Autoimmunity during thymectomy-induced lymphopenia: role of thymus ablation and initial effector T cell activation timing in nonobese diabetic mice.

Autoimmune diseases develop in selected normal mouse strains when thymectomy (Tx) is performed at 3 days of age (d3-Tx). Insufficient T cell regulation after Tx may result from a defect in regulatory T (Treg) cells or from an augmented effector T (Teff) cell number/pathogenicity. We have previously shown that Tx at 3 wk (wk3-Tx), the age of massive islet Ag release, accelerates diabetes onset.

Lymphopenia-induced spontaneous T-cell proliferation as a cofactor for autoimmune disease development.

Lymphopenia is thought to be a major cause of tolerance breakdown. In a lymphopenic environment, self-recognition events induce some T cells to expand strongly (a mechanism known as spontaneous proliferation). In this study, we show that in C57BL/6 mice, the repertoire resulting from lymphopenia-induced spontaneous CD4(+) T-cell proliferation included a proportion of regulatory T cells as large as that observed in a normal mouse, and no autoimmune disorder was observed.

Influence of a non-NK complex region of chromosome 6 on CD4+ invariant NK T cell homeostasis.

The number and function of immunoregulatory invariant NKT (iNKT) cells are genetically controlled. A defect of iNKT cell ontogeny and function has been implicated as one causal factor of NOD mouse susceptibility to type 1 diabetes. Other factors of diabetes susceptibility, such as a decrease of regulatory T cell function or an increase in TLR1 expression, are corrected in diabetes-resistant Idd6 NOD.

The diabetes type 1 locus Idd6 modulates activity of CD4+CD25+ regulatory T-cells.

The genetic locus Idd6 confers susceptibility to the spontaneous development of type 1 diabetes in the NOD mouse. Our studies on disease resistance of the congenic mouse strain NOD.C3H 6.

Role of beta-cells in type 1 diabetes pathogenesis.

Whether autoimmunity results primarily from a defect of the immune system, target organ dysfunction, or both remains an open issue in most human autoimmune diseases. The highly multigenic background on which diabetes develops in the NOD mouse and in the human suggests that numerous gene variants associate in contributing to activation of autoimmunity to beta-cells. Both immune genes and islet-related genes are involved.

Invariant NKT cells exacerbate type 1 diabetes induced by CD8 T cells.

Invariant NKT (iNKT) cells have been implicated in the regulation of autoimmune diseases. In several models of type 1 diabetes, increasing the number of iNKT cells prevents the development of disease. Because CD8 T cells play a crucial role in the pathogenesis of diabetes, we have investigated the influence of iNKT cells on diabetogenic CD8 T cells.

Impaired migration of NOD mouse thymocytes: a fibronectin receptor-related defect.

We previously showed intrathymic alterations in non-obese diabetic (NOD) mice, including the appearance of giant perivascular spaces, filled with mature thymocytes, intermingled with an extracellular matrix network. This raised the hypothesis of a defect in thymocyte migration with partial arrest of exiting thymocytes in the perivascular spaces. Herein, we investigated the expression of receptors for fibronectin [very late antigen (VLA)-4 and VLA-5] and laminin (VLA-6), known to play a role in thymocyte migration.

Passive transfer of flt-3L-derived dendritic cells delays diabetes development in NOD mice and associates with early production of interleukin (IL)-4 and IL-10 in the spleen of recipient mice.

CD11c+/CD11b+dendritic cells (DC) with high levels of major histocompatibility complex (MHC) class II and co-stimulatory molecules have been derived from spleen cells cultured with granulocyte-macrophage colony stimulating factor (GM-CSF) + flt-3L + interleukin (IL)-6 (flt-3L-DC). Investigating in vivo the function of DC in non-obese diabetic mice (NOD), we showed that a single injection of this in vitro-derived subset of DC prevents the development of diabetes into prediabetic female mice. In contrast, DC derived from bone marrow cells cultured with GM-CSF + IL-4 [bone marrow (BM)-DC] induced no protection.

Pancreatic lymph nodes are required for priming of beta cell reactive T cells in NOD mice.

Nonobese diabetic (NOD) mice develop spontaneous autoimmune diabetes that results from the destruction of insulin secreting beta cells by diabetogenic T cells. The time and location of the encounter of autoantigen(s) by naive autoreactive T cells in normal NOD mice are still elusive. To address these issues, we analyzed diabetes development in mice whose spleen or pancreatic lymph nodes (panLNs) had been removed.

Activation of natural killer T cells by alpha-galactosylceramide treatment prevents the onset and recurrence of autoimmune Type 1 diabetes.

Type 1 diabetes (T1D) in non-obese diabetic (NOD) mice may be favored by immune dysregulation leading to the hyporesponsiveness of regulatory T cells and activation of effector T-helper type 1 (Th1) cells. The immunoregulatory activity of natural killer T (NKT) cells is well documented, and both interleukin (IL)-4 and IL-10 secreted by NKT cells have important roles in mediating this activity. NKT cells are less frequent and display deficient IL-4 responses in both NOD mice and individuals at risk for T1D (ref.

In vivo blockade of the Fas-Fas ligand pathway inhibits cyclophosphamide-induced diabetes in NOD mice.

There is compelling evidence to show that insulin dependent diabetes ensues from selective apoptosis of pancreatic beta-cells mediated by autoreactive T-lymphocytes. The respective implication in this phenomenon of the various apoptotic pathways driven by Fas, perforin, or tumor necrosis factor is still ill- defined. Here we took advantage of the cyclophosphamide-induced model of accelerated diabetes in NOD mice to explore the physiopathological role of the Fas-Fas Ligand pathway.

The activity of immunoregulatory T cells mediating active tolerance is potentiated in nonobese diabetic mice by an IL-4-based retroviral gene therapy.

Splenocytes from nonobese diabetic mice overexpressing murine IL (mIL)-4 upon recombinant retrovirus infection lose their capacity to transfer diabetes to nonobese diabetic-scid recipients. Diabetes appeared in 0-20% of mice injected with mIL-4-transduced cells vs 80-100% of controls injected with beta-galactosidase-transduced cells. Protected mice showed a majority of islets (60%) presenting with noninvasive peri-insulitis at variance with beta-galactosidase controls that exhibited invasive/destructive insulitis.

Disorganization of thymic medulla precedes evolution towards diabetes in female NOD mice.

The thymic medulla is a complex microenvironment which plays a crucial role in central tolerance induction. Using a quantitative histological analysis of non-obese diabetic (NOD) mice, we show that the medulla undergoes several structural modifications during the course of the disease in NOD mice. Indeed, the majority of 70-day-old NOD mice show a scattering of medullary epithelial cells in the cortex which is associated with a reduction in the size of the medulla in heavily disorganized thymuses.

Characterization of peripheral regulatory CD4+ T cells that prevent diabetes onset in nonobese diabetic mice.

The period that precedes onset of insulin-dependent diabetes mellitus corresponds to an active dynamic state in which pathogenic autoreactive T cells are kept from destroying beta cells by regulatory T cells. In prediabetic nonobese diabetic (NOD) mice, CD4+ splenocytes were shown to prevent diabetes transfer in immunodeficient NOD recipients. We now demonstrate that regulatory splenocytes belong to the CD4+ CD62Lhigh T cell subset that comprises a vast majority of naive cells producing low levels of IL-2 and IFN-gamma and no IL-4 and IL-10 upon in vitro stimulation.

Mature mainstream TCR alpha beta+CD4+ thymocytes expressing L-selectin mediate "active tolerance" in the nonobese diabetic mouse.

Pathogenic autoreactive T lymphocytes are mediators of spontaneous insulin-dependent diabetes in nonobese diabetic (NOD) mice. This is demonstrated by their capacity to transfer diabetes into syngeneic immunoincompetent recipients. In addition, especially in prediabetic NOD mice, peripheral CD4+ T lymphocytes were identified that are highly effective, in conventional mixing cotransfer experiments, at preventing disease transfer.

Role of adhesion molecules in the homing and mobilization of murine hematopoietic stem and progenitor cells.

Bone marrow (BM) transplantation still must overcome multiple difficulties and should benefit from better understanding of stem-cell homing and mobilization. Here, we analyzed the involvement of several adhesion molecules in the two processes by treating mice with monoclonal antibodies against these molecules. Treatment of lethally irradiated mice grafted with isogeneic BM cells showed that at least two migration pathways are important for stem-cell homing to the BM, whereas only one of them is involved in lodging of colony-forming unit-spleen (CFU-S) in the spleen.

L-selectin(-/lo) and diabetogenic T cells are similarly distributed in prediabetic and diabetic nonobese diabetic mice.

We have previously shown that in the nonobese diabetic (NOD) mouse, an experimental model for autoimmune insulin-dependent diabetes, spleen diabetogenic T cells are contained within the T-cell subpopulation that express no or low levels of L-selectin. This phenotype characterizes activated/memory T cells. In the present study, we have compared the distribution of autoreactive T cells to that of L-selectin -/lo T cells in prediabetic and diabetic mice.

In vitro T cell unresponsiveness following low-dose injection of anti-CD3 MoAb.

Anti-CD3 MoAb treatment is widely used as an immunosuppressive therapy. In the present study we examined the in vitro T cell response in mice having received 24 h before a single i.v.

Homing of lymphocytes into islets of Langerhans in prediabetic non-obese diabetic mice is not restricted to autoreactive T cells.

Non-obese diabetic mice spontaneously develop a type 1 diabetes. The entry of leukocytes in the islets of Langerhans was studied in untreated and in irradiated mice. FITC-labeled cells from spleen, lymph nodes or bone marrow of healthy or diabetic donors did home to the inflamed islets of unmanipulated recipients.

Isolation of leukocytes infiltrating the islets of Langerhans of diabetes-prone mice for flow cytometric analysis.

A simple method was developed for flow cytometric immunofluorescence analysis of cells infiltrating the islets of Langerhans in diabetes-prone rodents. Pancreases were submitted to collagenase P digestion and, in order to minimize collagenase action on leukocytes, islets were isolated before digestion was completed, that is, when exocrine tissue still remained around the islets. Islets, maintained in medium supplemented with sodium azide to prevent modulation of surface markers, were then pressed through a metal sieve and the cell suspension filtered through two different nylon screens.

Role of interleukin-2 receptors in the suppressive effect of spleen cells from anti-CD3-treated mice.

In the present study, we demonstrate that unresponsive spleen T cells from mice injected with a low dose of anti-CD3 mAb (single 10 micrograms i.v. injection) significantly inhibit Con A-induced proliferation of normal spleen cells.

Lack of L-selectin expression by cells transferring diabetes in NOD mice: insights into the mechanisms involved in diabetes prevention by Mel-14 antibody treatment.

The process of mononuclear cell extravasation from the blood into the islets of Langerhans in nonobese diabetic (NOD) mice is dependent on the expression of a set of molecules, most of which remain to be defined. The observation that vascular addressins are expressed in inflamed islets raises the issue of the involvement of one of their ligands, L-selectin, in the pathogenesis of autoimmune diabetes. Treatment of NOD females with Mel-14, an antibody specific for L-selectin, reduced the spontaneous development of both insulitis and diabetes.

Two different mechanisms for the inhibition of rosette formation in mice.

The vast majority of spleen T cells (T.sRFC) which spontaneously bind to sheep red blood cells (SRBC) in an antigen-specific fashion express the Thy-1+, CD3+, CD8+ phenotype. Inhibition of rosetting by antibodies to surface molecules occurs via distinct mechanisms according to the antibody.

Recirculation, phenotype and functions of lymphocytes in mice treated with monoclonal antibody MEL-14.

The effect of a single injection of an antibody against the peripheral lymph node (PLN) homing receptor or L-selectin (gp90MEL-14) was studied in vivo in C57BL/6 mice. L-selectin is known to be rapidly shed from leukocytes in humans and in mice following activation or cross-linking in vitro. Here we demonstrate that in vivo a single injection of MEL-14 antibody induces a rapid, almost complete and reversible down-regulation of L-selectin expression on both T and B cells.