Your search keyword '"Debray-Sachs, M."' showing total 17 results

1. In vitro inhibition of pancreatic B cell function by lymphocytes from diabetics with associated autoimmune diseases: a T cell phenomenon.

Author

Boitard C, Chatenoud LM, and Debray-Sachs M

Subjects

Diabetes Complications, Humans, Insulin metabolism, Insulin Secretion, Autoimmune Diseases immunology, Diabetes Mellitus immunology, Islets of Langerhans immunology, T-Lymphocytes immunology

Abstract

Lymphocytes from insulin-dependent diabetic patients were previously shown to suppress insulin release from mouse islet cells in vitro. Glucagon release was not suppressed. In order to further analyze this phenomenon, lymphocytes from three insulin-dependent diabetic patients with associated autoimmune diseases were treated by using the panning method for cell separation before testing on islet cell suspensions. The OKT3+, OKT3-, and OKT4- cell subsets were obtained. Insulin release was suppressed by the OKT3+ (T lymphocyte-enriched) subset, but not by the OKT3- (T lymphocyte-depleted) subset. These results suggest that T lymphocytes are directly involved in the suppression of insulin release in this model. Furthermore, the OKT4- (T helper-depleted) subset also suppressed insulin release.

Published

1982

2. Time course of islet cell antibodies in diabetic and nondiabetic BB rats.

Author

Laborie C, Sai P, Feutren G, Debray-Sachs M, Quiniou-Debrie MC, Poussier P, Marliss EB, and Assan R

Subjects

Animals, Blood Glucose analysis, Complement System Proteins immunology, Cytotoxicity, Immunologic, Diabetes Mellitus, Experimental blood, Enzyme-Linked Immunosorbent Assay, Fibroblasts immunology, Fibroblasts metabolism, Immunoglobulin G immunology, Insulin metabolism, Insulin Secretion, Islets of Langerhans pathology, Liver cytology, Liver immunology, Mice, Mice, Inbred DBA, Rats, Rats, Inbred Strains, Time Factors, Antibodies immunology, Diabetes Mellitus, Experimental immunology, Islets of Langerhans immunology, Rats, Brattleboro immunology, Rats, Mutant Strains immunology

Abstract

The BB rat develops a spontaneous type I diabetic syndrome with anti-islet autoimmunity. Sera from diabetic and nondiabetic BB rats (from diabetes-prone litters), nondiabetic BB rats (from low-risk lines), and nondiabetes-prone Sprague-Dawley rats were collected twice a week from age 40 days to 160 days. Sera were tested for: (1) complement-dependent toxicity to 51Cr-labeled islet cells in vitro; (2) immunoglobulin binding to RIN-5 F insulinoma cells; and (3) ability to selectively suppress insulin secretion from normal islets in vitro. All sera from rats that subsequently became diabetic or glucose-intolerant were toxic to islet cells from various rat strains in the presence of complement. They were toxic neither to hepatocytes nor to fibroblasts. The toxic potency was associated with the globulin fraction. It was, in most cases, maximal either before or immediately after the onset of the disease. Sera from the nondiabetes-susceptible BB rats and the rats which, in diabetes-prone litters, died too early to be classified tended toward greater toxicity to islets. Immunoglobulins from diabetic sera bound to RIN-5 F cells more than did the serum globulins from other groups, their maximal binding capacity occurring after the onset of diabetes. Furthermore, BB diabetic sera were capable of selectively inhibiting the insulin secretion from normal rat islets in vitro either in the presence or, in some cases, in the absence of complement. The A- and D-cell functions were not suppressed. The combination of such results suggests the presence of one or more antibodies capable of binding to beta cells, inhibiting their function, and inducing their lysis.(ABSTRACT TRUNCATED AT 250 WORDS)

Published

1985

3. [Cellular autoimmunity and anti-islet cell antibodies in diabetics].

Author

Boitard C, Debray-Sachs M, Saï P, Pouplard A, and Assan R

Subjects

Humans, Immunity, Cellular, Autoantibodies analysis, Autoimmune Diseases immunology, Diabetes Mellitus immunology, Islets of Langerhans immunology

Published

1981

4. Anti-islet cellular and humoral immunity, T-cell subsets, and thymic function in type I diabetes.

Author

Quiniou-Debrie MC, Debray-Sachs M, Dardenne M, Czernichow P, Assan R, and Bach JF

Subjects

Adolescent, Adult, Aged, Antibody Formation, Biological Assay, Child, Child, Preschool, Diabetes Mellitus, Type 1 blood, Diabetes Mellitus, Type 1 classification, Female, Humans, Immunity, Cellular, Infant, Insulin metabolism, Insulin Secretion, Leukocyte Count, Male, Middle Aged, Autoantibodies analysis, Diabetes Mellitus, Type 1 immunology, Islets of Langerhans immunology, T-Lymphocytes classification, Thymic Factor, Circulating biosynthesis, Thymus Hormones biosynthesis

Abstract

Unlabelled: Peripheral lymphocyte subsets were enumerated, using OKT monoclonal sera, in 56 diabetic (43 adults and 13 children) and 20 control subjects. Concomitantly, anti-islet humoral and cellular immunity was tested in vitro and serum thymulin level was measured. In the newly diagnosed patients (less than 30 days; 18 cases), the percent of OKT4+ and OKT8+ cells was reduced, the OKT8+ depletion being particularly pronounced in children. Tests for cellular immunity were positive in 83% of the newly diagnosed diabetic subjects and anti-islet cytotoxic antibodies were detected in 50%. The serum thymulin level was decreased in 2 children. Later on in the course of the disease, a marked reduction in OKT3+, OKT4+, and OKT8+ cell percentage was observed, the mean OKT4/OKT8 ratio being normal or lower than normal. The percent of antibody-positive sera rose to 64%, while anti-islet cellular immunity was detectable in 54%. When extrapancreatic manifestations of probable autoimmune nature were present, anti-islet cellular immunity was detected in 100% of cases, accompanied by cytotoxic antibodies in 54%., Conclusions: (1) the magnitude of T-cell depletion and/or imbalance in diabetic subjects depended mainly on the duration of the disease, (2) anti-islet cellular immunity was the anomaly most frequently detectable, and (3) a decrease in serum thymulin level was infrequently detected.

Published

1985

5. Pentamidine, a new diabetogenic drug in laboratory rodents.

Author

Saï P, Boillot D, Boitard C, Debray-Sachs M, Reach G, and Assan R

Subjects

Animals, Diabetes Mellitus, Experimental physiopathology, Insulin Secretion, Islets of Langerhans drug effects, Mice, Mice, Inbred DBA, Rats, Rats, Inbred Strains, Amidines toxicity, Diabetes Mellitus, Experimental chemically induced, Insulin metabolism, Islets of Langerhans metabolism, Pentamidine toxicity

Abstract

The antiprotozoal drug, pentamidine, has been reported to induce hypoglycaemia associated with inappropriately high plasma insulin concentrations, followed by insulin-dependent diabetes mellitus. It has been suggested that this drug can be toxic to the islet B cell, inducing early cytolytic release of insulin leading to B cell destruction. In order to test this hypothesis, mouse and rat islets were incubated with pentamidine at concentration range of 5 x 10(-11) to 5 x 10(-3) mol/l and exposure times of 3-48 h. The B cell responses to glucose + theophylline and to arginine were suppressed by pentamidine, while insulin release in non-stimulatory conditions was increased. These effects were dose-dependent, time-dependent and irreversible. They were significant for 5 x 10(-7) mol/l pentamidine, which is a concentration relevant to therapeutic uses. These effects developed more slowly than the toxic effects of streptozotocin and alloxan at the same molar concentration in vitro. 51Chromium release and Trypan blue exclusion tests support the hypothesis that pentamidine produces islet cell necrosis.

Published

1983

6. [Immunity of autoantibodies to islands of Langerhans in diabetics].

Author

Boitard C, Debray-Sachs M, Sai P, Pouplard A, and Assan R

Subjects

HLA Antigens immunology, Humans, Autoantibodies immunology, Diabetes Mellitus immunology, Islets of Langerhans immunology

Published

1981

7. Cell-mediated immunity to pancreatic islet cells in the non-obese diabetic (NOD) mouse: in vitro characterization and time course study.

Author

Timsit J, Debray-Sachs M, Boitard C, and Bach JF

Subjects

Aging immunology, Animals, Cells, Cultured, Immunity, Cellular, Insulin metabolism, Islets of Langerhans metabolism, Mice, Mice, Inbred DBA, Mice, Inbred Strains, Rats, Rats, Inbred Strains, Spleen immunology, Diabetes Mellitus, Type 1 immunology, Islets of Langerhans immunology, T-Lymphocytes immunology

Abstract

The non-obese diabetic (NOD) mouse is an animal model of insulin-dependent diabetes mellitus (IDDM), in which 80% of the females become diabetic after the age of 12 weeks. Using an in vitro assay we investigated the capacity of spleen lymphocytes from NOD mice to inhibit the insulin secretion of normal islet cells after stimulation by theophylline plus arginine. Spleen cells from diabetic NOD mice inhibited the insulin release of DBA/2 islet cells. Depletion experiments using monoclonal antibodies demonstrated that inhibitory cells belonged to the Lyt2 positive T lymphocyte subset. The phenomenon was not restricted by the MHC class I K region, shared by NOD and DBA/2 mice, since lymphocytes from diabetic NOD mice also inhibited the insulin secretion of normal Wistar rat islet cells. Inhibitory T cells were detected in overtly diabetic mice but also in non-diabetic females aged 5-11 weeks indicating that they are not secondary to metabolic disturbances and might contribute to their onset. Conversely they were not found in male NOD mice although some of these mice show insulitis. The presence of these inhibitory T cells might thus represent an early and sensitive marker of anti-islet cell-mediated autoimmunity.

Published

1988

8. Anti-pancreatic immunity. In vitro studies of cellular and humoral immune reactions directed toward pancreatic islets.

Author

Boitard C, Saï P, Debray-Sachs M, Assan R, and Hamburger J

Subjects

Adolescent, Adult, Aged, Animals, Cells, Cultured, Child, Child, Preschool, Complement System Proteins immunology, Female, Glucagon metabolism, Humans, Immunoglobulins immunology, Insulin Secretion, Islets of Langerhans metabolism, Male, Mice, Mice, Inbred Strains, Middle Aged, Cytotoxicity, Immunologic, Diabetes Mellitus, Type 1 immunology, Insulin metabolism, Islets of Langerhans immunology, Lymphocytes immunology

Abstract

It has been suggested that the immune system may be responsible for the destruction of insulin secreting cells in some types of diabetes. In order to test this hypothesis, we studied the consequences of immune-mediated reactions on the function of pancreatic islet cells in vitro. A model was set up in vitro where mouse pancreatic islet cells are exposed to human lymphocytes or sera + complement then stimulated for the release of insulin or glucagon. A selective inhibition of insulin secretion, but not of glucagon secretion, was observed in the presence of lymphocytes from 37 out of 40 insulin-dependent diabetic (IDD) patients and in the presence of sera (+ complement) from 22 out of 40. Lymphocytes were found inhibitory in almost all patients in both groups, with and without associated autoimmune diseases. In contrast, inhibitory sera were observed almost only in patients with associated autoimmune diseases or recent onset diabetes. The selective inhibition of insulin secretion, but not of glucagon secretion, suggests that lymphocytes or sera may be involved in a destructive process of insulin secreting cells in vivo. This cell-mediated effect depends on direct T lymphocyte cytotoxicity, rather than antibody-dependent cell cytotoxicity, as suggested by the lack of any effect of aggregated immunoglobulins on the reaction. In contrast, when C57BL/6 mice were immunized by mastocytoma cells from a DBA2 strain, their lymphocytes and sera blocked both secretions of insulin and glucagon when incubated in vitro with DBA2 islet cells. This non-selective inhibition may be due to anti-H2 immunity, rather than immunity directed against insulin secreting cells.

Published

1984

9. Complement-fixing Islet cell antibodies from some diabetic patients alter insulin release in vitro.

Author

Sai P, Boitard C, Debray-Sachs M, Pouplard A, Assan R, and Hamburger J

Subjects

Adolescent, Adult, Aged, Animals, Arginine, Child, Female, Fluorescent Antibody Technique, Glucagon metabolism, Humans, Islets of Langerhans metabolism, Male, Mice, Middle Aged, Antibody Formation, Biological Assay, Complement Fixation Tests, Diabetes Mellitus, Type 1 immunology, Insulin metabolism, Islets of Langerhans immunology

Abstract

To explore humoral immunity in insulin-dependent diabetic (IDDM) patients, we studied insulin release from isolated mouse islets stimulated by glucose + theophylline after incubation with the sera of these patients and complement. Eleven of 21 IDDM sera suppressed the stimulated insulin release while the arginine-stimulated glucagon release remained unchanged. Morphologic evidence and the trypan-blue exclusion test suggested that the suppression of insulin release was due to a cytotoxic effect of the sera. No beta-cell inhibition of morphologic damage was detectable in the presence of sera from 30 healthy subjects, 8 non-insulin-dependent diabetic patients, and 5 nondiabetic patients with autoimmune diseases. Beta-cell inhibition by IDDM sera was not observed when complement was omitted. After serum fractionation, the cytotoxic potency of IDDM sera was located in the immunoglobulin G fraction. Using human islets, insulin release was suppressed by 3 of 6 IDDM sera. Complement-dependent cytotoxicity was found in 1 of 5 recent-onset IDDM patients and 11 of 16 IDDM patients with autoimmune phenomena. It was associated in all cases with the presence of islet cell antibodies as detected by immunofluorescence, and with the presence of circulating lymphocytes which suppressed insulin release in vitro. Complement-fixing antibodies may contribute to the selective beta-cell damage in IDDM.

Published

1981

10. Anti-beta-cell immunity in insulinopenic diabetic dogs.

Author

Sai P, Debray-Sachs M, Jondet A, Gepts W, and Assan R

Subjects

Animals, Chromium metabolism, Dogs, Glucose Tolerance Test, Humans, Insulin blood, Leukocyte Count, Lymphocytes immunology, Mice, Rats, Diabetes Mellitus, Type 1 immunology, Islets of Langerhans immunology

Abstract

Anti-islet immunity was studied in six spontaneously insulin-dependent diabetic (IDD) dogs, using mouse islets of Langerhans cells as targets, in vitro. Insulinopenia was demonstrated in all dogs by an i.v. glucose tolerance test. A significant lymphocytopenia was detected in the peripheral blood of this diabetic group. Pancreatic tissue from one of these animals was obtained shortly after death and the islets displayed a marked loss in beta cells without significant changes in the other types of islet cells. No insulitis was observed. Circulating mononuclear cells from the diabetic dogs induced an increased basal insulin (IRI) release from islet cells and a suppressed stimulated IRI release. Damage to or depth of beta cells may account for these findings. The stimulated IRI release was also suppressed when islets were incubated with the diabetic sera + complement, while the D-cell response to arginine was not altered, and the A-cell response was reduced but not abolished. A lysis of islet cells in the presence of IDD sera + complement was demonstrated by an increased release of 51Cr from labeled cells. These anomalies were observed neither when complement was heat-inactivated nor in the presence of control sera + complement. Canine IDD may be a new animal model for the study of anti-islet cellular and humoral immunities.

Published

1984

11. [Production of monoclonal autoantibodies inhibiting the secretion of insulin by the islets of Langerhans].

Author

Dardenne M, Debray-Sachs M, Savino W, and Bach JF

Subjects

Animals, Antibodies, Monoclonal, Cytotoxicity, Immunologic, Diabetes Mellitus, Experimental immunology, Diabetes Mellitus, Experimental physiopathology, Female, Insulin Secretion, Islets of Langerhans immunology, Mice, Mice, Inbred Strains, Autoantibodies, Insulin metabolism, Insulin Antibodies, Islets of Langerhans metabolism

Abstract

Monoclonal autoantibodies cytotoxic for murine islet cells have been obtained by cell fusion using spleen cells from non-immunized diabetic C57BL/KsJ (db/db) Mice. These monoclonals, of IgG2a subclass, blocked in vitro insulin secretion induced by arginine in Mouse pancreatic cells.

Published

1984

12. [Inhibition of insulin secretion of mouse pancreatic cells by T lymphocytes of insulin-dependent diabetics].

Author

Boitard C, Debray-Sachs M, Assan R, and Hamburger J

Subjects

Adolescent, Adult, Aged, Animals, Child, Child, Preschool, Female, Humans, In Vitro Techniques, Insulin Secretion, Male, Mice, Mice, Inbred DBA, Middle Aged, Diabetes Mellitus, Type 1 physiopathology, Insulin metabolism, Islets of Langerhans metabolism, T-Lymphocytes physiology

Abstract

We previously showed that circulating lymphocytes from more than 90% of insulin-dependent diabetics, block extra insulin secretion induced by stimulatory media in mouse pancreatic cells in vitro, without altering the secretion of glucagon. The present work demonstrates that this phenomenon depends on lymphocytes having the OKT3 marker, i.e., thymodependent lymphocytes. However, OKT4+ T helper cells are not required for the above phenomenon as proved by experiments using monoclonal sera against the OKT4 marker. When diabetes is associated with other autoimmune diseases, the pancreatic lymphocyte cytotoxicity observed in vitro is inhibited by the addition of a normal lymphocyte population; this could indicate that a "suppressor" factor is lacking in these patients. Conversely, addition of normal lymphocytes does not prevent lymphocyte cytotoxicity in diabetics without associated autoimmune diseases. Such a difference confirms the present trend to make a distinction between these two categories of diabetes.

Published

1982

13. Lymphocytes from diabetics suppress insulin release in vitro.

Author

Boitard C, Debray-Sachs M, Pouplard A, Assan R, and Hamburger J

Subjects

Adolescent, Adult, Aged, Animals, Child, Preschool, Cytotoxicity, Immunologic, Female, Fibroblasts immunology, Humans, Insulin Antibodies, Insulin Secretion, Male, Mice, Mice, Inbred DBA, Middle Aged, Organ Specificity, Diabetes Mellitus immunology, Diabetes Mellitus, Type 1 immunology, Insulin metabolism, Islets of Langerhans metabolism, Lymphocytes immunology

Abstract

The insulin response of isolated islet cells to glucose and theophylline in vitro was studied after incubation with lymphocytes. The test was employed to explore cell-mediated immunity in diabetics. A significant inhibition of insulin response to glucose and theophylline as compared to insulin release in a "basal" medium was found after incubation with blood lymphocytes from 21 out of 23 insulin-dependent diabetics (mean secretion index 18 +/- 18 versus 118 + 8 (SEM) % in control subjects). Most of the patients studied had associated autoimmune diseases: all of these displayed inhibition of insulin release. In six cases, the diabetes had a recent onset with no associated autoimmune disease: four of them displayed the same inhibition. No inhibition was found in the 26 control subjects and in seven non-insulin-dependent diabetics (mean secretion index 134 +/- 17 versus 145 +/- 23 (SEM) % in four control subjects). Lymphocytes inhibiting islet cell response were not cytotoxic against mouse fibroblasts. Twenty-two insulin-dependent diabetics showed islet cell antibodies to human and/or mouse pancreatic islets. However, an inhibition of insulin release was found with no detectable islet cell antibodies in one case, and the converse in two cases. Lymphocyte cytotoxicity to islet cells could play a role in the natural history of insulin-dependent diabetes.

Published

1981

14. Inhibition of insulin release in vitro mediated by mononuclear cells from diabetic patients treated with cyclosporin A or placebo.

Author

Debray-Sachs M, Sai P, Feutren G, Lang F, Maugendre D, Boitard C, Hors J, and Bach JF

Subjects

Adolescent, Adult, Animals, Autoantibodies analysis, Cells, Cultured, Cyclosporins pharmacology, Diabetes Mellitus, Type 1 drug therapy, Female, HLA-DR Antigens analysis, Humans, Immunity, Cellular, Insulin Secretion, Islets of Langerhans metabolism, Leukocytes, Mononuclear drug effects, Male, Rats, Rats, Inbred Strains, T-Lymphocytes immunology, Cyclosporins therapeutic use, Diabetes Mellitus, Type 1 immunology, Insulin metabolism, Islets of Langerhans immunology, Leukocytes, Mononuclear immunology

Abstract

Anti-beta-cell-specific cell-mediated immunity was studied over a 12-mo period in 65 recently diagnosed diabetic patients randomly receiving either cyclosporin or placebo. Anti-beta-cell cellular immunity was assessed by an in vitro test based on the inhibition of insulin release from cultured rat islet cells by patients' mononuclear cells. This beta-cell-suppressive effect disappeared in cyclosporin A-treated patients within 1 mo and did not reappear during 12 mo of follow-up. Conversely, the suppressive effect persisted unchanged in placebo-treated patients during 12 mo of follow-up. These changes were predictive neither of cyclosporin A-induced remission nor of relapses. Results of the insulin-release inhibition test were not correlated to islet cell autoantibodies or HLA phenotype.

Published

1988

15. Anti-islet immunity and thymic dysfunction in the mutant diabetic C57BL/KsJ db/db mouse.

Author

Debray-Sachs M, Dardenne M, Sai P, Savino W, Quiniou MC, Boillot D, Gepts W, and Assan R

Subjects

Animals, Antibodies, Monoclonal, Antibody-Dependent Cell Cytotoxicity, Complement System Proteins physiology, Diabetes Mellitus immunology, Diabetes Mellitus pathology, Insulin metabolism, Insulin Secretion, Leukocyte Count, Lymphocytes, Mice, Rodent Diseases immunology, Rodent Diseases pathology, Spleen pathology, Thymic Factor, Circulating metabolism, Thymus Gland pathology, Autoantibodies analysis, Diabetes Mellitus veterinary, Islets of Langerhans immunology, Mice, Inbred C57BL immunology, Mice, Mutant Strains immunology, Thymus Gland physiopathology

Abstract

Anti-islet immune reactions were studied in vitro in genetically diabetic homozygote C57BL/KsJ db/db mice, using murine islet cells as a target. Spleen lymphocytes inhibited insulin secretion by the islet cells. This inhibition was abolished when T-cells were eliminated by treatment with anti-Thy 1.2 monoclonal antibody in the presence of complement. Anti-islet complement-dependent antibody (CDA) and antibody-dependent cell cytotoxicity (ADCC) were also found in the sera of these mice. This anti-islet immunity was detectable as early as the tenth day of life and lasted throughout the entire life span of the animals. A significant lymphopenia was detected in thymus and spleen cell populations. None of these anomalies was found in control heterozygote mice. Thymic function was explored in the same mice by evaluating their serum thymic factor (FTS) levels using a rosette assay. The age-dependent decline of FTS levels was significantly accelerated in diabetic mice as compared with heterozygous littermates. Furthermore, FTS inhibitory immunoglobulins were detected in db/db mouse sera, which inactivated in vitro the biologic potency of synthetic FTS. Histologically, the thymus displayed an accelerated involution. It was shown by indirect immunofluorescence using anti-FTS monoclonal antibodies that the number of FTS+ cells was reduced in db/db mouse thymuses. Histologic study of the islets of Langerhans showed early signs of beta-cell hyperactivity and hypertrophy, followed by beta-cell rarefaction and profound dislocation of islet architecture. Insulitis was not detected.

Published

1983

16. Cell-mediated immunity to pancreatic islet cells in the non-obese diabetic (NOD) mouse: in vitro characterization and time course study

Author

Timsit, J, Debray-Sachs, M, Boitard, C, and Bach, J F

Subjects

Aging, Immunity, Cellular, T-Lymphocytes, Mice, Inbred Strains, Rats, Inbred Strains, Rats, Islets of Langerhans, Mice, Diabetes Mellitus, Type 1, Mice, Inbred DBA, Animals, Insulin, Cells, Cultured, Spleen, Research Article

Abstract

The non-obese diabetic (NOD) mouse is an animal model of insulin-dependent diabetes mellitus (IDDM), in which 80% of the females become diabetic after the age of 12 weeks. Using an in vitro assay we investigated the capacity of spleen lymphocytes from NOD mice to inhibit the insulin secretion of normal islet cells after stimulation by theophylline plus arginine. Spleen cells from diabetic NOD mice inhibited the insulin release of DBA/2 islet cells. Depletion experiments using monoclonal antibodies demonstrated that inhibitory cells belonged to the Lyt2 positive T lymphocyte subset. The phenomenon was not restricted by the MHC class I K region, shared by NOD and DBA/2 mice, since lymphocytes from diabetic NOD mice also inhibited the insulin secretion of normal Wistar rat islet cells. Inhibitory T cells were detected in overtly diabetic mice but also in non-diabetic females aged 5-11 weeks indicating that they are not secondary to metabolic disturbances and might contribute to their onset. Conversely they were not found in male NOD mice although some of these mice show insulitis. The presence of these inhibitory T cells might thus represent an early and sensitive marker of anti-islet cell-mediated autoimmunity.

Published

1988

17. Anti-pancreatic immunity in genetically diabetic mice

Author

Debray-Sachs, M, Saï, P, Boitard, C, Assan, R, and Hamburger, J

Subjects

Blood Glucose, Cytotoxicity, Immunologic, Aging, T-Lymphocytes, Antibody-Dependent Cell Cytotoxicity, Antibodies, Monoclonal, Mice, Inbred Strains, Complement System Proteins, Diabetes Mellitus, Experimental, Major Histocompatibility Complex, Islets of Langerhans, Mice, Insulin Secretion, Animals, Insulin, Pancreas, Research Article

Abstract

The anti-pancreatic immune reaction of genetically diabetic homozygote C57Bl/KsJ db/db mice was studied with an in vitro test using murine islet of Langerhans cells as target cells. C57Bl/KsJ db/db spleen lymphocytes inhibited insulin secretion by the islet cells. This inhibition was abolished when T cells were eliminated by treatment with anti-Thy 1.2 monoclonal antibody in the presence of complement. Together with this cell-mediated cytotoxicity, complement-dependent antibody (CDA) and antibody-dependent cell cytotoxicity (ADCC) were found in the sera of these mice. A longitudinal study showed that this anti-pancreatic toxicity was detectable as early as the 10th day of life and lasted throughout the entire life span of the animal. None of these anomalies was found in control heterozygote mice.

Published

1983