Bacterial lipopolysaccharide activates CD57-negative human NK cells.

NK cells play an important regulatory role in sepsis by induction and augmentation of proinflammatory reactions in early stages of the septic process and by suppression of immune response in later stages of inflammation. The present work was aimed at the effect of bacterial lipopolysaccharide (LPS), the main pathogenic factor of sepsis development, on human NK cells ex vivo. We show that LPS activates immature CD57-negative NK cells, which typically constitute less than half of the normal NK cell population in human peripheral blood. Under conditions of NK cell stimulation with IL-2, addition of LPS provokes an increase in IFN-γ production. However, LPS both increased and inhibited NK cell cytotoxic activity. It is important to note that the activation of NK cells on LPS addition was observed in the absence of TLR4 on the NK cell surface. These results confirm our previous data arguing for a direct interaction of LPS with NK cells and evidence an atypical mechanism of LPS-induced NK cell activation without the involvement of surface TLR4.

Accompanying protein alterations in malignant cells with a microtubule-polymerizing drug-resistance phenotype and a primary resistance mechanism.

Microtubules (MTs) are cytoskeletal components whose structural integrity is mandatory for the execution of many basic cell functions. Utilizing parental and drug-resistant ovarian carcinoma cell lines that have acquired point mutations in beta-tubulin and p53, we studied the level of expression and modification of proteins involved in apoptosis and MT integrity. Extending previous results, we demonstrated phosphorylation of pro-survival Bcl-x(L) in an epothilone-A resistant cell line, correlating it with drug sensitivity to tubulin-active compounds. Furthermore, Mcl-1 protein turned over more rapidly following exposure to tubulin-modifying agents, the stability of Mcl-1 protein paralleling the drug sensitivity profile of the paclitaxel or epothilone-A resistant cell lines. The observed decreases in Mcl-1 were not a consequence of G(2)M arrest, as determined by flow cytometry analysis, which showed prominent levels of Mcl-1 in the absence of any drug treatment in populations enriched in mitotic cells. We also observed that a paclitaxel-resistant cell line expressed Bax at a much lower level than the sensitive parental line [A2780(1A9)], consistent with its mutant p53 status. MT-associated protein-4 (MAP4), whose phosphorylation during specific phases of the cell cycle reduces its MT-polymerizing and -stabilizing capabilities, was phosphorylated in response to drug challenge without a change in expression. Phosphorylation of MAP4 correlated with sensitivity to tubulin-binding drugs and with a dissociation from MTs. We propose that the tubulin mutations, which result in a compromised paclitaxel:tubulin or epothilone:tubulin interaction and paclitaxel or epothilone resistance, indirectly inhibit downstream events that lead to cell death, and this, in turn, may contribute to the drug-resistance phenotype

Cyanobacterial stabilized phycobilisomes as fluorochromes for extracellular antigen detection by flow cytometry.

Phycobilisomes are cyanobacterial photosynthetic energy transfer complexes partly composed of phycobiliproteins, proteins that are widely used as conjugable fluorochromes for flow cytometry. The brightness and photostability of phycobiliproteins suggest that intact phycobilisomes could constitute even brighter probes for fluorescence-based detection systems. Stabilized phycobilisomes have been isolated and the red-excited, far red-emitting Spirulina platensis-derived complex PBXL-3 was accessed as a fluorochrome for flow cytometric immunodetection of surface antigens on immune cells. Although the large size of intact phycobilisomes initially precluded efficient cell surface labeling, the addition of a PEG spacer arm between PBXL-3 and its conjugated avidin molecule (designated PBXL-3L) reduced the steric hindrance associated with the high molecular weight PBXL complex. PBXL-3L increased the surface labeling surface-to-noise ratio and subsequent sensitivity by several-fold over commonly used red-excited fluorochromes such as APC. Interestingly, low power laser sources (including helium-neon and red diode) were particularly efficient at exciting PBXL-3. PBXL-3 was also compatible in with other fluorochromes for multicolor flow cytometry applications. In summary, PBXL-3 was found to possess superior sensitivity and efficiency for flow cytometric immunodetection, particularly with low power laser sources.

Four-color flow cytometric detection of retrovirally expressed red, yellow, green, and cyan fluorescent proteins.

Flow cytometric procedures are described to detect a "humanized" version of a new red fluorescent protein (DsRed) from the coral Discosoma sp. in conjunction with various combinations of three Aequorea victoria green fluorescent protein (GFP) variants--EYFP, EGFP, and ECFP. In spite of overlapping emission spectra, the combination of DsRed with EYFP, EGFP, and ECFP generated fluorescence signals that could be electronically compensated in real time using dual-laser excitation at 458 and 568 nm. Resolution of fluorescence signals from DsRed, EYFP, and EGFP was also readily achieved by single-laser excitation at 488 nm. Since many flow cytometers are equipped with an argon-ion laser that can be tuned to 488 nm, the DsRed/EYFP/EGFP combination is expected to have broad utility for facile monitoring of gene transfer and expression in mammalian cells. The dual-laser technique is applicable for use on flow cytometers equipped with tunable multiline argon-ion and krypton-ion lasers, providing the framework for studies requiring simultaneous analysis of four fluorescent gene products within living cells.

Cryptomonad algal phycobiliproteins as fluorochromes for extracellular and intracellular antigen detection by flow cytometry.

BACKGROUND: Phycobiliproteins play an important role in fluorescent labeling, particularly for flow cytometry. The spectral properties of R-phycoerythrin (R-PE) and allophycocyanin (APC) have made them the dominant reagents in this class of fluorochromes. In this study, we evaluate a lesser-known but potentially important series of low-molecular weight cryptomonad-derived phycobiliproteins (commercially termed the CryptoFluortrade mark dyes) for their applicability to flow cytometry, both in extracellular and intracellular labeling applications. METHODS: Several cell lines were labeled with biotin-conjugated antibodies against expressed extracellular surface proteins, followed by streptavidin conjugates of three cryptomonad phycobiliproteins (CryptoFluor-2, CryptoFluor-4, and CryptoFluor-5). Cells were then analyzed by flow cytometry using a variety of laser lines and emission filters to establish the optimal excitation/emission characteristics for each fluorochrome. Some cells were permeabilized and labeled for intracellular antigens, also using the cryptomonad fluorochromes. Where appropriate, parallel samples were labeled with other fluorochromes (including R-PE, APC, the cyanin dyes Cy3 and Cy5, and others) to gauge the performance of the cryptomonad fluorochromes against fluorescent labels previously evaluated for flow cytometry. RESULTS: CryptoFluor-2 possessed excitation/emission maxima similar to those of APC and Cy5, with good excitation in the red (HeNe laser 632 nm) and strong emission in the far red (660 nm). CryptoFluor-4 possessed excitation/emission maxima similar to those of Cy3, with optimal excitation in the green (Kr 530 nm) and strong emission in the yellow/orange (585 nm). CryptoFluor-5 possessed excitation/emission maxima similar to those of lissamine rhodamine, with optimal excitation in the yellow (Kr 568 nm) and emission in the orange (610 nm). All cryptomonad fluorochromes gave satisfactory results for both intracellular and extracellular labeling, with detection sensitivities that were comparable or better than traditional phycobiliproteins and low- molecular weight synthetic fluorochromes such as the cyanin dyes. CONCLUSIONS: The CryptoFluor fluorochromes were applicable to flow cytometric immunodetection, with excitation and emission conditions commonly found on multilaser instruments. Performance of several of these dyes was at least comparable to existing fluorescent labels. The low molecular weights (30-60 kd) of phycobiliproteins may make them particularly useful in intracellular antigen detection. Cytometry 44:16-23, 2001. Published 2001 Wiley-Liss, Inc.

"Rainbow" reporters for multispectral marking and lineage analysis of hematopoietic stem cells.

Hematologic diseases potentially benefiting from gene-based therapies involving hematopoietic stem cells (HSCs) include hereditary hemoglobinopathies, immunodeficiency syndromes, and congenital bleeding disorders such as hemophilia A, as well as acquired diseases like AIDS. Successful treatment of these blood diseases with gene-modified HSCs requires high efficiency gene delivery to the target cell population and persistence of transgene expression following differentiation. We review flow cytometric procedures that permit simultaneous, noninvasive measurements of transgene expression and phenotypic discrimination of hematopoietic cell subsets. Central to this approach has been the recent development of a spectrum of blue, cyan, and yellowish-green fluorescent reporters based on the jellyfish Aequorea victoria green fluorescent protein and the discovery of a red fluorescent protein in DISCOSOMA: coral. This methodology should facilitate the optimization of oncoretroviral and lentiviral vectorology and HSC transduction protocols for the ultimate purpose of HSC-directed gene therapy.

Detection of endogenous and antibody-conjugated alkaline phosphatase with ELF-97 phosphate in multicolor flow cytometry applications.

BACKGROUND: The fluorogenic alkaline phosphatase (AP) substrate 2-(5'-chloro-2'-phosphoryloxyphenyl)-6-chloro-4-(3H)-quinazolinone (ELF(R)-97 phosphate, for Enzyme-Labeled Fluorescence) has been used primarily in microscope-based imaging applications to detect endogenous AP activity, antigens and various ligands in cells and tissues, and nucleic acid hybridization. In a previous study, we demonstrated the applicability of ELF-97 phosphate for detecting endogenous AP activity by flow cytometry. In this study, we show that the spectral characteristics and high signal-to-noise ratio provided by the ELF-97 phosphate make it a useful label for immunodetection via flow cytometry. It can be combined with a variety of other fluorochromes for multiparametric flow cytometry analysis of both endogenous AP activity and intracellular and extracellular immunolabeling with AP-conjugated antibodies. METHODS: ELF-97 phosphate detection of endogenous AP activity in UMR-106 rat osteosarcoma cells was combined with intracellular antigen detection using Oregon Green 488 dye-conjugated secondary antibodies and DNA content analysis using propidium iodide (PI) or 7-aminoactinomycin D (7-AAD). ELF-97 phosphate detection of endogenous AP was also tested for spectral compatibility with a variety of other commonly used fluorochromes. ELF-97 phosphate was then used to directly label intracellular antigens via AP-conjugated antibodies, again combined with the analysis of DNA content using PI and 7-AAD. ELF-97 phosphate was also used to directly detect extracellular antigens. It was combined with Oregon Green 488 dye, phycoerythrin (PE), and PE-Cy5 dye-labeled antibodies for simultaneous four-color analysis. All samples were analyzed on a dual-beam flow cytometer, with UV excitation of the ELF-97 alcohol reaction product. RESULTS: Application of the ELF-97 phosphate to detect AP was found to be compatible with immunodetection and DNA staining techniques. It was also spectrally compatible with a variety of other fluorochromes. Endogenous AP activity could be detected simultaneously with both intracellular antigens labeled using Oregon Green 488 dye, PE, Cy5 dye and Alexa Fluor 568 dye-conjugated antibodies, and DNA content analysis with PI or 7-AAD. This multiparametric assay accurately delineated the distribution of AP in cycling cells and was able to identify cell subsets with varying endogenous AP levels. The ELF-97 alcohol reaction product was found to be an effective label for intracellular antigen immunolabeling with AP-conjugated reagents, and could also be combined with PI and 7-AAD. ELF-97 phosphate was also found to be a useful label for extracellular antigen immunolabeling with AP conjugates, and was compatible with Oregon Green 488 dye, PE, and PE-Cy5 dye-labeled antibodies for four-color surface labeling with minimal spectral overlap and color compensation. CONCLUSIONS: ELF-97 phosphate was shown to be a useful label for both endogenous and antibody-conjugated AP activity as detected by flow cytometry. Its spectral characteristics allow it to be combined with a variety of fluorochromes for multiparametric analysis. Cytometry 43:117-125, 2001. Published 2001 Wiley-Liss, Inc.

Bacterial lipopolysaccharide, TNF-alpha, and calcium ionophore under serum-free conditions promote rapid dendritic cell-like differentiation in CD14+ monocytes through distinct pathways that activate NK-kappa B.

To facilitate the study of signaling pathways involved in myeloid dendritic cell (DC) differentiation, we have developed a serum-free culture system in which human CD14+ peripheral blood monocytes differentiate rapidly in response to bacterial LPS, TNF-alpha, or calcium ionophore (CI). Within 48-96 h, depending on the inducing agent, the cells acquire many immunophenotypical, morphological, functional, and molecular properties of DC. However, there are significant differences in the signaling pathways used by these agents, because 1) LPS-induced, but not CI-induced, DC differentiation required TNF-alpha production; and 2) cyclosporin A inhibited differentiation induced by CI, but not that induced by LPS. Nevertheless, all three inducing agents activated members of the NF-kappaB family of transcription factors, including RelB, suggesting that despite differences in upstream elements, the signaling pathways all involve NF-kappaB. In this report we also demonstrate and offer an explanation for two observed forms of the RelB protein and show that RelB can be induced in myeloid cells, either directly or indirectly, through a calcium-dependent and cyclosporin A-sensitive pathway.

Proliferative response of mantle cell lymphoma cells stimulated by CD40 ligation and IL-4.

Mantle cell lymphoma (MCL) is a tumor of intermediate-size, IgM+, IgD+ B cells derived from the mantle zone of the germinal center. Little is known about its specific immunologic features or responsiveness to T cell-derived signals. In this work, we evaluated the proliferation and cell cycle properties of freshly isolated MCL cells after CD40 ligation, in the absence and presence of interleukin 4 (IL-4). In each MCL case examined, there was a marked growth-enhancing effect of these two stimuli characterized by improved viability, augmented expression of Ki-67, and induction of the proliferating cell nuclear antigen (PCNA). Cyclin D1 was expressed throughout the cell cycle in MCL cells induced to enter S phase. From these investigations, we conclude that the biology of MCL B lymphocytes is affected by CD154 (CD40 ligand) and IL-4, two signals usually provided by CD4+ T cells. The capacity to manipulate the activation and cell cycle state of MCL cells by these specific immunological stimuli may be exploited to confer susceptibility to chemotherapy agents and develop novel therapies in this disease.

Detection of endogenous alkaline phosphatase activity in intact cells by flow cytometry using the fluorogenic ELF-97 phosphatase substrate.

BACKGROUND: The alkaline phosphatase (AP) substrate 2-(5'-chloro-2'-phosphoryloxyphenyl)-6-chloro-4-(3H)-quinazolinone (ELF((R))-97 for enzyme-labeled fluorescence) has been found useful for the histochemical detection of endogenous AP activity and AP-tagged proteins and oligonucleotide probes. In this study, we evaluated its effectiveness at detecting endogenous AP activity by flow cytometry. METHODS: The ELF-97 phosphatase substrate was used to detect endogenous AP activity in UMR-106 rat osteosarcoma cells and primary cultures of chick chondrocytes. Cells were labeled with the ELF-97 reagent and analyzed by flow cytometry using an argon ultraviolet (UV) laser. For comparison purposes, cells were also assayed for AP using a Fast Red Violet LB azo dye assay previously described for use in detecting AP activity by flow cytometry. RESULTS: The ELF-97 phosphatase substrate effectively detected endogenous AP activity in UMR-106 cells, with over 95% of the resulting fluorescent signal resulting from AP-specific activity (as determined by levamisole inhibition of AP activity). In contrast, less than 70% of the fluorescent signal from the Fast Red Violet LB (FRV) assay was AP-dependent, reflecting the high intrinsic fluorescence of the unreacted components. The ELF-97 phosphatase assay was also able to detect very low AP activity in chick chondrocytes that was undetectable by the azo dye method. CONCLUSIONS: The ELF-97 phosphatase assay was able to detect endogenous AP activity in fixed mammalian and avian cells by flow cytometry with superior sensitivity to previously described assays. This work also shows the applicability of ELF-97 to flow cytometry, supplementing its previously demonstrated histochemical applications.

Postthymic development of CD28-CD8+ T cell subset: age-associated expansion and shift from memory to naive phenotype.

During human aging, one of the major changes in the T cell repertoire is a dramatic expansion of T cells with the atypical CD28-CD8+ phenotype. In this study, we show that this increase is a consequence not only of an expansion in the CD28-CD8+ population but also of a decrease in the number of CD28+CD8+ T cells. The decrease in circulating CD28+CD8+ T cells is dramatically accelerated after the age of 50 and is not accompanied by an equivalent reduction in the CD28+CD8+ subset. Our findings confirm that aging leads to an accumulation of CD45RO+ T cells within the CD28+CD8+ subset as previously observed. Surprisingly, we found an increase in CD45RA+ expression with age in the CD28-CD8+ subset. Immune-phenotyping for activation markers, measurement of telomere DNA content, and cytokine production analysis indicate that the large majority of CD28-CD8+ T cells are Ag-experienced, despite their CD45RA+ phenotype. Our study further demonstrates that the poor proliferative response displayed by CD28-CD8+ T cells is not a consequence of telomere shortening. Also, analysis of cytokine production at the single cell level revealed that the proportions of IFN-gamma +, IL-4+, and IL-10+ T cells are considerably higher among the CD28-CD8+ than the CD28+CD8+ subset. In summary, these data explain the presence of CD45RA+ T cells in the elderly, shed light on the phylogenetic origin of CD28-CD8+ T cells, and suggest a role for these cells in the immune senescence process.

Aging increases CD8 T cell apoptosis induced by hyperstimulation but decreases apoptosis induced by agonist withdrawal in mice.

Apoptosis of T cells is thought to play a critical role in intrathymic T cell selection, in controlling the strength of the immune response to antigens, and in peripheral modulation of the T cell repertoire by influencing memory cell formation and survival. Peripheral T lymphocyte apoptosis or activation-induced cell death can be induced in vitro by repeated stimulation through the T cell receptor (TCR), and several groups have reported that aging increases the susceptibility of T cells to hyperstimulation-induced cell death in mice and humans. Alternately, apoptosis can also be induced in T cells by withdrawal of TCR stimulation from T cell blasts late in the activation process. This agonist withdrawal cell death, unlike apoptosis induced by repeated stimulation, is Fas- and TNFalpha-independent but is modulated by CD30 ligation. We show here that aging leads to an increase in susceptibility to apoptosis induced by repeated stimulation, but also to a decline in mouse CD8 T cell sensitivity to apoptosis induced by agonist withdrawal. Cell mixture experiments show that intercellular signals are required for the induction of apoptosis after agonist withdrawal and that the CD8 cells from aged mice can respond to these death-inducing signals but cannot produce them. A defect in this form of apoptosis after cessation of TCR signaling might contribute to the accumulation of functionally ineffective CD8 cells in aging mice.

The effect of spaceflight on cartilage cell cycle and differentiation.

In vivo studies have shown that spaceflight results in loss of bone and muscle. In an effort to understand the mechanisms of these changes, cell cultures of cartilage, bone and muscle have been subjected to spaceflight to study the microgravity effects on differentiated cells. However it now seems that the cell differentiation process itself may be the event(s) most affected by spaceflight. For example, osteoblast-like cells have been shown to have reduced cellular activity in microgravity due to an underdifferentiated state (Carmeliet, et al, 1997). And reduced human lymphocyte growth in spaceflight was related to increased apoptosis (Lewis, et al, 1998). Which brings us to the question of whether reduced cellular activity in space is due to an effect on the differentiated cell, an effect on the cell cycle and cell proliferation, or an effect on cell death. This question has not been specifically addressed on previous flights and was the question behind the present study.

Spontaneous apoptosis and expression of cell surface heat-shock proteins in cultured EL-4 lymphoma cells.

The expression of heat-shock proteins (HSPs) is enhanced in stressed cells and can protect cells from stress-induced injury. However, existing data about the relationship between apoptosis and HSP expression is contradictory. In this paper, a mouse lymphoma cell death model system is used to detect simultaneously both the process of apoptosis and the level of HSP expression. The model was established after discovering that spontaneous apoptosis and spontaneous cell surface HSP expression occurs in EL-4 mouse lymphoma cells during normal optimal culture conditions. The data show that apoptotic EL-4 cells had higher levels of hsp25, hsp60, hsp70 and hsp90 exposed on the plasma membrane surface than viable cells. The level of surface HSPs was found to increase through several stages of early and late apoptotic death as measured by flow cytometry, with the highest levels observed during the loss of cell membrane phospholipid asymmetry. Heat shock and actinomycin D significantly increased the proportion of apoptotic cells in culture. However, hyperthermia only stimulated a weak and temporary increase in surface HSP expression, whereas actinomycin D strongly elevated the level of surface and intracellular HSPs, particularly in live cells. These results show an associative relationship between apoptosis and HSP expression. The relationship between the progression of cell death and HSP expression suggests a role for membrane HSP expression in programmed cell death.

Increased apoptosis of bone marrow pre-B cells in old mice associated with their low number.

The number of bone marrow pre-B cells is significantly lower in 18- than in 2-month-old BALB/c mice. The percentage of apoptotic pre-B cells, freshly isolated or cultured, from 18-month-old mice was significantly greater than from 2-month-old mice. The increased percentage of apoptotic pre-B cells from old mice was associated with a decreased level of bcl-xL mRNA, detected by RT-PCR, and of Bcl-xL protein, detected by intracellular staining. Consistent with an age-associated increase in apoptosis in pre-B cells was the fact that significantly fewer pre-B cells were generated after in vitro cultures of pro-B cells from old as compared to young mice. Furthermore, fewer pre-B cells survived and fewer sIg-expressing B cells were generated in cultures of pre-B cells from old as compared to young mice. In addition, there was no detectable difference in the secretion of IL-7 by bone marrow cells from 2- or 18-month-old mice. Thus, increased apoptosis of bone marrow pre-B cells in old mice appears to contribute to their decreased number.

Zinc reversibly inhibits steroid binding to murine glucocorticoid receptor.

Previous work has demonstrated that several transition metals and their anions, including cadmium, arsenite, and selenite, can inhibit glucocorticoid binding to glucocorticoid receptors in vitro. In this study, we demonstrated that in vitro zinc can also inhibit the binding of glucocorticoids to their receptor at relatively modest concentrations (10 to 100 microM). This inhibition was demonstrated in both crude and immunopurified receptor preparations and was reversible following removal of zinc. Inhibition could also be reversed by addition of the reducing agent dithiothreitol (DTT). This suggested that zinc might be acting by interacting with the vicinal dithiols in the steroid binding region of the receptor as previously described for other transition metals and anions. The ability of a biologically important trace metal to block steroid binding suggests a role for zinc in the regulation of glucocorticoid receptor-ligand interactions and may explain the ability of zinc to block glucocorticoid-induced apoptosis.

A reappraisal of the role of zinc in life and death decisions of cells.

There is a great deal of interest in chemicals and biochemicals that can modulate apoptosis. As will be discussed, zinc, an essential trace element, can induce as well as block apoptosis. High concentrations of extracellular zinc (500-1000 microM) have frequently been used to block apoptosis or programmed cell death in a variety of systems. Early investigators provided evidence that this concentration of zinc could block DNA fragmentation that is often associated with apoptosis. Since zinc plays a role in many aspects of cell function, there are probably many sites in a death pathway that zinc could potentially modulate. In the case of glucocorticoid-mediated apoptotic death, new evidence presented herein indicates that high zinc can also block the binding of steroids to the glucocorticoid receptor thereby inhibiting the death signal itself. In this case, zinc probably binds to the vicinal cysteines in the receptor ligand binding site thereby blocking binding of glucocorticoid. Indeed, glucocorticoid-induced apoptosis in thymocytes has become one of the most frequently studied systems and is a focal point of this review. Studies herein will show that unlike zinc other trace-like metals such as nickel, copper, cadmium, and gold do not afford thymocytes protection against the DNA fragmentation induced by glucocorticoid-mediated cell death. Interestingly, in attempting to determine if lower or more physiological concentrations of zinc could provide protection against apoptosis, it was found that 80-200 microM zinc could actually induce death in 40% of CD4+ CD8+ alpha beta TCR10CD3(10) thymocytes. From these experiments one might have been optimistic that zinc could, indeed, be a modulator of cell death. However, this thought has been overshadowed by growing evidence that zinc does not provide long-term protection to so-called surviving cells.

CD30-regulated apoptosis in murine CD8 T cells after cessation of TCR signals.

A variety of culture systems have been developed to study mechanisms of activation-induced cell death in peripheral T lymphocytes either during the initial period after exposure to an activating stimulus or following repeated stimulation of activated T cells. In this study we describe a new culture model for the analysis of apoptosis after withdrawal of TCR signals from activated T cells. T cells activated by anti-CD3 antibodies for 48 h and then further cultured in the presence of IL-2 but absence of continued CD3/TCR stimulation underwent dramatic cell death approximately 4 days following removal of the TCR stimulus. Apoptotic cells generated in this protocol, unlike those produced by hyperstimulation, retained substantial levels of degraded DNA following fixation, consistent with death in the G0/G1 phase of the cell cycle. This "agonist withdrawal" cell death occurred largely within the CD8 T cell subset, with CD4 cells showing lower levels of apoptosis. This form of cell death did not appear to be the result of IL-2 exhaustion, since repeated addition of IL-2 during the culture period did not significantly alter the number of apoptotic cells. Apoptosis induced by agonist withdrawal was not blocked by Fas antigen fusion protein or by anti-TNF alpha-neutralizing antibodies, suggesting a mechanism independent of Fas/FasL and TNF alpha/TNF-R interactions. Cell death was, however, significantly inhibited by treatment with a CD30 fusion protein. CD30 was found to be transiently expressed on CD8 T cells immediately prior to death, with lower expression on CD4 cells, while CD30 ligand was found to be expressed most strongly by CD4 T cells. These results suggest a role for CD30 in regulating the onset of apoptosis in CD8 T cells after interruption of CD3/TCR.

Detection of plasma membrane Ca(2+)-ATPase activity in mouse T lymphocytes by flow cytometry using fluo-3-loaded vesicles.

The plasma membrane Ca(2+)-ATPase (PMCA) is the primary means by which many cell types pump calcium out of the cytosol following release of calcium from internal stores, returning intracellular calcium concentrations to normal levels. Traditional methods for measuring PMCA activity utilizing isotopic calcium uptake into inside-out (IO) membrane vesicles have poor specificity for PMCA activity and require large numbers of cells. A flow cytometric method has been devised that allows the measurement of calcium uptake in IO vesicles using the fluorescent calcium chelator fluo-3. IO vesicles from mouse lymphocytes were loaded with fluo-3 pentapotassium salt and analyzed by flow cytometry following treatment with buffered calcium and/or ATP. IO vesicles appeared as a subpopulation of low forward-scatter/low side-scatter events, which were distinguishable from higher side-scatter debris. Treatment of vesicles with calcium and ATP resulted in a 5-fold to 30-fold increase in IO vesicle fluo-3 fluorescence. Measurement of uptake kinetics gave K0.5 values of approximately 0.2-0.8 microM and 2 mM for calcium- and ATP-stimulated PMCA activity, respectively, which were consistent with published values obtained by other methods. Broad specificity P-type ATPase inhibitors and more narrowly specific PMCA and calmodulin inhibitors all blocked calcium uptake, whereas thapsigargin (an endoplasmic/sarcoplasmic reticulum (ER/SR-AT-Pase) inhibitor) had no effect, indicating that the assay provides a specific measure of vesicular PMCA activity. Flow cytometric analysis, therefore, may represent a useful approach for quantifying PMCA activity in mammalian cells.