Gary J. Kociba

Role for Activating Transcription Factor 3 in Stress-Induced β-Cell Apoptosis

ABSTRACT Activating transcription factor 3 (ATF3) is a stress-inducible gene and encodes a member of the ATF/CREB family of transcription factors. However, the physiological significance of ATF3 induction by stress signals is not clear. In this report, we describe several lines of evidence supporting a role of ATF3 in stress-induced β-cell apoptosis. First, ATF3 is induced in β cells by signals relevant to β-cell destruction: proinflammatory cytokines, nitric oxide, and high concentrations of glucose and palmitate. Second, induction of ATF3 is mediated in part by the NF-κB and Jun N-terminal kinase/stress-activated protein kinase signaling pathways, two stress-induced pathways implicated in both type 1 and type 2 diabetes. Third, transgenic mice expressing ATF3 in β cells develop abnormal islets and defects secondary to β-cell deficiency. Fourth, ATF3 knockout islets are partially protected from cytokine- or nitric oxide-induced apoptosis. Fifth, ATF3 is expressed in the islets of patients with type 1 or type 2 diabetes, and in the islets of nonobese diabetic mice that have developed insulitis or diabetes. Taken together, our results suggest ATF3 to be a novel regulator of stress-induced β-cell apoptosis.

A macrophage-monocyte cell line from a dog with malignant histiocytosis

SummaryThe DH82 cell line was established from the neoplastic progenitor cells of canine MH and was characterized as histiocytic in origin based on light microcopic and ultrastructural morphology, positive staining reactions for alpha naphthyl acetate esterase and acid phosphatase, presence of Fc receptors, phagocytosis of latex beads, and plastic adherence in culture.

A feline large granular lymphoma and its derived cell line.

SummaryA lymphoma cell line (MCC) was derived from an abdominal mass from a 13-yr-old castrated male cat. The cells resemble natural killer precursor cells, have membrane-bound granules, and are positive for chloroacetate esterase, α-naphthyl butyrate esterase, and tartrate-resistant acid phosphatase activities. The MCC cells are negative for rearranged feline T-cell receptor genes, negative for feline T-cytotoxic antigen, Ia, and surface μ, τ, and lambda chains and do not form E-rosettes. The MCC cell line is negative for the feline leukemia virus (FeLV); e.g., negative for exogenous FeLV (exU3) sequences, negative for cytoplasmic and surface FeLV major core protein of 27 000 daltons (p27) by indirect, immunofluorescence assay, negative for helper FeLV by clone 81 assay, and negative for release of soluble FeLV p27 by enzyme-linked immunosorbent assay. Electron microscopy reveals budding type C retrovirus particles and MCC cells react with anti-RD-114 (anti-endogenous feline retrovirus) reference serum. After in vitro infection, MCC replicate FeLV readily, but replication is noncytopathic.

In vitro immunologic features of weimaraner dogs with neutrophil abnormalities and recurrent infections

In vitro evaluation of cellular and humoral immunity in Weimaraner dogs with recurrent infections and abnormal neutrophil function revealed significantly lower serum immunoglobulin (Ig) G and M concentrations than control dogs. Lymphocyte blastogenesis in response to three different mitogens, interleukin-1 and -2 production, natural killer (NK) cell activity, and in vitro IgG and IgM production were similar to those of control dogs.

Vincristine impairs platelet aggregation in dogs with lymphoma.

Platelet aggregation before and after administration of 0.5 mg/m2 of vincristine (VCR) was evaluated in 7 dogs with spontaneously occuring lymphoma. Aggregation on platelet-rich plasma separated from blood collected in 3.8% sodium citrate was performed using adenosine diphosphate (ADP), arachidonic acid (AA), and collagen (COL) as agonists. The slope for aggregation in response to ADP was significantly lower after administration of VCR (P = .032). Maximal aggregation after administration of VCR was significantly lower in response to ADP, COL, and AA (P = .03, P = .04, and P = .03, respectively).

A rapid microassay for measuring the luminol-dependent chemiluminescent response in canine whole blood

A microassay for the luminol-dependent chemiluminescence (CL) response in canine whole blood was developed to measure indirectly the oxidative metabolism of peripheral blood leukocytes. Fifty microliters of blood were mixed with 705 microliters of Hanks balanced salt solution containing 25 mM Hepes and 1.3 x 10(-4) M luminol. This mixture was allowed to equilibrate for 5 min after which 60 microliters of latex beads (0.801 microns diameter) were added as a stimulant, and the CL response was monitored continuously for 5 min at 37 degrees C using a luminometer. The whole blood CL response was significantly correlated (r = 0.784, P less than 0.01, n = 14) with the number of neutrophils in the peripheral blood. Further, the whole blood CL response was abolished by the depletion of neutrophils after passing the blood through an adherence column and by the addition of sodium azide. The relative chemiluminescent light unit (RCLU) was a reliable marker for comparing each peak value in different samples. The coefficient of variation (CV) of repetitive samples was 9.87%, and the CV of 14 normal dogs was 15.7%. This method is useful and applicable for screening the CL response in canine whole blood.

Evaluation of antiviral activity and toxicity of dextran sulfate in feline leukemia virus-infected cats.

The feline leukemia virus (FeLV) disease model was used to conduct a toxicity and antiretrovirus efficacy trial of dextran sulfate (DS; molecular mass, 7,000 to 8,000 Da). In vitro, FeLV infection of feline lymphoid cells was inhibited by 10 micrograms of DS per ml. DS was administered to cats by continuous intravenous infusion at doses of 600, 120, 24, or 4.8 mg/kg of body weight per day, beginning 24 h before FeLV challenge. Doses of 24 mg/kg/day and more were excessively toxic, causing intestinal lesions and death. Similar changes were observed in unchallenged animals receiving 24 mg/kg/day, indicating that toxicity was DS mediated. The dosage of 4.8 mg/kg/day was subtoxic but did not prevent the induction and persistence of FeLV viremia. The results demonstrate that DS by continuous intravenous infusion is excessively toxic at high doses and ineffective at preventing FeLV infection at a subtoxic dose in the FeLV cat model.

Infectious feline leukaemia virus is erythrosuppressive in vitro.

The direct effect of the feline leukaemia virus (FeLV) on erythroid colony formation in vitro was investigated. Bone marrow mononuclear cells (BMMC) from FeLV-naïve, specific-pathogen-free (SPF), adult cats were inoculated with FeLVs of characterized strains and biologically cloned subgroups and the subsequent development of colony forming units-erythroid (CFUE) and burst forming units-erythroid (BFUE) and colony forming units-granulocyte-macrophage (CFUGM) was monitored. Exposure to the anaemia-causing Kawakami-Theilen strain of FeLV (FeLV-KT), a phenotypic mixture of subgroups A, B, and C, caused constant depression of day 2 CFUE (to 47% of sham-inoculated controls), day 4 CFUE (41% of controls), and day 10 BFUE (38% of controls). CFUGM were unaffected. The lymphoma-causing Rickard strain of FeLV (FeLV-R-TL) caused sporadic depression of CFUE and BFUE. In contrast, neither FeLV-R passaged through feline embryonic kidney fibroblasts (FeLV-R-CRFK) nor biologically cloned, subgroup-specific, FeLVs of fibroblast origin, caused decrements in CFUE or BFUE, suggesting that fibroblast passage attenuated the direct erythrosuppressive effect of FeLV. Suppression of CFUE and BFUE by lymphoma cell-origin FeLV was dependent on infectious virus and was associated with FeLV replication by the cultured myelomonocytic precursor cells. Attenuation of infectivity by heat or u.v. restored CFUE and BFUE development. Examination of the relationship between viral infectivity (VI), viral protein concentration, and CFUE suppression showed that the infectious FeLV was 20-fold more effective than u.v.-inactivated FeLV as an inhibitor of erythrogenesis in vitro.

Cytotoxicity in feline leukemia virus subgroup-c infected fibroblasts is mediated by adherent bone marrow mononuclear cells

SummaryThe pathogenesis of retrovirus-induced erythroid aplasia in cats is unknown. In studies to define mechanisms of cytotoxicity associated with retroviral infections, bone marrow mononuclear cells (BMMC) from healthy specific pathogenfree cats were co-cultured with uninfected feline embryonic fibroblasts (FEA cells) and FEA cells infected with feline leukemia virus (FeLV) of subgroup A (FEA-A) or subgroup C (FEA-C). Moderate to marked cytotoxicity (CPE) developed in co-cultures of BMMC and FEA-C cells on Days 5 to 7 of incubation but not in co-cultures of BMMC and FEA-A or BMMC and uninfected cells (FEA-CT). Cytotoxicity was associated with adherent cells of light density (1.056) from bone marrow and peripheral blood, which were positive for alpha naphthyl butyrate esterase activity. Stimulation of adherent cells with phorbol ester or addition of recombinant human tumor necrosis factor-alpha (rhTNF-α) caused similar CPE in FEA-CT cells. The TNF-α concentrations in the culture supernatants of BMMC+FEA-C were higher than those of BMMC+FEA-A or BMMC+FEA-CT, and addition of anti-TNF antibodies to the cultures blocked the CPE. These data support the hypothesis that macrophages exposed to FeLV-C cause CPE in co-cultures of BMMC and FEA cells by a mechanism involving TNF-α. It is suggested that TNF-α may be involved in the suppression of hematopoiesis in cats which develop FeLV-C induced erythroid aplasia.

Enhanced expression of Fc receptors on neutrophils from calves with leukocyte adhesion deficiency

The expression of Fc receptors for immunoglobulin G(IgG) and concanavalin A (con A)‐binding receptors, luminol‐dependent chemiluminescent (LDCL) responses, and the effect of anti‐bovine IgG on LDCL responses were evaluated in neutrophils from Holstein calves with leukocyte adhesion deficiency (BLAD). Neutrophils from affected calves showed a 2.1‐ to 2.5‐fold increase in Fc receptor expression compared with those of control calves by flow cytometric analysis. Con A‐binding activities of neutrophils from affected calves were similar to those of control calves. Neutrophils from a calf with BLAD, when stimulated with zymosan opsonized with bovine serum (OPZ), heat‐aggregated bovine IgG (Agg‐bovine IgG), sheep red blood cells (SRBC) sensitized with anti‐SRBC antibody (SRBC‐anti‐SRBC Ab), or con A had LDCL responses of 36 (P<0.05), 77, 126 and 119% of peak LDCL values of controls, respectively. The NBT‐reducing value of neutrophils from a calf with BLAD when stimulated with Agg‐bovine IgG after pretreatment with anti‐bovine IgG was 116.5% of the values of neutrophils from control calves, but the difference was not significant. The LDCL responses of neutrophils from a control calf and a calf with BLAD stimulated with OPZ were inhibited markedly by pre‐incubation with anti‐bovine IgG antiserum at concentrations ranging from 1.25 to 20 or 40 μg/ml. Although an increase in Fc receptor expression on neutrophils from calves with BLAD was observed, the LDCL responses stimulated with SRBC‐anti‐SRBC Ab and NBT‐reducing activity stimulated with Agg‐bovine IgG after pretreatment with anti‐bovine IgG did not correlate significantly with the increased Fc receptor expression. These results support that neutrophil functions mediated by the Fc receptors are associated synergistically with the presence of the complement receptor type 3 (CR3)(CD11b/CD18).