insights into the mechanisms driving this cell death pathway.

Expression of proliferation-associated nuclear autoantigens, p330d/CENP-F and PCNA, in differentiation and in drug-induced growth inhibition using two-parameter flow cytometry

Abstract: p330d/CENP-F is a recently described nuclear autoantigen that was detected in PHA-stimulated but not in resting peripheral lymphocytes. This protein accumulates in the nucleus during S-phase and reaches maximum levels during the G2 and M phases of the cell cycles. We compared the expression of p330d/CENP-F and proliferating cell nuclear antigen (PCNA) during the induction of terminal myeloid differentiation of HL-60 tumour cells. HL-60 cells were induced to differentiate with retinoic acid (RA), dimethyl sulfoxide (DMSO), and 3-nitrobenzothiazolo [3,2-]quinolinium (NBQ), and collected at different intervals. Control and treated cells were analyzed by two-parameter flow cytometry using propidium iodide and antibodies to p330d/CENP-F and PCNA. The percentage of p330d/CENP-F and PCNA positive cells was found to be proportional to the percentage of proliferating cells. After two cell cycles (65 h), the percentage of p330d/CENP-F and PCNA positive cells was reduced proportionately to the number of cells that had differentiated. Reduction in the expression of both antigens was completed after 120 h when 80% to 85% of the cells were arrested in G1 and displayed the mature phenotype. The expression of p330d/CENP-F and PCNA was also assessed in the growth inhibition of HT-29 cells induced by various concentrations of camptothecin (CPT), etoposide (VP-16), and aphidicolin (APH). There was a dose-dependent displacement of cells to late S-phase by CPT while VP-16 induced cells to accumulate in G2+ M, and as expected these effects caused a strong increase in the cellular levels of both antigens. The arrest of cells in G1 by APH led to a significant decrease in their expression. The dramatic reduction in p330d/CENP-F levels during differentiation, and the correlation of its expression with the cell cycle effects of the cytotoxic drugs are consistent with the behaviour expected for a proliferation marker.