Barry S. Handwerger

Immune response in the mutant diabetic C57BL/Ks-dt+ mouse. Discrepancies between in vitro and in vivo immunological assays.

Cell-mediated and humoral immune responses of mutant diabetic db+/db+ mice were evaluated using in vivo and in vitro immunological assays. When compared to lean, nondiabetic db+/m+ or m+/m+ mice, db+/db+ mice demonstrated markedly altered in vivo immune responses characterized by a significantly diminished ability to reject allogeneic skin grafts, a markedly diminished capacity to generate cytotoxic cells after sensitization with allogeneic EL-4 lymphoma cells and a significantly enhanced plaque-forming cell response to sheep erythrocytes. In contrast, spleen cells from db+/db+ mice demonstrated only minimal alterations in in vitro responses to mitogens and allogeneic cells and no alteration in their capacity to generate an in vitro plaque-forming cell response. The spleens and thymuses of db+/db+ mice weighed significantly less than organs from db+/db+ mice. In addition, thymuses from db+/db+ mice demonstrated a marked deficiency in in vivo [125I]UdR uptake. These data suggest that the altered metabolic status of the diabetic host influences immune function in vivo possibly due to abnormal function of lymphocyte subpopulations.

Immune and autoimmune aspects of diabetes mellitus

The immune and autoimmune aspects of diabetes mellitus are reviewed. Emphasis is given to the clinical association of diabetes with other autoimmune disease; the increased incidence of organ-specific autoimmunity in diabetic patients; the occurrence of humoral and cell-mediated antipancreas (islet) autoimmunity in diabetes; the association of HLA with juvenile-onset, insulin-dependent diabetes mellitus and with certain specific subpopulations of diabetic patients; the possible role of viruses in the etiology of diabetes; and the occurrence of alterations in humoral and cell-mediated immunity, granulocyte function, and the host defense against infectious agents in human diabetics and in animals with experimental diabetes.

The nature of the effector cell in antibody-dependent, cell-mediated cytolysis (ADCC): The cytotoxic activity of murine tumor cells and peritoneal macrophages

Abstract The nature of the effector cell in the antibody-dependent, cell-mediated cytolysis of anti-trinitrophenyl coated, TNP-modified chicken erythrocytes was evaluated. P388D, a macrophage-like murine tumor cell line, and adherent cells derived from normal peritoneal cells and from tumor-containing ascites cells were active in mediating cytolysis. In vitro cultured murine tumor cell lines with cell marker characteristics of T lymphocytes, B lymphocytes, “null” lymphoid cells, and mast cells lacked effector cell activity. Ascites cells obtained from tumor-bearing animals were active as cytotoxic cells, but that activity was due to “contaminating” adherent cells of host origin rather than to the activity of the tumor cells themselves.

C2 deficiency in man. genetic relationship to a mixed lymphocyte reaction determinant (7a

Three unrelated individuals with, respectively, lupus erythematosus, polyarteritis, and membranoproliferative glomerulonephritis and totally deficient in the second component of complement are demonstrated to be mutually poorly reactive in mixed lymphocyte culture and homozygous for the mixed lymphocyte reaction determinant (MLR-S or LD) short 7a (7a*). The gene controlling the elaboration of C2 in man is shown to be separate from, and probably to map outside of, the second locus ofHL-A and theMLR-S locus. Genetic linkage disequilibrium is strongly suggested between HL-A 10, W18, 7a*, and C2 deficiency.

A comparative study of procedures for sheep erythrocyte-human-T-lymphocyte rosette formation.

A comparative study of several published methods for sheep red blood cell-T-lymphocyte rosette formation was performed. Maximum SRBC-rosette formation occurred with AET treated SRBC in medium supplemented with 20% FCS or with untreated SRBC in 100% FCS. Prolongation of the 4 degrees C incubation period from 4 to 18 h enchanced rosette formation. Fluorescein diacetate staining significantly increased calculated percentage of rosette formation. Fluorescein diacetate staining significantly increased calculated percentage of rosette-forming lyphocytes by allowing accurate indentification of the central lymphocytes in morulas.

Alterations in immunological function in streptozotocin-induced murine diabetes mellitus: Correction by islet cell transplantation

Cell-mediated and humoral immune responses of streptozotocin-induced diabetic mice were evaluated using in vivo and in vitro immunological assays. C57BL/6 mice were rendered diabetic by a single intraperitoneal injection of 125-200 mg/kg of streptozotocin. Immunological studies were performed after the mice were diabetic (mean +/- SEM serum glucose 537 +/- 14 mg/dl) for a minimum of 4 weeks. Spleen cells from streptozotocin-induced diabetic mice exhibited significantly diminished direct IgM plaque-forming cell (PFC) responses following either in vivo or in vitro immunization with sheep erythrocytes, markedly impaired cytotoxic cell responses following in vivo or in vitro allogeneic stimulation, and diminished blastogenic response to the T-cell mitogens phytohemagglutinin and concanavalin A. In contrast the blastogenic response of diabetic spleen cells to lipopolysaccharide, a B-cell mitogen, was normal. The defects in in vivo PFC responses and in vivo cytotoxic cell responses were corrected by islet cell transplantation, suggesting that the abnormalities in immunological function of streptozotocin-induced diabetic mice are a consequence of the diabetic state and not of direct streptozotocin toxicity to lymphoid cells.

The mitogenic properties of rabbit anti-mouse brain serum

Abstract The mitogenic activity of heterologous rabbit anti-mouse brain sera (RAMB) was investigated. By complement-dependent cytotoxicity and indirect immunofluorescence, RAMB was T-cell specific. Mitogenic activity was assessed by determination of [3H]thymidine incorporation into DNA. RAMB was mitogenic for spleen cells for Thy 1.1- and Thy 1.2-positive mouse strains. Maximal mitogenic responsiveness to RAMB occurred on Day 3 of culture. The incorporation of [3H]uridine into RNA and [3H]leucine into protein and percentage of blast cells in culture were also significantly increased following RAMB stimulation. The mitogenic activity of RAMB was abrogated by adsorption of the sera with BALB/c or AKR thymocytes or brains or with RL♂ 1.3+, a Thy 1.2-bearing T-cell lymphoma of BALB/c origin. In contrast, the mitogenic activity was not removed when RAMB sera were absorbed with RL♂ 1.4−, a variant of RL♂ 1 which appears to specifically lack cell surface Thy 1 determinants. These data suggest that the mitogenic activity of RAMB is Thy 1 directed. RAMB mitogenicity is T-cell dependent. Spleen cells from normal and heterologous nu/+ mice respond to RAMB, while spleen cells from nu/nu mice do not respond. Normal thymocytes and cortisone-resistant thymocytes do not respond mitogenically to RAMB. The response of unseparated spleen cells to RAMB is also macrophage dependent. Nylon-wool column-purified splenic T cells respond to high concentrations of RAMB in the absence of exogenous macrophages but do not respond to lower concentrations of RAMB unless exogenous macrophages are added to the cultures. Nylon-wool-adherent cells, which are B-cell enriched and relatively T-cell depleted, also respond to RAMB, suggesting that in the presence of even small numbers of T cells, B cells can be recruited into the response.