Synthetic retinoid CD437 induces S-phase arrest and apoptosis in human prostate cancer cells LNCaP and PC-3.

BACKGROUND: Exposure of prostate carcinoma cell lines to retinoids, which function through the classical retinoic acid nuclear receptor, (RARs) or retinoid X receptors (RXRs), results in minimal cytostatic inhibition of cell proliferation. METHODS: Growth inhibition and various regulatory responses were investigated in two human prostate carcinoma cell lines (LNCaP and PC-3) treated with or without a synthetic retinoid, CD 437. RESULTS: Incubation of prostate carcinoma cell lines with a novel retinoid CD437 resulted in the marked inhibition of proliferation. LNCaP and PC-3 possessed IC50 values for CD437 of 375 nM and 550 nM, respectively. Incubation with 1 microM CD437 for 24 hr resulted in 100% and 60% inhibition of growth in LNCaP and PC-3 cells, respectively. Simultaneously, cell flow cytometric analyses revealed a dramatic increase of the cell population in S phase, in both LNCaP (from 38.6% up to 86.7%) and PC-3 (27.9% to 55.7%), and a decreased proportion of cells in G2 phase, in LNCaP (from 23.7% down to 1.2%) and PC-3 (14.9% to 2.2%), indicating a significant S-phase arrest. The cell growth inhibition and S-phase arrest in these cells were followed by apoptosis, as revealed by the acquisition of the characteristic cell morphology including the appearance of apoptotic bodies, and further confirmed by cellular DNA fragmentation. CD437-induced-S phase arrest was associated with upregulated mRNA levels of p21waf1/cip1/sdi1 in both LNCaP (p53+/+) and PC-3 (53-/-) cells. CONCLUSIONS: CD437 represents a unique retinoid that induces S-phase arrest and apoptosis in both androgen-dependent (LNCaP) and -independent (PC-3) human prostate cancer cells, suggesting a potential role of CD437 in the treatment of human prostate cancer.

Overexpression of bcl-2 or bcl-XL fails to inhibit apoptosis mediated by a novel retinoid.

Overexpression of bcl-2 or bcl-XL has been found to inhibit the induction of apoptosis in malignant cells by a large number of agents including a wide variety of chemotherapeutic drugs. CD437 ¿6-[3-(1-adamantyl)-4 hydroxyphenyl]-2-naphthalene carboxylic acid¿ is a novel retinoid that induces apoptosis in a number of malignant cells through a unique mechanism of action. The addition of 1 microM CD437 to HL-60/NEO cells resulted in capase 3 (CPP32) activation and poly(ADP-ribose) polymerase (PARP) cleavage in 3 h whereas in bcl-2- or bcl-XL-overexpressing HL-60 cells CD437 induced CPP32 activation and PARP cleavage in 6 h. Although 50 and 300 nM CD437 were required to induce PARP cleavage in HL-60/NEO and HL-60/bcl-2, HL-60/bcl-XL cells, respectively, maximal apoptosis in both cell lines was achieved utilizing 300 nM CD437. All three cell lines, however, share identical dose-response curves in terms of their growth inhibition, suggesting that CD437-mediated inhibition of growth and induction of apoptosis represent two distinct and separable processes. In addition, CD437 induces GI arrest as well as p21WAFI/CIPI mRNA expression in these cells despite the overexpression of bcl-2 or bcl-XL. CD437 induced mitochondrial instability as indicated by cytochrome c leakage into the cytoplasm in all three cell lines. CD437 also induced growth inhibition and apoptosis of an apoptosis-resistant variant of the HL-60 cell line (HCW-2), which switched expression from bcl-2 to bcl-XL. CD437-mediated apoptosis is not accompanied by downregulation of bcl-2 or bcl-XL or upregulation of bax. The reason for the inability of bcl-2 or bcl-XL overexpression to inhibit CD437-mediated apoptosis is unclear. The ability of CD437 to initiate apoptosis in a spectrum of malignant cells without interference from bcl-2 or bcl-XL overexpression suggests that CD437 may possess significant therapeutic potential in the treatment of malignancy.

Methamphetamine induces apoptosis in immortalized neural cells: protection by the proto-oncogene, bcl-2.

Methamphetamine (METH) is an amphetamine analog that produces degeneration of the dopaminergic system in mammals. The neurotoxic effects of the drug are thought to be mediated by oxygen-based free radicals. In the present report, we have used immortalized neural cells obtained from rat mesencephalon in order to further assess the role of oxidative stress in METH-induced neurotoxicity. We thus tested if the anti-death proto-oncogene, bcl-2 could protect against METH-induced cytotoxicity. METH caused dose-dependent loss of cellular viability in control cells while bcl-2-expressing cells were protected against these deleterious effects. Using flow cytometry, immunofluorescent staining, and DNA electrophoresis, we also show that METH exposure can cause DNA strand breaks, chromatin condensation, nuclear fragmentation, and DNA laddering. All these changes were prevented by bcl-2 expression. These observations provide further support for the involvement of oxidative stress in the toxic effects of amphetamine analogs. They also document that METH-induced cytotoxicity is secondary to apoptosis. These findings may be of relevance to the cause(s) of Parkinson's disease which involves degeneration of the nigrostriatal dopaminergic pathway.

Dietary coenzyme Q10 supplementation alters platelet size and inhibits human vitronectin (CD51/CD61) receptor expression.

Improved cardiovascular morbidity and mortality have been observed in several clinical studies of dietary supplementation with coenzyme Q10 (CoQ10, ubiquinone). Several mechanisms have been proposed to explain the effects of CoQ10, but a comprehensive explanation of its cardioprotective properties is still lacking. One attractive theory links ubiquinone with the inhibition of platelets. The effect of CoQ10 intake on platelet size and surface antigens was examined in human volunteers. Study participants received 100 mg of CoQ10 twice daily in addition to their usual diet for 20 days. Receptor expression was measured by flow cytometry with monoclonal murine anti-human antibodies CD9 (p24), CD42B (Ib), CD41b (IIb), CD61 (IIIa), CD41a (IIb/IIIa), CD49b (VLA-2), CD62p (P selectin), CD31 (PECAM-1), and CD51/CD61 (vitronectin). An increase of total serum CoQ10 level (from 0.6 +/- 0.1 to 1.8 +/- 0.3 micrograms/ml; p < 0.001) was found at protocol termination. Fluorescence intensity was higher for the large platelets when compared with the whole platelet population. Significant inhibition of vitronectin-receptor expression was observed consistently throughout ubiquinone treatment. Reduction of platelet size was observed at the end of CoQ10 supplementation. Inhibition of the platelet vitronectin receptor and a reduction of the platelet size are direct evidence of a link between dietary CoQ10 intake and platelets. These findings may not be fully explained by the known antioxidant and bioenergetic properties of CoQ10. Diminished vitronectin-receptor expression and reduced platelet size resulting from CoQ10 therapy may contribute to the observed clinical benefits in patients with cardiovascular diseases.

Could coenzyme Q10 affect hemostasis by inhibiting platelet vitronectin (CD51/CD61) receptor?

Improved cardiovascular morbidity and mortality have been observed in several clinical studies of dietary supplementation with coenzyme Q10 (CoQ10, ubiquinone). Several mechanisms have been proposed to explain the effects of CoQ10. One attractive theory links ubiquinone with the inhibition of platelets. The effect of CoQ10 intake on platelet surface antigens, and certain hemostatic parameters was examined in 15 humans and 10 swine. Study participants received 100 mg of CoQ10 twice daily in addition to their usual diet for 20 days resulting in a three-fold increase of total serum CoQ10 level. We observed a decline in plasma fibronectin (-20.2%), thromboxane B2 (-20.6%), prostacyclin (-23.2%), and endothelin-1 (-17.9%) level. Significant inhibition of vitronectin receptor expression was observed consistently throughout ubiquinone treatment. Inhibition of the platelet vitronectin receptor is a direct evidence of a link between dietary CoQ10 intake, platelets, and hemostasis. These findings may contribute to the observed clinical benefits by a diminished incidence of thrombotic complications in such patients.

N-(4-hydroxyphenyl)retinamide (4-HPR)-mediated biological actions involve retinoid receptor-independent pathways in human breast carcinoma.

Retinoid response pathways involve retinoic acid receptors (RARs) and retinoid X receptors. N-(4-hydroxyphenyl) retinamide (4-HPR), a derivative of all-trans-retinoic acid (RA) is currently in clinical trials as a chemopreventive agent for breast cancer. The issue whether 4-HPR mediates its biological actions via classical retinoid receptor pathways remains to be investigated. In this study, we provide several lines of evidence that 4-HPR mediates its biological actions via a novel pathway(s) that does not involve the classical retinoid receptor pathways. For example, 4-HPR was more potent than RA as an antiproliferative agent and inhibited growth of otherwise RA-resistant human breast carcinoma cells. Exposure to 4-HPR resulted in the generation of DNA fragmentation with subsequent cell death in both RA-positive estrogen receptor (ER)-positive as well as RA-refractory ER-negative breast carcinoma cell lines. N-(4-Methoxyphenyl)retinamide (4-MPR), which is the major 4-HPR metabolite in circulation, was biologically inert in this system. 4-HPR and 4-MPR bound poorly to the RAR alpha, beta and gamma in vitro and only minimally activated the retinoic acid receptor element (RARE) and retinoid X receptor response elements (RXREs) in human breast carcinoma cells. Neither 4-HPR nor 4-MPR are metabolized to any of the known conventional retinoids. In addition, 4-HPR or 4-MPR transactivation of RAREs or RXREs transfected into MCF-7 and MDA-MB-231 cells was not noted at 48 h. Nevertheless 4-HPR-mediated cell death was observed at 48 h, further suggesting that neither 4-HPR nor 4-MPR are metabolized to retinoids which activate the RAREs or RXREs in breast carcinoma cells. Furthermore, unlike RA, which exhibited anti-AP1 activity, 4-HPR inhibition of growth did not involve anti-AP1 activity. These results suggest that 4-HPR acts by a unique pathway that is not mediated by retinoid receptors.

An etoposide-resistant lung cancer subline overexpresses the multidrug resistance-associated protein.

We have characterised an etoposide-resistant subline of the small-cell lung cancer cell line, UMCC-1, derived at our centre. Subline UMCC-1/VP was developed by culturing the parent line in increasing concentrations of etoposide over 16 months. UMCC-1/VP is 20-fold resistant to etoposide by MTT assays, relative to the parent line, and is cross-resistant to doxorubicin, vincristine and actinomycin D, but not to taxol, cisplatin, melphalan, thiotepa or idarubicin. Topoisomerase II immunoblotting demonstrates a 50% reduction of the protein in the resistant subline. The UMCC-1/VP subline demonstrates a marked decrease in the accumulation of [3H]etoposide relative to the parent line, as well as a modest reduction in the accumulation of daunorubicin. Reverse transcription-polymerase chain reaction assays demonstrate no detectable mdr1 expression but marked expression of the multidrug resistance-associated protein (MRP) gene in the resistant subline. Northern blotting with an MRP cDNA probe confirms marked overexpression of the MRP gene only in the UMCC-1/VP subline. Western blotting with antisera against MRP peptide confirms a 195 kDa protein band in the UMCC-1/VP subline. Southern blotting experiments demonstrate a 10-fold amplification of the MRP gene in the resistant subline. Depletion of glutathione with buthionine sulphoximine sensitised UMCC-1/VP cells to daunorubicin and etoposide. Our studies indicate that MRP gene expression may be induced by etoposide and may lead to reduced accumulation of the drug.

p53 independent G0/G1 arrest and apoptosis induced by a novel retinoid in human breast cancer cells.

The biological activity of a novel synthetic retinoid 6-[3-(1-adamantyl)-4-hydroxyphenyl]-2-naphthalene carboxylic acid (AHPN) was investigated in human breast carcinoma (HBC) cells. Although capable of selective binding to the RAR gamma nuclear receptor, AHPN inhibited the growth of a number of HBC cell lines via RAR- or RXR-independent pathways. AHPN also inhibited the growth of the human leukemia cell line HL-60R which does not possess functional RARs. RA significantly inhibited AP-1 mediated gene activation in MCF-7 cells while AHPN displayed no such anti-AP-1 activity. Retinoids normally are cytostatic in their inhibition of breast carcinoma growth and permit cell proliferation upon their removal, wher as AHPN induced G0/G1 arrest within 6h followed by apoptosis. In MCF-7 cells that harbor wild type p53, AHPN-induced G0/G1 arrest and apoptosis was accompanied by p53-independent regulation of WAF1/CIP1 as well as bax mRNA levels while bcl-2 mRNA levels were decreased. In MDA-MB-231 cells which possess a mutant p53, AHPN-mediated G0/G1 arrest and apoptosis was also associated with a concomitant up regulation of WAF1/CIP1 mRNA while these cells did not express bax or bcl-2 messages. Thus AHPN represents a novel retinoid that induces G0/G1 arrest and apoptosis via a unique pathway which appears to involve activation of known downstream effectors of p53 in a p53-independent manner.

Amphotericin B susceptibility of Candida species assessed by rapid flow cytometric membrane potential assay.

A method for detection of the susceptibility of Candida species to amphotericin B is described. The technique is a modification of a similar flow cytometric technique designed to detect antibiotic susceptibility of Staphylococcus aureus. Membrane potential changes caused by the antibiotic are measured flow cytometrically by using the fluorescent membrane potential-sensitive dye 3,3'-dipentyloxacarbocyanine iodide. One strain each of C. albicans and C. tropicalis (both sensitive to amphotericin B) and one strain of C. tropicalis (resistant to amphotericin B) were used to validate the method. Sensitivity or resistance was easily determined after 30 min of incubation in the presence of the antibiotic, and the drug effect was evident in a dose-dependent manner.

Mechanisms of regulation of WAF1/Cip1 gene expression in human breast carcinoma: role of p53-dependent and independent signal transduction pathways.

WAF1/Cip1 was recently identified as the wild-type p53 target that appears to mediate the tumor suppressing effects of p53. We investigated the mechanisms of regulation of WAF1/Cip1 gene expression in human breast carcinoma (HBC) cells. Our results demonstrate that the HBC cells harboring wild-type p53 express 26-33-fold higher WAF1/Cip1 mRNA levels than the cells harboring mutant p53. The DNA damaging agent etoposide induced p53 accumulation only in cells harboring wild-type p53 yet it induced WAF1/Cip1 gene expression in cells carrying wild-type or mutant p53, suggesting the involvement of p53-dependent and independent signaling pathways in the regulation of WAF1/Cip1 gene expression. Serum starvation-induced growth arrest although not altering the endogenous p53 levels or its ability to transactivate the reporter gene, induced WAF1/Cip1 gene expression in cells carrying wild-type as well as mutant p53. These results further implicated the involvement of p53-independent signal transduction pathways in WAF1/Cip1 gene regulation. Our data also suggest that WAF1/Cip1 gene expression is tightly associated with cell cycle progression in cells containing either wild-type or mutant p53. WAF1/Cip1 expression was transiently induced in response to serum treatment and declined as the cells passed through the S-phase of the cell cycle. We thus provide evidence that the mechanisms of WAF1/Cip1 gene regulation involve p53-dependent and independent signaling pathways in HBC.

The transmembrane domain of the large subunit of HSV-2 ribonucleotide reductase (ICP10) is required for protein kinase activity and transformation-related signaling pathways that result in ras activation.

The large subunit of Herpes simplex virus type 2 ribonucleotide reductase (ICP10) is a chimera consisting of a Ser/Thr protein kinase (PK) with features of a transmembrane (TM) helical segment localized at the amino terminus, and the RR1 domain localized at the carboxy terminus. To elucidate the role of the TM segment in ICP10-mediated transformation we established cell lines that constitutively express ICP10 (JHLa1) or its TM deleted mutant p139TM (JHL15). ICP10 was associated with purified JHLa1 plasma membranes. Membrane immunofluorescence and FACS analysis with antibodies to synthetic peptides located upstream and downstream of the TM indicated that ICP10 is a membrane-spanning protein. p139TM was not associated with JHL15 plasma membranes. ICP10 kinase activity was detected in JHLa1 but not JHL15 cells as determined by immunocomplex kinase assays and metabolic labeling. JHLa1 cells displayed anchorage-independent growth whereas JHL15 cells and JHL9 cells that express a mutant deleted in the PK catalytic domain were negative. ras-GTPase activating protein (ras-GAP) was phosphorylated in JHLa1 but not JHL15 cells and GTPase activity was lower in JHLa1 than JHL15 cells. Furthermore, ICP10 but not p139TM bound the guanine nucleotide releasing factor son of sevenless 1 (Sos1) and ras-GTP (activated ras) was higher in JHLa1 than JHL15 cells. The data suggest that ICP10 constitutively increases ras activity, and its TM segment plays a critical role in transformation-related signaling pathways.

Regulation of megakaryocyte colony forming cell numbers and ploidy by dideoxynucleosides in immunodeficient mice.

We have recently demonstrated that azidothymidine (AZT) elevates the levels of circulating platelets in mice made immune deficient by infection with LP-BM5 murine leukemia virus (MAIDS mice). In an attempt to elucidate the mechanisms of the AZT platelet elevating effect, we examined the number of splenic and bone marrow megakaryocyte colony-forming cells (CFU-mk) and the ploidy of megakaryocytes derived from CFU-mk using fluorescence cytophotometric methods. Two other dideoxynucleosides (ddN) 2'3'-dideoxyinosine (ddl) and 2'3'-dideoxycytidine (ddC) were assessed to determine the specificity of the effect of AZT. MAIDS mice were given ddN in drinking water for 15 days. AZT was the only ddN that significantly increased circulating platelet levels in MAIDS mice. AZT significantly increased splenic CFU-mk in MAIDS mice, but bone marrow CFU-mk were not affected. ddl and ddC failed to change either platelet levels or the numbers of splenic or bone marrow CFU-mk. The ploidy of megakaryocytes derived from splenic and bone marrow CFU-mk were examined by first identifying CFU-mk by staining for acetylcholinesterase, followed by nuclear staining with propidium iodide. The fluorescence of individual cells was then measured using a Perceptics image analysis system. Modal ploidy of CFU-mk megakaryocytes derived from spleen cells of AZT-treated immunodeficient mice was shifted upwards from 16N to 32N. Similarly, AZT treatment changed the modal ploidy number of colony megakaryocytes derived from bone marrows of immunodeficient mice from 16N to 32N. The ploidy distribution was also significantly shifted. ddl and ddC failed to significantly alter either modal ploidy number or distribution of megakaryocytes derived from splenic or bone marrow CFU-mk. These findings suggest that AZT may affect physiological processes that lead to platelet formation.

Rapid flow cytometric antibiotic susceptibility assay for Staphylococcus aureus.

Conventional techniques for antibiotic susceptibility testing usually require 24 h or more to produce accurate results. This long waiting period to demonstrate antibiotic action is necessary because such tests rely on growth (or the lack of it), when the microorganisms are incubated in the presence of the antibiotic. In an effort to improve antibiotic susceptibility testing, we developed a flow cytometric technique for Staphylococcus aureus in which antibiotic action is determined by monitoring drug-induced membrane potential changes, using the potential-sensitive dye 3,3'-dipentyloxacarbocyanine iodide. Three ATCC reference strains of S. aureus and 13 unknown strains of the same microorganism were tested for susceptibility to penicillin G and oxacillin. Our results indicate that susceptibility of S. aureus to these antibiotics can be measured reliably at 90 min after addition of the antibiotic, and the results are comparable to those obtained with conventional susceptibility tests.

Retinoid modulation of c-myc and max gene expression in human breast carcinoma.

Retinoic acid (RA) modulation of c-myc and max gene expression was investigated in human breast carcinoma (HBC) cell lines. Our results demonstrate that c-myc and max genes are differentially expressed in HBC cells which was accompanied by increases in [3H]-thymidine incorporation and percent of cells in the S phase of cell cycle. RA-mediated increase in c-myc mRNA levels were noticed as early as 30 min. and maximum levels were attained by 1 h. RA effect on max mRNA levels was slow and gradual with the maximum effect noticed by 48 h. Nuclear run-on assays demonstrated that RA mediated its effect by increasing the rate of transcription of both of these genes. We thus report for the first time that RA, during its growth inhibitory effects on MCF-7 HBC cells, positively regulates the gene expression of c-myc and max.

Enhancement of daunorubicin accumulation, retention, and cytotoxicity by verapamil or cyclosporin A in blast cells from patients with previously untreated acute myeloid leukemia.

This work was designed to discern the frequency of expression of classical multidrug resistance (MDR) in acute myeloid leukemia (AML) at the time of diagnosis, using Western blotting for P-glycoprotein (Pgp) and functional assays for an MDR phenotype (enhancement of daunorubicin [DNR] accumulation/retention and cytotoxicity by the known MDR modulators verapamil, cyclosporin A, and progesterone). Blast cells were studied from 49 newly diagnosed AML patients who were subsequently treated with the "3 and 7" combination of cytosine arabinoside (ara-C) and DNR. DNR accumulation (1 microgram/mL, 3 hours) and retention (16 hours) were determined by flow cytometry. Cyclosporin A (CsA, 5 mumol/L) or verapamil (6.6 mumol/L) each caused significant enhancement of DNR accumulation and retention in these blast cell samples (P < .001, Wilcoxon's test). Verapamil or CsA caused greater than 20% enhancement of DNR accumulation or retention in over 25% or 50% of these patients, respectively; however, there was no correlation with the presence or degree of enhancement and response to treatment. Progesterone (10 mumol/L) caused no significant enhancement of DNR accumulation or retention. The effects of the MDR modulators on the cytotoxicity of DNR was also determined in blast cells from 40 of the patients, using a flow cytometric assay. CsA alone was cytotoxic (caused an approximate 20% decrease in cell survival compared with control, P < .001); CsA or verapamil caused enhancement of 1 mumol/L DNR cytotoxicity (P < .001). Greater than 40% enhancement of cell kill by CsA or verapamil was observed in over 75% of patients studied. There was no difference in the degree of enhancement of cytotoxicity between patients clinically sensitive or resistant to treatment. Progesterone caused no enhancement in DNR cytotoxicity. In contrast to the functional assays, highly sensitive immunoblots using the C219 antibody to Pgp showed evidence of low level expression of Pgp in blast cells from only 3 of these patients: 1 was chemotherapy resistant, 2 were sensitive. Thus, although the functional assays suggest a high frequency of expression of a classic MDR phenotype in AML patients at the time of diagnosis, with enhancement by CsA obtained at a clinically relevant concentration (5 mumol/L), the frequency of Pgp expression detectable by C219 Western blots was low in these patients. This could be interpreted either that the method used was not sufficiently sensitive to detect Pgp in all of the blast cell specimens that actually overexpressed mdr1, or that the accumulation/efflux-based MDR phenotype observed is not always mediated by Pgp in these previously untreated patients.

DNA content measurements and an improved idiogram for the Indian muntjac.

The Indian muntjac, an asiatic deer, has the lowest diploid chromosome number among mammals (female 2N = 6; male 2N = 7). Using flow cytometric quantification of propidium iodide-stained cells, we determined the DNA content of muntjac cells to be 94% that of human. This suggests that the muntjac may serve as a model for investigation of karyotypic evolution and rearrangement. In order to facilitate future comparative gene mapping studies, computer-aided analysis of digitized metaphase chromosomes allowed development of a detailed Indian muntjac G-banded idiogram incorporating both ISCN-type nomenclature and quantitative estimates of the size of each band and position.

IGFBP-3 gene expression and estrogen receptor status in human breast carcinoma.

Insulin-like growth factors (IGF) I and II are potent mitogens for breast carcinoma proliferation. IGF-mediated proliferative activity can be markedly enhanced by the presence of specific IGF-binding proteins (IGFBPs). IGFBP-3 has been shown to enhance IGF-mediated growth in a number of systems. Studies have demonstrated IGFBP-3 secretion only in estrogen receptor (ER)-negative breast carcinoma cell lines while IGFBP-3 could not be detected in media conditioned by ER-positive cell lines. We investigated whether a relationship exists between ER status and IGFBP-3 mRNA expression in human breast carcinoma biopsy specimens. We have detected IGFBP-3 mRNA in breast carcinoma tissue obtained from patients utilizing in situ hybridization. Quantitation of IGFBP-3 mRNA levels was performed utilizing image cytometry. There was a significantly higher expression of IGFBP-3 mRNA in ER-negative breast carcinoma specimens when compared to the ER-positive specimens. Whether this higher expression of IGFBP-3 mRNA and presumed secretion of IGFBP-3 by ER-negative tumors play a role in the rapid proliferation and poor prognosis of these tumors remains to be determined.

Anti-kinetochore staining for single laser, bivariate flow sorting of Indian muntjac chromosomes.

Flow cytometric chromosome sorting typically relies upon dual-laser, bivariate analysis after staining with two different base pair-specific dyes for resolution of chromosomes with similar DNA content. The availability of FITC-conjugated antibodies offers the possibility of single-laser bivariate analysis when combined with propidium iodide (PI) DNA staining, but requires exploitable antigenic differences between chromosomes of interest. A technique was developed for indirect immunofluorescent anti-kinetochore staining of Indian muntjac chromosomes in suspension. Primary antibody binding within permeabilized whole cells minimized centrifugation-induced loss of chromosomal integrity. Subsequent FITC-conjugated second antibody binding was not affected by concurrent PI-counterstaining. Anti-kinetochore staining facilitated resolution of chromosomes No. 2 and X, which formed a doublet peak upon univariate DNA content analysis, as well as recognition of the Y2 peak which was indistinguishable from debris by univariate analysis. The technique allowed greater than 90% purification of each Indian muntjac chromosome.

In vitro identification of a subpopulation of fibroblasts that produces high levels of collagen in scleroderma patients.

A subpopulation of scleroderma dermal fibroblasts was identified by flow cytometric analysis. Between 15% and 25% of the cells within the scleroderma fibroblast lines had high levels of cytoplasmic granularity, as identified by side light scatter characteristics. Similar fibroblasts composed less than 3% of the cells within the normal fibroblast lines, although greater numbers could be induced through exposure to soluble factors derived from activated mononuclear cells. The granular subpopulation of fibroblasts produced 2-3 times as much procollagen as did the other fibroblasts. These data support the hypothesis that fibrosis in scleroderma may result in part from the activity of an inherently high procollagen-producing subset of normal fibroblasts that is expanded through exposure to immune cytokines.

Flow cytometric detection of jellyfish venom induced cytotoxicity.

Crude venoms of three poisonous jellyfish produce membrane depolarization as determined by the loss of fluorescence intensity of 3,3'-dipentyloxacarbocyanine iodide loaded cells measured by flow cytometry. This method for detecting jellyfish cytotoxicity was reproducible and more sensitive than mouse lethality assays.