Your search keyword '"non-obese diabetic mice"' showing total 203 results

1. Mesenchymal stromal cells modulate unfolded protein response and preserve β-cell mass in type 1 diabetes.

Author

LIU, SIYUAN, ZHAO, YUAN, YU, YU, YE, DOU, WANG, QIAN, WANG, ZHAOYAN, and LUAN, ZUO

Subjects

*UNFOLDED protein response, *TYPE 1 diabetes, *MESENCHYMAL stem cells, *PROINSULIN, *CYTOKINES

Abstract

Introduction: Transplantation of mesenchymal stromal cells (MSCs) is a promising therapy for type 1 diabetes (T1D). However, whether the infused MSCs affect the endoplasmic reticulum stress or subsequent unfolded protein response in β cells remains unclear. Methods: To investigate this, we induced early-onset T1D in non-obese diabetic mice using streptozotocin. Subsequently, T1D mice were randomly assigned to receive either MSCs or phosphatebuffered saline. We observed the in vivo homing of MSCs and assessed their effectiveness by analyzing blood glucose levels, body weight, histopathology, pancreatic protein expression, and serum levels of cytokines, proinsulin, and Cpeptide. Results: Infused MSCs were found in the lungs, liver, spleen, and pancreas of T1D mice. They exhibited various effects, including reducing blood glucose levels, regulating immunity, inhibiting inflammation, increasing βcell areas, and reducing the expression of key proteins in the unfolded protein response pathway. Fasting serum proinsulin and C-peptide levels were significantly higher in the MSCs treatment group than in the T1D model group. However, there was no significant difference in the biomarker of β-cell endoplasmic reticulum stress, the ratio of fasting serum proinsulin to C-peptide, between the two groups. Conclusion: Our findings reveal that MSCs infusion does not alleviate endoplasmic reticulum stress in β cells directly but modulates the unfolded protein response pathway to preserve β-cell mass and function in T1D mice. [ABSTRACT FROM AUTHOR]

Published

2024

2. Prevention of Autoimmune Diabetes in NOD Mice by Dimethyl Fumarate.

Author

Li, Shiri, Vaziri, Nosratola D, Swentek, Lourdes, Takasu, Chie, Vo, Kelly, Stamos, Michael J, Ricordi, Camillo, and Ichii, Hirohito

Subjects

Nrf2, antioxidant, diabetes, dimethyl fumarate, non-obese diabetic mice, oxidative stress, Diabetes, Prevention, Nutrition, Autoimmune Disease, Pediatric, 2.1 Biological and endogenous factors, Metabolic and endocrine

Abstract

Oxidative stress plays critical roles in the pathogenesis of diabetes. This study tested the hypothesis that by protecting β-cells against oxidative stress and inflammation, an Nrf2 activator, dimethyl fumarate (DMF), may prevent or delay the onset of type 1 diabetes in non-obese diabetic (NOD) mice. Firstly, islet isolation was conducted to confirm the antioxidative effects of DMF oral administration on islet cells. Secondly, in a spontaneous diabetes model, DMF (25 mg/kg) was fed to mice once daily starting at the age of 8 weeks up to the age of 22 weeks. In a cyclophosphamide-induced accelerated diabetes model, DMF (25 mg/kg) was fed to mice twice daily for 2 weeks. In the islet isolation study, DMF administration improved the isolation yield, attenuated oxidative stress and enhanced GCLC and NQO1 expression in the islets. In the spontaneous model, DMF significantly reduced the onset of diabetes compared to the control group (25% vs. 54.2%). In the accelerated model, DMF reduced the onset of diabetes from 58.3% to 16.7%. The insulitis score in the islets of the DMF treatment group (1.6 ± 0.32) was significantly lower than in the control group (3.47 ± 0.21). The serum IL-1α, IL-1β, IL-2, IL-4, IL-5, IL-6, IL-9, IL-12p70, IFN-γ, TNF-α, MCP-1 and CXCL16 levels in the DMF-treated group were lower than in the control group. In conclusion, DMF may protect islet cells and reduce the incidence of autoimmune diabetes in NOD mice by attenuating insulitis and proinflammatory cytokine production.

Published

2021

3. Maternal antibiotic exposure increases total islet number and volume in the neonatal pancreas and reduces HbA1c and insulitis in adult female non‐obese diabetic mice

Author

Camilla Hartmann Friis Hansen, Martin Haupt‐Jorgensen, Karsten Buschard, Bente Pakkenberg, Lukasz Krych, and Axel Kornerup Hansen

Subjects

Akkermansia, antibiotics, gestation, gut microbiota, non‐obese diabetic mice, pancreatic islet neogenesis, Therapeutics. Pharmacology, RM1-950

Abstract

Abstract Background Early antibiotic treatment changes susceptibility to disease in rodent models for type 1 diabetes, but the impact that gestational antibiotics may have on pancreatic embryogenesis and β cell function later in life is still unknown. Methods Our aim was to determine whether gestational antibiotics could change islet neogenesis and function in female non‐obese diabetic mouse offspring. Stereology of pancreatic islets and insulin measurements were therefore applied to 2‐week‐old pups from mothers either exposed or not to a broad‐spectrum cocktail of ampicillin (1 g/L), vancomycin (0.5 g/L) and neomycin (1 g/L) during pregnancy. The degree of insulitis, glycated haemoglobin (HbA1c), serum cytokines and endotoxin, fasting glucose and insulin, and glucose tolerance were tested in the prediabetic pups later in life. Inflammatory and glycaemic measurements were made on the breeding females, and the gut microbiota was analysed by 16S sequencing in both the mothers and pups. Results Antibiotics depleted the maternal microbiome and perturbed the normal gut colonisation trajectory in the pups. While Akkermansia and Rikenellaceae were later enriched in the treated pups, Bacteroides failed to colonise post‐treatment. Antibiotic treatment reduced blood glucose in the mothers, weight of the pups, and HbA1c and insulitis in the adult offspring and increased anti‐inflammatory CD4+ natural killer T cells. This was preceded by more than 50% increase in total islet number and volume, and increased insulin levels in postnatal life. No changes were observed in their homeostatic model assessment of insulin resistance (HOMA‐IR) and β cell function (HOMA‐β), serum endotoxin or cytokine levels later in life, but the glucose tolerance response was altered in the treated offspring, which suggested an improvement in β cell exhaustion that may have left the islets less vulnerable to destruction. Conclusion Our study highlights the importance of considering maternal microbiota‐modulating factors as determinants that may mitigate or aggravate diabetes via changes in islet maturation and β cell function in perinatal life.

Published

2023

4. Interleukin-22 Exerts Detrimental Effects on Salivary Gland Integrity and Function.

Author

Zhou, Jing, Onodera, Shoko, Hu, Yang, and Yu, Qing

Subjects

*SALIVARY glands, *INTERLEUKIN-22, *EPITHELIUM, *SJOGREN'S syndrome, *SUBMANDIBULAR gland, *EPITHELIAL cell culture, *CELL death

Abstract

Interleukin-22 (IL-22) affects epithelial tissue function and integrity in a context-dependent manner. IL-22 levels are elevated in salivary glands of Sjögren's syndrome (SS) patients, but its role in the pathogenesis of this disease remains unclear. The objective of this study is to elucidate the impact of IL-22 on salivary gland tissue integrity and function in murine models. We showed that IL-22 levels in sera and salivary glands increased progressively in female non-obese diabetic (NOD) mice, accompanying the development of SS. Administration of IL-22 to the submandibular glands of NOD mice prior to the disease onset reduced salivary secretion and induced caspase-3 activation in salivary gland tissues, which were accompanied by alterations in multiple genes controlling tissue integrity and inflammation. Similarly, IL-22 administration to submandibular glands of C57BL/6 mice also induced hyposalivation and caspase-3 activation, whereas blockade of endogenous IL-22 in C57BL/6 mice treated with anti-CD3 antibody mitigated hyposalivation and caspase-3 activation. Finally, IL-22 treatment reduced the number of viable C57BL/6 mouse submandibular gland epithelial cells cultured in vitro, indicating a direct impact of this cytokine on these cells. We conclude that IL-22 exerts a detrimental impact on salivary gland tissues. [ABSTRACT FROM AUTHOR]

Published

2022

5. Beneficial effects of a T. monococcum wheat cultivar on diabetes incidence evaluated in non-obese diabetic mice and after in vitro simulated gastroduodenal digestion.

Author

Rotondi Aufiero, Vera, Di Stasio, Luigia, Maurano, Francesco, Accardo, Francesca, Ferranti, Pasquale, Mamone, Gianfranco, Rossi, Mauro, and Mazzarella, Giuseppe

Subjects

*FLOUR, *DURUM wheat, *WHEAT, *RICE flour, *DIGESTION, *DIABETES, *MICE

Abstract

Wheat consumption can represent one of the nutritional factors involved in the onset of diabetes. We specifically investigated the potential diabetogenic effects of Hammurabi, a T. monococcum wheat cultivar, in non-obese diabetic (NOD) mice and analysed the levels of resistant starch in pasta manufactured with Hammurabi after in vitro gastroduodenal digestion. NOD mice were fed with Hammurabi, bread wheat or rice flour to evaluate diabetes incidence and insulitis score. An enzymatic method was applied to compare the content of resistant starch in Hammurabi pasta and durum wheat pasta (control). In NOD mice, the Hammurabi-based diet significantly delayed diabetes onset (p = 0.0042) and reduced insulitis score compared to rice or wheat-based diet. Furthermore, the resistant starch value following in vitro digestion of Hammurabi pasta was significantly higher (4.08%) than that of durum wheat pasta (2.28%). Taken together, these results highlighted the potential positive effects of the Hammurabi-based diet on diabetes incidence. [ABSTRACT FROM AUTHOR]

Published

2022

6. Strip Meniscometry Tube in the Assessment of Tear Lactoferrin in Non-Obese Diabetic (NOD) Mice.

Author

Dogru, Murat, Kojima, Takashi, Nagata, Taeko, and Tsubota, Kazuo

Subjects

MICE, LACTOFERRIN, TUBES, FLUORESCEIN, MEASURING instruments

Abstract

Purpose: To investigate the applicability of strip meniscometry tube (SMT) in the measurement of tear lactoferrin in non-obese diabetic mice (NOD). Methods: SMT (SMTube, Echo Electricity Co., Ltd., Tokyo, Japan) and fluorescein staining tests were performed on 7–14 week NOD- male mice (n = 4) and age and sex matched wild–type (Balbc, WT) mice (n = 5). Tears collected during SMT underwent lactoferrin concentration measurement by ELISA. Results: The mean SMT value was significantly lower in NOD mice compared to wild-type mice (p = 0.01). The mean corneal fluorescein staining score in the NOD mice was significantly lower compared with the wild-type mice (p = 0.03). The mean tear lactoferrin level also showed a significantly lower concentration in NOD mice (p = 0.02). Conclusions: SMT has been shown to be an effective tool in measuring tear volume in humans, cats, dogs, and mice. SMT may also serve as a useful tool for tear lactoferrin assessment in NOD and WT mice in experimental settings. [ABSTRACT FROM AUTHOR]

Published

2022

7. Fucoidan prevent murine autoimmune diabetes via suppression TLR4-signaling pathways, regulation DC/Treg induced immune tolerance and improving gut microecology

Author

Meilan Xue, Hui Liang, Xinqiang Ji, Ying Liu, Yinlin Ge, Lin Hou, and Ting Sun

Subjects

Type 1 diabetes, Non-obese diabetic mice, Fucoidan, Immune tolerance, Gut microecology, Nutrition. Foods and food supply, TX341-641, Nutritional diseases. Deficiency diseases, RC620-627

Abstract

Abstract Background This study was to investigate the effect and its possible mechanism of fucoidan on the development of spontaneous autoimmune diabetes in non-obese diabetic (NOD) mice. Methods 7-week-old NOD mice were randomly divided into three groups: control group, low-dose (300 mg/kg) and high-dose (600 mg/kg) fucoidan-treatment groups. After 5 weeks of treatment, 10 mice per group were randomly selected to be sacrificed after feces collection. The remaining 12 mice per group were fed until 26 weeks of age to assess the incidence of diabetes. Results Treatment with fucoidan increased serum insulin level, delayed the onset and decreased the development of diabetes in NOD mice. Fucoidan reduced the levels of strong Th1 proinflammatory cytokines, but induced Th2-bias ed. cytokine response. And dentridic cells (DCs) in fucoidan treatment group were characterized as low expression of MHC class II and CD86 molecules. TLR4 expressions and the downstream molecules in pancreas were down-regulated in fucoidan-treated groups. There were significant differences in the composition of gut flora between NOD control group and fucoidan group. Lactobacillus and Akkermansia were significantly enriched in fucoidan group. Conclusions Fucoidan could prevent the development of autoimmune diabetes in NOD mice via regulating DC/Treg induced immune tolerance, improving gut microecology, down-regulating TLR4 signaling pathway, and maintaining pancreatic internal environment.

Published

2019

8. Strip Meniscometry Tube in the Assessment of Tear Lactoferrin in Non-Obese Diabetic (NOD) Mice

Author

Murat Dogru, Takashi Kojima, Taeko Nagata, and Kazuo Tsubota

Subjects

non-obese diabetic mice, dry eye, strip meniscometry, tear lactoferrin, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Purpose: To investigate the applicability of strip meniscometry tube (SMT) in the measurement of tear lactoferrin in non-obese diabetic mice (NOD). Methods: SMT (SMTube, Echo Electricity Co., Ltd., Tokyo, Japan) and fluorescein staining tests were performed on 7–14 week NOD- male mice (n = 4) and age and sex matched wild–type (Balbc, WT) mice (n = 5). Tears collected during SMT underwent lactoferrin concentration measurement by ELISA. Results: The mean SMT value was significantly lower in NOD mice compared to wild-type mice (p = 0.01). The mean corneal fluorescein staining score in the NOD mice was significantly lower compared with the wild-type mice (p = 0.03). The mean tear lactoferrin level also showed a significantly lower concentration in NOD mice (p = 0.02). Conclusions: SMT has been shown to be an effective tool in measuring tear volume in humans, cats, dogs, and mice. SMT may also serve as a useful tool for tear lactoferrin assessment in NOD and WT mice in experimental settings.

Published

2022

9. Gene Expression Analysis of the Pre-Diabetic Pancreas to Identify Pathogenic Mechanisms and Biomarkers of Type 1 Diabetes

Author

Linda Yip, Rebecca Fuhlbrigge, Reem Alkhataybeh, and C. Garrison Fathman

Subjects

gene expression, type 1 diabetes, auto-antibody positive, non-obese diabetic mice, pancreas, biomarker, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

Type 1 Diabetes (T1D) occurs as a result of the autoimmune destruction of pancreatic β-cells by self-reactive T cells. The etiology of this disease is complex and difficult to study due to a lack of disease-relevant tissues from pre-diabetic individuals. In this study, we performed gene expression analysis on human pancreas tissues obtained from the Network of Pancreatic Organ Donors with Diabetes (nPOD), and showed that 155 genes were differentially expressed by ≥2-fold in the pancreata of autoantibody-positive (AA+) at-risk individuals compared to healthy controls. Only 48 of these genes remained changed by ≥2-fold in the pancreata of established T1D patients. Pathway analysis of these genes showed a significant association with various immune pathways. We were able to validate the differential expression of eight disease-relevant genes by QPCR analysis: A significant upregulation of CADM2, and downregulation of TRPM5, CRH, PDK4, ANGPL4, CLEC4D, RSG16, and FCGR2B was confirmed in the pancreata of AA+ individuals versus controls. Studies have already implicated FCGR2B in the pathogenesis of disease in non-obese diabetic (NOD) mice. Here we showed that CADM2, TRPM5, PDK4, and ANGPL4 were similarly changed in the pancreata of pre-diabetic 12-week-old NOD mice compared to NOD.B10 controls, suggesting a possible role for these genes in the pathogenesis of both T1D and NOD disease. The loss of the leukocyte-specific gene, FCGR2B, in the pancreata of AA+ individuals, is particularly interesting, as it may serve as a potential whole blood biomarker of disease progression. To test this, we quantified FCGR2B expression in peripheral blood samples of T1D patients, and AA+ and AA- first-degree relatives of T1D patients enrolled in the TrialNet Pathway to Prevention study. We showed that FCGR2B was significantly reduced in the peripheral blood of AA+ individuals compared to AA- controls. Together, these findings demonstrate that gene expression analysis of pancreatic tissue and peripheral blood samples can be used to identify disease-relevant genes and pathways and potential biomarkers of disease progression in T1D.

Published

2020

10. Gene Expression Analysis of the Pre-Diabetic Pancreas to Identify Pathogenic Mechanisms and Biomarkers of Type 1 Diabetes.

Author

Yip, Linda, Fuhlbrigge, Rebecca, Alkhataybeh, Reem, and Fathman, C. Garrison

Subjects

TYPE 1 diabetes, GENE expression, BIOMARKERS, PANCREAS, ETIOLOGY of diseases, PANCREATIC cysts, FOOT diseases

Abstract

Type 1 Diabetes (T1D) occurs as a result of the autoimmune destruction of pancreatic β-cells by self-reactive T cells. The etiology of this disease is complex and difficult to study due to a lack of disease-relevant tissues from pre-diabetic individuals. In this study, we performed gene expression analysis on human pancreas tissues obtained from the Network of Pancreatic Organ Donors with Diabetes (nPOD), and showed that 155 genes were differentially expressed by ≥2-fold in the pancreata of autoantibody-positive (AA+) at-risk individuals compared to healthy controls. Only 48 of these genes remained changed by ≥2-fold in the pancreata of established T1D patients. Pathway analysis of these genes showed a significant association with various immune pathways. We were able to validate the differential expression of eight disease-relevant genes by QPCR analysis: A significant upregulation of CADM2 , and downregulation of TRPM5, CRH, PDK4, ANGPL4, CLEC4D, RSG16 , and FCGR2B was confirmed in the pancreata of AA+ individuals versus controls. Studies have already implicated FCGR2B in the pathogenesis of disease in non-obese diabetic (NOD) mice. Here we showed that CADM2, TRPM5, PDK4 , and ANGPL4 were similarly changed in the pancreata of pre-diabetic 12-week-old NOD mice compared to NOD.B10 controls, suggesting a possible role for these genes in the pathogenesis of both T1D and NOD disease. The loss of the leukocyte-specific gene, FCGR2B , in the pancreata of AA+ individuals, is particularly interesting, as it may serve as a potential whole blood biomarker of disease progression. To test this, we quantified FCGR2B expression in peripheral blood samples of T1D patients, and AA+ and AA- first-degree relatives of T1D patients enrolled in the TrialNet Pathway to Prevention study. We showed that FCGR2B was significantly reduced in the peripheral blood of AA+ individuals compared to AA- controls. Together, these findings demonstrate that gene expression analysis of pancreatic tissue and peripheral blood samples can be used to identify disease-relevant genes and pathways and potential biomarkers of disease progression in T1D. [ABSTRACT FROM AUTHOR]

Published

2020

11. Type 1 diabetes pathogenesis and the role of inhibitory receptors in islet tolerance.

Author

Martinov, Tijana and Fife, Brian T.

Subjects

*TYPE 1 diabetes, *PATHOLOGY, *B cells, *ISLANDS of Langerhans, *T cells

Abstract

Type 1 diabetes (T1D) affects over a million Americans, and disease incidence is on the rise. Despite decades of research, there is still no cure for this disease. Exciting beta cell replacement strategies are being developed, but in order for such approaches to work, targeted immunotherapies must be designed. To selectively halt the autoimmune response, researchers must first understand how this response is regulated and which tolerance checkpoints fail during T1D development. Herein, we discuss the current understanding of T1D pathogenesis in humans, genetic and environmental risk factors, presumed roles of CD4+ and CD8+ T cells as well as B cells, and implicated autoantigens. We also highlight studies in non‐obese diabetic mice that have demonstrated the requirement for CD4+ and CD8+ T cells and B cells in driving T1D pathology. We present an overview of central and peripheral tolerance mechanisms and comment on existing controversies in the field regarding central tolerance. Finally, we discuss T cell– and B cell–intrinsic tolerance mechanisms, with an emphasis on the roles of inhibitory receptors in maintaining islet tolerance in humans and in diabetes‐prone mice, and strategies employed to date to harness inhibitory receptor signaling to prevent or reverse T1D. [ABSTRACT FROM AUTHOR]

Published

2020

12. Norovirus Changes Susceptibility to Type 1 Diabetes by Altering Intestinal Microbiota and Immune Cell Functions

Author

James A. Pearson, Ningwen Tai, Dilrukshi K. Ekanayake-Alper, Jian Peng, Youjia Hu, Karl Hager, Susan Compton, F. Susan Wong, Peter C. Smith, and Li Wen

Subjects

norovirus, type 1 diabetes, non-obese diabetic mice, gut microbiota, Tuft cells, Treg, Immunologic diseases. Allergy, RC581-607

Abstract

Environmental factors contribute to Type 1 diabetes (T1D) susceptibility. The gut microbiome, which includes bacteria, viruses, and fungi, contributes to this environmental influence, and can induce immunological changes. The gut viral component of the microbiome, related to T1D has mostly focused on coxsackieviruses and rotavirus. The role of norovirus, another common enteric virus, in susceptibility to T1D was hitherto unknown. Norovirus is highly infectious and encountered by many children. We studied the mouse norovirus 4 (MNV4), related to human noroviruses, in the Non-obese diabetic (NOD) mouse model, to determine its role in influencing susceptibility to T1D. We infected MNV-free NOD mice with MNV4 by exposing the mice to MNV4-positive bedding from an endemically-infected mouse colony to mimic a natural infection. Control MNV-free NOD mice were exposed to MNV-free bedding from the same colony. Interestingly, MNV4 infection protected NOD mice from the development of T1D and was associated with an expansion of Tregs and reduced proinflammatory T cells. We also found MNV4 significantly modified the gut commensal bacteria composition, promoting increased α-diversity and Firmicutes/Bacteroidetes ratio. To elucidate whether T1D protection was directly related to MNV4, or indirectly through modulating gut microbiota, we colonized germ-free (GF) NOD mice with the MNV4-containing or non-MNV4-containing viral filtrate, isolated from filtered fecal material. We found that MNV4 induced significant changes in mucosal immunity, including altered Tuft cell markers, cytokine secretion, antiviral immune signaling markers, and the concentration of mucosal antibodies. Systemically, MNV4-infection altered the immune cells including B cell subsets, macrophages and T cells, and especially induced an increase in Treg number and function. Furthermore, in vitro primary exposure of the norovirus filtrate to naïve splenocytes identified significant increases in the proportion of activated and CTLA4-expressing Tregs. Our data provide novel knowledge that norovirus can protect NOD mice from T1D development by inducing the expansion of Tregs and reducing inflammatory T cells. Our study also highlights the importance of distinguishing the mucosal immunity mediated by bacteria from that by enteric viruses.

Published

2019

13. Fucoidan prevent murine autoimmune diabetes via suppression TLR4-signaling pathways, regulation DC/Treg induced immune tolerance and improving gut microecology.

Author

Xue, Meilan, Liang, Hui, Ji, Xinqiang, Liu, Ying, Ge, Yinlin, Hou, Lin, and Sun, Ting

Subjects

*ALGAE, *ANIMAL experimentation, *BLOOD sugar, *CELLULAR signal transduction, *CYTOKINES, *DENDRITIC cells, *FECES, *GENE expression, *GRAM-negative bacteria, *IMMUNOLOGICAL tolerance, *INSULIN, *TYPE 1 diabetes, *ISLANDS of Langerhans, *LACTOBACILLUS, *PANCREAS, *POLYSACCHARIDES, *RODENTS, *T cells, *GUT microbiome, *DISEASE incidence, *TOLL-like receptors

Abstract

Background: This study was to investigate the effect and its possible mechanism of fucoidan on the development of spontaneous autoimmune diabetes in non-obese diabetic (NOD) mice. Methods: 7-week-old NOD mice were randomly divided into three groups: control group, low-dose (300 mg/kg) and high-dose (600 mg/kg) fucoidan-treatment groups. After 5 weeks of treatment, 10 mice per group were randomly selected to be sacrificed after feces collection. The remaining 12 mice per group were fed until 26 weeks of age to assess the incidence of diabetes. Results: Treatment with fucoidan increased serum insulin level, delayed the onset and decreased the development of diabetes in NOD mice. Fucoidan reduced the levels of strong Th1 proinflammatory cytokines, but induced Th2-bias ed. cytokine response. And dentridic cells (DCs) in fucoidan treatment group were characterized as low expression of MHC class II and CD86 molecules. TLR4 expressions and the downstream molecules in pancreas were down-regulated in fucoidan-treated groups. There were significant differences in the composition of gut flora between NOD control group and fucoidan group. Lactobacillus and Akkermansia were significantly enriched in fucoidan group. Conclusions: Fucoidan could prevent the development of autoimmune diabetes in NOD mice via regulating DC/Treg induced immune tolerance, improving gut microecology, down-regulating TLR4 signaling pathway, and maintaining pancreatic internal environment. [ABSTRACT FROM AUTHOR]

Published

2019

14. Norovirus Changes Susceptibility to Type 1 Diabetes by Altering Intestinal Microbiota and Immune Cell Functions.

Author

Pearson, James A., Tai, Ningwen, Ekanayake-Alper, Dilrukshi K., Peng, Jian, Hu, Youjia, Hager, Karl, Compton, Susan, Wong, F. Susan, Smith, Peter C., and Wen, Li

Subjects

TYPE 1 diabetes, CELL physiology, GUT microbiome, T cells, ENTEROVIRUSES

Abstract

Environmental factors contribute to Type 1 diabetes (T1D) susceptibility. The gut microbiome, which includes bacteria, viruses, and fungi, contributes to this environmental influence, and can induce immunological changes. The gut viral component of the microbiome, related to T1D has mostly focused on coxsackieviruses and rotavirus. The role of norovirus, another common enteric virus, in susceptibility to T1D was hitherto unknown. Norovirus is highly infectious and encountered by many children. We studied the mouse norovirus 4 (MNV4), related to human noroviruses, in the Non-obese diabetic (NOD) mouse model, to determine its role in influencing susceptibility to T1D. We infected MNV-free NOD mice with MNV4 by exposing the mice to MNV4-positive bedding from an endemically-infected mouse colony to mimic a natural infection. Control MNV-free NOD mice were exposed to MNV-free bedding from the same colony. Interestingly, MNV4 infection protected NOD mice from the development of T1D and was associated with an expansion of Tregs and reduced proinflammatory T cells. We also found MNV4 significantly modified the gut commensal bacteria composition, promoting increased α-diversity and Firmicutes/Bacteroidetes ratio. To elucidate whether T1D protection was directly related to MNV4, or indirectly through modulating gut microbiota, we colonized germ-free (GF) NOD mice with the MNV4-containing or non-MNV4-containing viral filtrate, isolated from filtered fecal material. We found that MNV4 induced significant changes in mucosal immunity, including altered Tuft cell markers, cytokine secretion, antiviral immune signaling markers, and the concentration of mucosal antibodies. Systemically, MNV4-infection altered the immune cells including B cell subsets, macrophages and T cells, and especially induced an increase in Treg number and function. Furthermore, in vitro primary exposure of the norovirus filtrate to naïve splenocytes identified significant increases in the proportion of activated and CTLA4-expressing Tregs. Our data provide novel knowledge that norovirus can protect NOD mice from T1D development by inducing the expansion of Tregs and reducing inflammatory T cells. Our study also highlights the importance of distinguishing the mucosal immunity mediated by bacteria from that by enteric viruses. [ABSTRACT FROM AUTHOR]

Published

2019

15. Prevention of Autoimmune Diabetes in NOD Mice by Dimethyl Fumarate

Author

Shiri Li, Nosratola D. Vaziri, Lourdes Swentek, Chie Takasu, Kelly Vo, Michael J. Stamos, Camillo Ricordi, and Hirohito Ichii

Subjects

diabetes, non-obese diabetic mice, Nrf2, dimethyl fumarate, antioxidant, oxidative stress, Therapeutics. Pharmacology, RM1-950

Abstract

Oxidative stress plays critical roles in the pathogenesis of diabetes. This study tested the hypothesis that by protecting β-cells against oxidative stress and inflammation, an Nrf2 activator, dimethyl fumarate (DMF), may prevent or delay the onset of type 1 diabetes in non-obese diabetic (NOD) mice. Firstly, islet isolation was conducted to confirm the antioxidative effects of DMF oral administration on islet cells. Secondly, in a spontaneous diabetes model, DMF (25 mg/kg) was fed to mice once daily starting at the age of 8 weeks up to the age of 22 weeks. In a cyclophosphamide-induced accelerated diabetes model, DMF (25 mg/kg) was fed to mice twice daily for 2 weeks. In the islet isolation study, DMF administration improved the isolation yield, attenuated oxidative stress and enhanced GCLC and NQO1 expression in the islets. In the spontaneous model, DMF significantly reduced the onset of diabetes compared to the control group (25% vs. 54.2%). In the accelerated model, DMF reduced the onset of diabetes from 58.3% to 16.7%. The insulitis score in the islets of the DMF treatment group (1.6 ± 0.32) was significantly lower than in the control group (3.47 ± 0.21). The serum IL-1α, IL-1β, IL-2, IL-4, IL-5, IL-6, IL-9, IL-12p70, IFN-γ, TNF-α, MCP-1 and CXCL16 levels in the DMF-treated group were lower than in the control group. In conclusion, DMF may protect islet cells and reduce the incidence of autoimmune diabetes in NOD mice by attenuating insulitis and proinflammatory cytokine production.

Published

2021

16. EVOO supplement prevents type 1 diabetes by modulating gut microbiota and serum metabolites in NOD mice.

Author

Wang, Yan, Shen, Yiming, Lu, Shiping, and Wu, Jie

Subjects

*MICROBIAL metabolites, *TYPE 1 diabetes, *GUT microbiome, *GASTRIC emptying, *SHORT-chain fatty acids, *TIME-of-flight mass spectrometry, *METABOLITES

Abstract

Extra virgin olive oil (EVOO) is the highest quality olive oil available and has been shown to regulate postprandial blood glucose in patients with type 1 diabetes (T1D). However, it remains uncertain whether EVOO can prevent the onset of T1D. In this study, we investigated the potential preventive effect of orally administered EVOO on T1D in non-obese diabetic (NOD) mice. We analyzed changes in fecal microbes using 16 s rDNA sequencing and serum metabolites using Ultra High-Performance Liquid Chromatography and Quadrupole Time-of-Flight Mass Spectrometry (Q-TOF-MS). Our findings showed that EVOO supplementation in NOD mice slowed gastric emptying, reduced insulitis, and delayed T1D onset. Moreover, EVOO altered the composition of fecal microbes, increasing the Bacteroidetes/Firmicutes ratio, and promoting the growth of short-chain fatty acids (SCFAs)-producing bacteria, such as Lachnoclostridium and Ruminococcaceae_UCG-005. Moreover, it also increased beneficial serum metabolites, including unsaturated fatty acid and triterpenoid, which positively correlated with the increased SCFA-producing bacteria and negatively correlated with the disease indicators. Conversely, most decreased serum lipid metabolites, such as Oleamide, showed the opposite trend. Our study demonstrates that EVOO may ameliorate pancreas inflammation and prevent T1D onset in NOD mice by modulating gut microbiota and serum metabolites. [ABSTRACT FROM AUTHOR]

Published

2023

17. Adoptive transfer of immature dendritic cells with high HO-1 expression delays the onset of T1DM in NOD mice.

Author

Yang, Xi, Ma, Ziyi, Tan, Xiaosheng, Shi, Yuzhen, Yuan, Mingming, Chen, Gang, Luo, Xiaoping, and Hou, Ling

Subjects

*DENDRITIC cells, *TYPE 1 diabetes, *WESTERN immunoblotting, *MICE

Abstract

To investigate the potential of imDCs with high expression of HO-1 in preventing or delaying the onset of Type 1 diabetes mellitus (T1DM) in non-obese diabetic (NOD) mice. The phenotypic features of DCs in each group were assessed using flow cytometry. Western blot analysis was used to confirm the high expression of HO-1 in imDCs induced with CoPP. Additionally, flow cytometry was used to evaluate the suppressive capacity of CoPP-induced imDCs on splenic lymphocyte proliferation. Finally, the preventive effect of CoPP-induced imDCs was tested in NOD mice. Compared to imDCs, CoPP-induced imDCs exhibited a reduced mean fluorescence intensity (MFI) of the co-stimulatory molecule CD80 on their surface (P < 0.05) and significantly increased HO-1 protein expression (P < 0.05). Following LPS stimulation, the MFI of co-stimulatory molecules CD80 and CD86 on the surface of CoPP-induced imDCs remained at a lower level (P < 0.05). Furthermore, there was a reduced proliferation rate of lymphocytes stimulated with anti-CD3/28 antibodies. The adoptive transfer of CoPP-imDCs significantly reduced the incidence of T1DM (16.66 % vs. control group: 66.67 %, P = 0.004). Furthermore, at 15 weeks of age, the insulitis score was also decreased in the CoPP-induced imDC treatment group (P < 0.05). There were no significant differences in serum insulin levels among all groups. ImDCs induced with CoPP and exhibiting high expression of HO-1 demonstrate a robust ability to inhibit immune responses and effectively reduce the onset of diabetes in NOD mice. This finding suggests that CoPP-induced imDCs could potentially serve as a promising treatment strategy for T1DM. [ABSTRACT FROM AUTHOR]

Published

2023

18. Uterine Dysfunction in Diabetic Mice: The Role of Hydrogen Sulfide

Author

Emma Mitidieri, Domenico Vanacore, Carlotta Turnaturi, Raffaella Sorrentino, and Roberta d’Emmanuele di Villa Bianca

Subjects

contraction, diabetes, hydrogen sulfide, 3-mercaptopyruvate-sulfurtransferase, non-obese diabetic mice, spontaneous motility, Therapeutics. Pharmacology, RM1-950

Abstract

It is well-known that the physiological uterine peristalsis, related to several phases of reproductive functions, plays a pivotal role in fertility and female reproductive health. Here, we have addressed the role of hydrogen sulfide (H2S) signaling in changes of uterine contractions driven by diabetes in non-obese diabetic (NOD) mice, a murine model of type-1 diabetes mellitus. The isolated uterus of NOD mice showed a significant reduction in spontaneous motility coupled to a generalized hypo-contractility to uterotonic agents. The levels of cyclic nucleotides, cAMP and cGMP, notoriously involved in the regulation of uterus homeostasis, were significantly elevated in NOD mouse uteri. This increase was well-correlated with the higher levels of H2S, a non-specific endogenous inhibitor of phosphodiesterases. The exposure of isolated uterus to L-cysteine (L-Cys), but not to sodium hydrogen sulfide, the exogenous source of H2S, showed a weak tocolytic effect in the uterus of NOD mice. Western blot analysis revealed a reorganization of the enzymatic expression with an upregulation of 3-mercaptopyruvate-sulfurtransferase (3-MST) coupled to a reduction in both cystathionine-β-synthase (CBS) and cystathionine-γ-lyase (CSE) expression. In conclusion, the increased levels of cyclic nucleotides dysregulate the uterus peristalsis and contractility in diabetic mice through an increase in basal H2S synthesis suggesting a role of 3-MST.

Published

2020

19. IFNγ-Induced MHC Class II Expression on Islet Endothelial Cells Is an Early Marker of Insulitis but Is Not Required for Diabetogenic CD4+ T Cell Migration

Author

Nicholas A. Scott, Yuxing Zhao, Balasubramanian Krishnamurthy, Stuart I. Mannering, Thomas W. H. Kay, and Helen E. Thomas

Subjects

Type 1 diabetes, MHC class II, interferon-γ, endothelial cells, non-obese diabetic mice, Immunologic diseases. Allergy, RC581-607

Abstract

Diabetogenic T cells infiltrate the pancreatic islets by transmigrating across the microcapillaries residing close to, or within, the pancreatic islets. Deficiency in IFNγ signaling prevents efficient migration of T cells into the pancreatic islets, but the IFNγ-regulated molecules that mediate this are uncertain. Homing of autoreactive T cells into target tissues may require antigen specificity through presentation of cognate antigen by MHC expressed on the vascular endothelium. We investigated the hypothesis that IFNγ promotes the migration of islet antigen-specific CD4+ T cells by upregulating MHC class II on islet endothelial cells (IEC), thereby providing an antigen-specific signal for islet infiltration. Upon IFNγ stimulation, MHC class II, which is not constitutively expressed on IEC, was induced. IFNγ-dependent upregulation of MHC class II was detected in IEC isolated from prediabetic NOD mice at the earliest stages of insulitis, before other markers of inflammation were present. Using a CD4+ T cell-mediated adoptive transfer model of autoimmune diabetes we observed that even though diabetes does not develop in recipient mice lacking IFNγ receptors, mice with MHC class II-deficient IEC were not protected from disease. Thus, IFNγ-regulated molecules, but not MHC class II or antigen presentation by IECs is required for the early migration of antigen-specific CD4+ T cells into the pancreatic islets.

Published

2018

20. Stability of Chimerism in Non-Obese Diabetic Mice Achieved By Rapid T Cell Depletion Is Associated With High Levels of Donor Cells Very Early After Transplant

Author

Jiaxin Lin, William F. N. Chan, Louis Boon, and Colin C. Anderson

Subjects

chimerism, tolerance, hematopoietic stem cell, transplantation, T cell depletion, non-obese diabetic mice, Immunologic diseases. Allergy, RC581-607

Abstract

Stable mixed hematopoietic chimerism is a robust method for inducing donor-specific tolerance with the potential to prevent rejection of donor islets in recipients with autoimmune type-1 diabetes. However, with reduced intensity conditioning, fully allogeneic chimerism in a tolerance resistant autoimmune-prone non-obese diabetic (NOD) recipient has rarely been successful. In this setting, successful multilineage chimerism has required either partial major histocompatability complex matching, mega doses of bone marrow, or conditioning approaches that are not currently clinically feasible. Irradiation free protocols with moderate bone marrow doses have not generated full tolerance; donor skin grafts were rejected. We tested whether more efficient recipient T cell depletion would generate a more robust tolerance. We show that a combination of donor-specific transfusion-cyclophosphamide and multiple T cell depleting antibodies could induce stable high levels of fully allogeneic chimerism in NOD recipients. Less effective T cell depletion was associated with instability of chimerism. Stable chimeras appeared fully donor-specific tolerant, with clonal deletion of allospecific T cells and acceptance of donor skin grafts, while recovering substantial immunocompetence. The loss of chimerism months after transplant was significantly associated with a lower level of chimerism and donor T cells within the first 2 weeks after transplant. Thus, rapid and robust recipient T cell depletion allows for stable high levels of fully allogeneic chimerism and robust donor-specific tolerance in the stringent NOD model while using a clinically feasible protocol. In addition, these findings open the possibility of identifying recipients whose chimerism will later fail, stratifying patients for early intervention.

Published

2018

21. Beneficial effects of a T. monococcum wheat cultivar on diabetes incidence evaluated in non-obese diabetic mice and after in vitro simulated gastroduodenal digestion

Author

Pasquale Ferranti, Vera Rotondi Aufiero, Luigia Di Stasio, Francesco Maurano, Gianfranco Mamone, Mauro Rossi, Francesca Accardo, Giuseppe Mazzarella, Rotondi Aufiero, Vera, Di Stasio, Luigia, Maurano, Francesco, Accardo, Francesca, Ferranti, Pasquale, Mamone, Gianfranco, Rossi, Mauro, and Mazzarella, Giuseppe

Subjects

Triticum monococcum, resistant starch, food.ingredient, Flour, Nod, Biology, Diabetes Mellitus, Experimental, Mice, non-obese diabetic mice, food, Mice, Inbred NOD, Diabetes mellitus, medicine, insuliti, Food science, Cultivar, Resistant starch, Triticum, NOD mice, diabetes, Animal, Incidence, Incidence (epidemiology), food and beverages, in vitro simulated gastroduodenal digestion, Starch, monococcum, medicine.disease, non-fasting glycaemia, Digestion, Insulitis, NOD mouse, Food Science

Abstract

Wheat consumption can represent one of the nutritional factors involved in the onset of diabetes. We specifically investigated the potential diabetogenic effects of Hammurabi, a T. monococcum wheat cultivar, in non-obese diabetic (NOD) mice and analysed the levels of resistant starch in pasta manufactured with Hammurabi after in vitro gastroduodenal digestion. NOD mice were fed with Hammurabi, bread wheat or rice flour to evaluate diabetes incidence and insulitis score. An enzymatic method was applied to compare the content of resistant starch in Hammurabi pasta and durum wheat pasta (control). In NOD mice, the Hammurabi-based diet significantly delayed diabetes onset (p = 0.0042) and reduced insulitis score compared to rice or wheat-based diet. Furthermore, the resistant starch value following in vitro digestion of Hammurabi pasta was significantly higher (4.08%) than that of durum wheat pasta (2.28%). Taken together, these results highlighted the potential positive effects of the Hammurabi-based diet on diabetes incidence.

Published

2021

22. Preclinical models for Type 1 Diabetes Mellitus - A practical approach for research.

Author

Peng X, Rao G, Li X, Tong N, Tian Y, and Fu X

Subjects

Animals, Humans, Models, Animal, Diabetes Mellitus, Type 1 drug therapy, Biomedical Research

Abstract

Numerous preclinical models have been developed to advance biomedical research in type 1 diabetes mellitus (T1DM). They are essential for improving our knowledge of T1DM development and progression, allowing researchers to identify potential therapeutic targets and evaluate the effectiveness of new medications. A deeper comprehension of these models themselves is critical not only to determine the optimal strategies for their utilization but also to fully unlock their potential applications in both basic and translational research. Here, we will comprehensively summarize and discuss the applications, advantages, and limitations of the commonly used animal models for human T1DM and also overview the up-to-date human tissue bioengineering models for the investigation of T1DM. By combining these models with a better understanding of the pathophysiology of T1DM, we can enhance our insights into disease initiation and development, ultimately leading to improved therapeutic responses and outcomes., Competing Interests: Competing Interests: The authors have declared that no competing interest exists., (© The author(s).)

Published

2023

23. IFNγ-Induced MHC Class II Expression on Islet Endothelial Cells Is an Early Marker of Insulitis but Is Not Required for Diabetogenic CD4+ T Cell Migration.

Author

Scott, Nicholas A., Zhao, Yuxing, Krishnamurthy, Balasubramanian, Mannering, Stuart I., Kay, Thomas W. H., and Thomas, Helen E.

Abstract

Diabetogenic T cells infiltrate the pancreatic islets by transmigrating across the microcapillaries residing close to, or within, the pancreatic islets. Deficiency in IFNγ signaling prevents efficient migration of T cells into the pancreatic islets, but the IFNγ-regulated molecules that mediate this are uncertain. Homing of autoreactive T cells into target tissues may require antigen specificity through presentation of cognate antigen by MHC expressed on the vascular endothelium. We investigated the hypothesis that IFNγ promotes the migration of islet antigen-specific CD4+ T cells by upregulating MHC class II on islet endothelial cells (IEC), thereby providing an antigen-specific signal for islet infiltration. Upon IFNγ stimulation, MHC class II, which is not constitutively expressed on IEC, was induced. IFNγ-dependent upregulation of MHC class II was detected in IEC isolated from prediabetic NOD mice at the earliest stages of insulitis, before other markers of inflammation were present. Using a CD4+ T cell-mediated adoptive transfer model of autoimmune diabetes we observed that even though diabetes does not develop in recipient mice lacking IFNγ receptors, mice with MHC class II-deficient IEC were not protected from disease. Thus, IFNγ-regulated molecules, but not MHC class II or antigen presentation by IECs is required for the early migration of antigen-specific CD4+ T cells into the pancreatic islets. [ABSTRACT FROM AUTHOR]

Published

2018

24. Stability of Chimerism in Non-Obese Diabetic Mice Achieved By Rapid T Cell Depletion Is Associated With High Levels of Donor Cells Very Early After Transplant.

Author

Lin, Jiaxin, Chan, William F. N., Boon, Louis, and Anderson, Colin C.

Subjects

HEMATOPOIETIC stem cell transplantation, CHIMERISM, IMMUNE response

Abstract

Stable mixed hematopoietic chimerism is a robust method for inducing donor-specific tolerance with the potential to prevent rejection of donor islets in recipients with autoimmune type-1 diabetes. However, with reduced intensity conditioning, fully allogeneic chimerism in a tolerance resistant autoimmune-prone non-obese diabetic (NOD) recipient has rarely been successful. In this setting, successful multilineage chimerism has required either partial major histocompatability complex matching, mega doses of bone marrow, or conditioning approaches that are not currently clinically feasible. Irradiation free protocols with moderate bone marrow doses have not generated full tolerance; donor skin grafts were rejected. We tested whether more efficient recipient T cell depletion would generate a more robust tolerance. We show that a combination of donor-specific transfusion-cyclophosphamide and multiple T cell depleting antibodies could induce stable high levels of fully allogeneic chimerism in NOD recipients. Less effective T cell depletion was associated with instability of chimerism. Stable chimeras appeared fully donor-specific tolerant, with clonal deletion of allospecific T cells and acceptance of donor skin grafts, while recovering substantial immunocompetence. The loss of chimerism months after transplant was significantly associated with a lower level of chimerism and donor T cells within the first 2 weeks after transplant. Thus, rapid and robust recipient T cell depletion allows for stable high levels of fully allogeneic chimerism and robust donor-specific tolerance in the stringent NOD model while using a clinically feasible protocol. In addition, these findings open the possibility of identifying recipients whose chimerism will later fail, stratifying patients for early intervention. [ABSTRACT FROM AUTHOR]

Published

2018

25. Prenatal Administration of Betamethasone Causes Changes in the T Cell Receptor Repertoire Influencing Development of Autoimmunity

Author

Anna Gieras, Christina Gehbauer, David Perna-Barrull, Jan Broder Engler, Ines Diepenbruck, Laura Glau, Simon A. Joosse, Nora Kersten, Stefanie Klinge, Hans-Willi Mittrücker, Manuel A. Friese, Marta Vives-Pi, and Eva Tolosa

Subjects

glucocorticoids, prenatal betamethasone, T cell repertoire, autoimmunity, type 1 diabetes, non-obese diabetic mice, Immunologic diseases. Allergy, RC581-607

Abstract

Prenatal glucocorticoids are routinely administered to pregnant women at risk of preterm delivery in order to improve survival of the newborn. However, in half of the cases, birth occurs outside the beneficial period for lung development. Glucocorticoids are potent immune modulators and cause apoptotic death of immature T cells, and we have previously shown that prenatal betamethasone treatment at doses eliciting lung maturation induce profound thymocyte apoptosis in the offspring. Here, we asked if there are long-term consequences on the offspring’s immunity after this treatment. In the non-obese diabetic mouse model, prenatal betamethasone clearly decreased the frequency of pathogenic T cells and the incidence of type 1 diabetes (T1D). In contrast, in the lupus-prone MRL/lpr strain, prenatal glucocorticoids induced changes in the T cell repertoire that resulted in more autoreactive cells. Even though glucocorticoids transiently enhanced regulatory T cell (Treg) development, these cells did not have a protective effect in a model for multiple sclerosis which relies on a limited repertoire of pathogenic T cells for disease induction that were not affected by prenatal betamethasone. We conclude that prenatal steroid treatment, by inducing changes in the T cell receptor repertoire, has unforeseeable consequences on development of autoimmune disease. Our data should encourage further research to fully understand the consequences of this widely used treatment.

Published

2017

26. Unique Features of Pancreatic-Resident Regulatory T Cells in Autoimmune Type 1 Diabetes

Author

Jingli Lu, Chaoqi Zhang, Lifeng Li, Wenhua Xue, Chengliang Zhang, and Xiaojian Zhang

Subjects

type 1 diabetes, regulatory T cells, pancreatic-resident regulatory T, immune suppression, non-obese diabetic mice, Immunologic diseases. Allergy, RC581-607

Abstract

Recent progress in regulatory T cells (Tregs) biology emphasizes the importance of understanding tissue-resident Tregs in response to tissue-specific environment. Now, emerging evidence suggests that pancreatic-resident forkhead box P3+ Tregs have distinguishable effects on the suppression of over-exuberant immune responses in autoimmune type 1 diabetes (T1D). Thus, there is growing interest in elucidating the role of pancreatic-resident Tregs that function and evolve in the local environment. In this review, we discuss the phenotype and function of Tregs residing in pancreatic tissues and pancreatic lymph nodes, with emphasis on the unique subpopulations of Tregs that control the disease progression in the context of T1D. Specifically, we discuss known and possible modulators that influence the survival, migration, and maintenance of pancreatic Tregs.

Published

2017

27. Interleukin-22 Exerts Detrimental Effects on Salivary Gland Integrity and Function

Author

Jing Zhou, Shoko Onodera, Yang Hu, and Qing Yu

Subjects

Caspase 3, Organic Chemistry, General Medicine, Sjögren’s syndrome, sialadenitis, autoimmune exocrinopathy, non-obese diabetic mice, salivary gland epithelial cells, cytokine, Xerostomia, Catalysis, Salivary Glands, Computer Science Applications, Inorganic Chemistry, Mice, Inbred C57BL, Mice, Disease Models, Animal, Sjogren's Syndrome, Mice, Inbred NOD, Animals, Female, Physical and Theoretical Chemistry, Molecular Biology, Spectroscopy

Abstract

Interleukin-22 (IL-22) affects epithelial tissue function and integrity in a context-dependent manner. IL-22 levels are elevated in salivary glands of Sjögren’s syndrome (SS) patients, but its role in the pathogenesis of this disease remains unclear. The objective of this study is to elucidate the impact of IL-22 on salivary gland tissue integrity and function in murine models. We showed that IL-22 levels in sera and salivary glands increased progressively in female non-obese diabetic (NOD) mice, accompanying the development of SS. Administration of IL-22 to the submandibular glands of NOD mice prior to the disease onset reduced salivary secretion and induced caspase-3 activation in salivary gland tissues, which were accompanied by alterations in multiple genes controlling tissue integrity and inflammation. Similarly, IL-22 administration to submandibular glands of C57BL/6 mice also induced hyposalivation and caspase-3 activation, whereas blockade of endogenous IL-22 in C57BL/6 mice treated with anti-CD3 antibody mitigated hyposalivation and caspase-3 activation. Finally, IL-22 treatment reduced the number of viable C57BL/6 mouse submandibular gland epithelial cells cultured in vitro, indicating a direct impact of this cytokine on these cells. We conclude that IL-22 exerts a detrimental impact on salivary gland tissues.

Published

2022

28. Prenatal Administration of Betamethasone Causes Changes in the T Cell Receptor Repertoire Influencing Development of Autoimmunity.

Author

Gieras, Anna, Gehbauer, Christina, Perna-Barrull, David, Engler, Jan Broder, Diepenbruck, Ines, Glau, Laura, Joosse, Simon A., Kersten, Nora, Klinge, Stefanie, Mittrücker, Hans-Willi, Friese, Manuel A., Vives-Pi, Marta, and Tolosa, Eva

Subjects

AUTOIMMUNITY, T cell receptors, DRUG administration

Abstract

Prenatal glucocorticoids are routinely administered to pregnant women at risk of preterm delivery in order to improve survival of the newborn. However, in half of the cases, birth occurs outside the beneficial period for lung development. Glucocorticoids are potent immune modulators and cause apoptotic death of immature T cells, and we have previously shown that prenatal betamethasone treatment at doses eliciting lung maturation induce profound thymocyte apoptosis in the offspring. Here, we asked if there are long-term consequences on the offspring's immunity after this treatment. In the non-obese diabetic mouse model, prenatal betamethasone clearly decreased the frequency of pathogenic T cells and the incidence of type 1 diabetes (T1D). In contrast, in the lupus-prone MRL/lpr strain, prenatal glucocorticoids induced changes in the T cell repertoire that resulted in more autoreactive cells. Even though glucocorticoids transiently enhanced regulatory T cell (Treg) development, these cells did not have a protective effect in a model for multiple sclerosis which relies on a limited repertoire of pathogenic T cells for disease induction that were not affected by prenatal betamethasone. We conclude that prenatal steroid treatment, by inducing changes in the T cell receptor repertoire, has unforeseeable consequences on development of autoimmune disease. Our data should encourage further research to fully understand the consequences of this widely used treatment. [ABSTRACT FROM AUTHOR]

Published

2017

29. Anti‑CD20 monoclonal antibody combined with adenovirus vector‑mediated IL‑10 regulates spleen CD4+/CD8+ T cells and T‑bet/GATA‑3 expression in NOD mice.

Author

AIPING TANG, CHENG LI, ZHIHONG CHEN, and TANG LI

Subjects

*MONOCLONAL antibodies, *AUTOIMMUNE diseases, *AUTOIMMUNITY, *T helper cells, *LABORATORY mice

Abstract

Type 1 diabetes (T1D) is an autoimmune disease characterized by a selective destruction of insulin‑secreting β‑cells. Both T cells and B cells serve a crucial role in pathogenesis and development of T1D. CD20 is a specific membrane antigen of B lymphocytes, while interleukin (IL)‑10 is an important cytokine secreted by T helper 2 cells and has a short half‑life in vivo. The combined effect of anti‑CD20 and IL‑10 on immune function of mice with T1D remains unknown. In the present study, 30 non‑obese diabetic (NOD) mice were treated with anti‑CD20 and adenoviral vector‑mediated interleukin‑10 (Ad‑mIL‑10) therapy. Alterations in CD4+, CD8+, CD4+CD25+Foxp3+ T cells, T‑box expressed in T‑cells (T‑bet), GATA‑binding protein‑3 (GATA‑3) interferon‑γ (IFN‑γ) and IL‑4 were detected by flow cytometry, reverse transcription‑quantitative polymerase chain reaction in NOD mice spleen tissue. The present results suggested that anti‑CD20 and IL‑10 treatment in NOD mice can modulate the immune functions by upregulating GATA‑3 and IL‑4 expression as well as downregulating T‑bet and IFN‑γ expression, which are involved in the pathogenesis of T1D. The current findings may provide a potential method for T1D treatment and a novel preventive therapy for T1D. Combination of anti‑CD20 and Ad‑mIL‑10 treatment had not only immune regulatory effects but also protective effects on islet β‑cells in NOD mice with T1DM at the early stages, by regulating T‑bet/GATA‑3 expression and Th1/Th2 cell differentiation, which has the potential for diabetes prevention and therapy. [ABSTRACT FROM AUTHOR]

Published

2017

30. Broad induction of immunoregulatory mechanisms after a short course of anti-IL-7Rα antibodies in NOD mice.

Author

Vazquez-Mateo, Cristina, Collins, Justin, Fleury, Michelle, and Dooms, Hans

Subjects

*IMMUNOREGULATION, *DIABETES, *TREATMENT of diabetes, *TYPE 1 diabetes, *AUTOIMMUNE diseases, *T cells, *LABORATORY mice, *IMMUNOLOGY, *PHYSIOLOGY

Abstract

Background: Type 1 diabetes is an autoimmune disease caused by T cell-mediated destruction of the insulinproducing β-cells in the pancreas. Therefore, approaches that effectively halt the pathogenic T cell response are predicted to have preventive or therapeutic benefit for type 1 diabetes patients. We previously demonstrated that long-term blocking of IL-7 signaling, which is critical for the survival and function of T cells, prevented and reversed type 1 diabetes in non-obese diabetic mice. However, such persistent inhibition of T cell responses raises concerns about causing immunodeficiency. Here, we asked whether a reduced duration of the treatment with anti-IL-7Rα antibodies retained efficacy in preventing diabetes. Moreover, we sought to identify immunoregulatory mechanisms induced by anti-IL-7Rα administration. Results: Anti-IL-7Rα antibodies were administered to prediabetic NOD mice for 3 weeks and blood samples were taken at the end of treatment and 2 weeks later to analyze changes in T cell phenotypes in response to IL-7Rα blockade. We found that the co-inhibitory receptors LAG-3, Tim-3 and PD-1 were increased on peripheral blood CD4+ and CD8+ T cells from anti-IL-7Rα-treated mice. Expression of these receptors contributed to reduced T cell cytokine production in response to TCR stimulation. In addition, the frequency of Tregs within the circulating CD4+ T cells was increased at the end of anti-IL-7Rα antibody treatment and these Tregs showed a more activated phenotype. In vitro restimulation assays revealed that effector T cells from anti-IL-7Rα-treated mice were more sensitive to co-inhibitory receptor induction after TCR stimulation. Importantly, these changes were accompanied by delayed type 1 diabetes disease kinetics. Conclusions: Together, our data show that short-term blockade of IL-7Rα induces detectable changes in co-inhibitory receptor expression and Treg frequencies in peripheral blood of NOD mice. These changes appear to have long-lasting effects by delaying or preventing type 1 diabetes incidence. Hence, our study provides further support for using anti-IL-7Rα antibodies to modulate autoreactive T cell responses. [ABSTRACT FROM AUTHOR]

Published

2017

31. Elevated systemic glutamic acid level in the non-obese diabetic mouse is Idd linked and induces beta cell apoptosis.

Author

Banday, Viqar Showkat and Lejon, Kristina

Subjects

*TYPE 1 diabetes, *TREATMENT of diabetes, *APOPTOSIS, *PANCREATIC beta cells, *GLUTAMIC acid, *METABOLOMICS, *LABORATORY mice

Abstract

Although type 1 diabetes (T1D) is a T-cell-mediated disease in the effector stage, the mechanism behind the initial beta cell assault is less understood. Metabolomic differences, including elevated levels of glutamic acid, have been observed in patients with T1D before disease onset, as well as in pre-diabetic non-obese diabetic ( NOD) mice. Increased levels of glutamic acid damage both neurons and beta cells, implying that this could contribute to the initial events of T1D pathogenesis. We investigated the underlying genetic factors and consequences of the increased levels of glutamic acid in NOD mice. Serum glutamic acid levels from a ( NOD×B6)F2 cohort ( n = 182) were measured. By genome-wide and Idd region targeted microsatellite mapping, genetic association was detected for six regions including Idd2, Idd4 and Idd22. In silico analysis of potential enzymes and transporters located in and around the mapped regions that are involved in glutamic acid metabolism consisted of alanine aminotransferase, glutamic-oxaloacetic transaminase, aldehyde dehydrogenase 18 family, alutamyl-prolyl- tRNA synthetase, glutamic acid transporters GLAST and EAAC1. Increased EAAC1 protein expression was observed in lysates from livers of NOD mice compared with B6 mice. Functional consequence of the elevated glutamic acid level in NOD mice was tested by culturing NOD. Rag2−/− Langerhans' islets with glutamic acid. Induction of apoptosis of the islets was detected upon glutamic acid challenge using TUNEL assay. Our results support the notion that a dysregulated metabolome could contribute to the initiation of T1D. We suggest that targeting of the increased glutamic acid in pre-diabetic patients could be used as a potential therapy. [ABSTRACT FROM AUTHOR]

Published

2017

32. Effect assessment of subconjunctival injection of rapamycin-loaded microspheres in non-obese diabetic mice with dry eye caused by Sjögren's syndrome

Author

Meng Wang and Yan Liu

Subjects

rapamycin, microsphere, non-obese diabetic mice, Sjögren's syndrome, dry eye, Ophthalmology, RE1-994

Abstract

AIM: To study the effect of rapamycin-loaded microspheres in non-obese diabetic(NOD)mice with dry eye caused by Sjögren's syndrome(SS). METHODS: Twenty 8-week-old female NOD mice with dry eye caused by SS were randomly divided into 4 groups. One week later, the mice were treated with subconjunctival injection. GroupⅠ and Ⅱ received 200μg/kg and 400μg/kg rapamycin-loaded microspheres, Group Ⅲ and Ⅳ received normal saline and empty microspheres. Five 8-week-old female healthy KM mice were used as untreated controls. Before and 5, 10, 15, 20 days after the experiment, the amount of secretion of tears, the score of corneal fluorescein staining and rose bengal staining were investigated. Conjunctival epithelial cells were observed and graded by conjunctival impression cytology. RESULTS: Compared with the group Ⅲ and Ⅳ, the amount of secretion of tears of the mice in groupⅠ and Ⅱ increased. The scores of corneal fluorescein staining and rose bengal staining were lower. The levels of conjunctival impression cytology reduced. CONCLUSION: Rapamycin-loaded microspheres can decrease dry eye signs by alleviating the ocular surface inflammation of NOD mice. It suggests rapamycin-loaded microsphere is valuable to dry eye caused by SS.

Published

2013

33. Exposure to polychlorinated biphenyl-153 decreases incidence of autoimmune Type 1 diabetes in non-obese diabetic mice.

Author

Kuiper, Jordan, Moran, Michelle, and Cetkovic-Cvrlje, Marina

Subjects

*TREATMENT of diabetes, *TYPE 1 diabetes, *POLYCHLORINATED biphenyls, *LABORATORY mice, *PERSISTENT pollutants, *IMMUNOSUPPRESSION

Abstract

Type 1 diabetes (T1D) incidence has been steadily rising across the globe. Exposure to persistent organic pollutants (POP) has been implied as one potential cause of increased T1D occurrence. Since data regarding the role of POP polychlorinated biphenyl-153 (PCB-153) in autoimmune T1D development in experimental animal models are lacking, this study sought to evaluate the effect of PCB-153 exposure on T1D development in a non-obese diabetic (NOD) mouse model. As T1D is an autoimmune, T-cell-dependent disease, PCB-153 effects on T-cells were studied as well. Pre-diabetic 8–9-week-old NOD mice were exposed to intraperitoneal injections of PCB-153 in a 10-day short- (subacute exposure; 0.5 or 50 mg/kg) or 16-week long-term (subchronic exposure; 0.125 or 12.5 mg/kg) fashion. A significant decrease in incidence of T1D was observed in both low- and high-dose subchronically exposed mice. Analysis of various immune parameters, including T-cell types and subtypes, T-cell proliferative responses – as well as their cytokine secretions, revealed that both short- and long-term exposure to PCB-153 caused significant immunosuppression. PCB-153-induced immunosuppression was reflected in reductions in levels of T helper (TH)-type cells and their functions after subacute treatment with low- and high-dose PCB-153. In agreement, decreased levels of THcells, reduced proliferation and IL-2 secretion seemed to be a mechanism of PCB-153 action in the development of T1D in subchronically exposed mice. In conclusion, this study for the first time revealed the effects of PCB-153 on development of T1D, bridging the existing experimental knowledge gap regarding the association of non-dioxin-like PCBs and T1D. [ABSTRACT FROM PUBLISHER]

Published

2016

34. Protective role of adenovirus vector-mediated interleukin-10 gene therapy on endogenous islet β-cells in recent-onset type 1 diabetes in NOD mice.

Author

CHENG LI, LIJUAN ZHANG, YANYAN CHEN, XIAOJIE LIN, and TANG LI

Subjects

*TYPE 1 diabetes, *ADENOVIRUSES, *INTERLEUKIN-10, *GENE therapy, *ISLANDS of Langerhans, *LABORATORY mice, *PREVENTION

Abstract

The aim of the present study was to provide an animal experimental basis for the protective effect of the adenoviral vector-mediated interleukin-10 (Ad-mIL-10) gene on islet β-cells during the early stages of type 1 diabetes (T1D) in non-obese diabetic (NOD) mice. A total of 24 female NOD mice at the onset of diabetes were allocated at random into three groups (n=8 per group): Group 1, intraperitoneally injected with 0.1 ml Ad-mIL-10; group 2, intraperitoneally injected with 0.1 ml adenovirus vector; and group 3, was a diabetic control. In addition to groups 1, 2 and 3, 8 age- and gender-matched NOD mice were intraperitoneally injected with 0.1 ml PBS and assigned to group 4 as a normal control. All mice were examined weekly for body weight, urine glucose and blood glucose values prior to onset of diabetes, and at 1, 2 and 3 weeks after that, and all mice were sacrificed 3 weeks after injection. Serum levels of interleukin (IL)-10, interferon (IFN)-γ, IL-4, insulin and C-peptide were evaluated, and in addition the degree of insulitis and the local expression of IL-10 gene in the pancreas were detected. The apoptosis rate of pancreatic β-cells was determined using a TUNEL assay. Compared with groups 2 and 3, IL-10 levels in the serum and pancreas were elevated in group 1. Serum IFN-γ levels were decreased while serum IL-4 levels and IFN-γ/IL-4 ratio were significantly increased in group 1 (P<0.01). C-peptide and insulin levels were higher in group 1 compared with groups 2 and 3, (P<0.01). Furthermore, compared with groups 2 and 3, the degree of insulitis, islet β-cell apoptosis rate and blood glucose values did not change significantly (P>0.05). The administration of the Ad-mIL-10 gene induced limited immune regulatory and protective effects on islet β-cell function in NOD mice with early T1D, while no significant reduction in insulitis, islet β-cell apoptosis rate and blood glucose was observed. [ABSTRACT FROM AUTHOR]

Published

2016

35. Flow cytometric gating for spleen monocyte and DC subsets: differences in autoimmune NOD mice and with acute inflammation.

Author

Dong, Matthew B., Rahman, M. Jubayer, and Tarbell, Kristin V.

Subjects

*FLOW cytometry, *SPLEEN, *MONOCYTES, *ANTIGEN presenting cells, *AUTOIMMUNE diseases, *INFLAMMATION, *LABORATORY mice

Abstract

The role of antigen presenting cells (APCs) in the pathogenesis of autoimmune and other inflammatory diseases is now better understood due to advances in multicolor flow cytometry, gene expression analysis of APC populations, and functional correlation of mouse to human APC populations. A simple but informative nomenclature of conventional and plasmacytoid dendritic cell subsets (cDC1, cDC2, pDC) and monocyte-derived populations incorporates these advances, but accurate subset identification is critical. Ambiguous gating schemes and alterations of cell surface markers in inflammatory condition can make comparing results between studies difficult. Both acute inflammation, such as TLR–ligand stimulation, and chronic inflammation as found in mouse models of autoimmunity can alter DC subset gating. Here, we address these issues using in vivo CpG stimulation as an example of acute inflammation and the non-obese diabetic (NOD) mouse as a model of chronic inflammation. We provide a flow cytometric antibody panel and gating scheme that differentiate 2 monocytic and 3 DC subsets in the spleen both at steady state and after CpG stimulation. Using this method, we observed differences in the composition of NOD DCs that have been previously reported, and newly identified increases in the number of NOD monocyte-derived DCs. Finally, we established a protocol for DC phosphoflow to measure the phosphorylation state of intracellular proteins, and use it to confirm functional differences in the identified subsets. Therefore, we present optimized methods for distinguishing monocytic and DC populations with and without inflammation and/or autoimmunity associated with NOD mice. [ABSTRACT FROM AUTHOR]

Published

2016

36. Interleukin-10 gene transfer into insulin-producing β cells protects against diabetes in non-obese diabetic mice.

Author

AIJING XU, WEI ZHU, TANG LI, XIUZHEN LI, JING CHENG, CUILING LI, PENG YI, and LI LIU

Subjects

*TREATMENT of diabetes, *TYPE 1 diabetes, *PANCREATIC beta cells, *INTERLEUKIN-10, *INSULIN synthesis, *ANIMAL models of diabetes, *INTERFERON gamma, *FORKHEAD transcription factors, *GENE delivery techniques, *PHYSIOLOGY

Abstract

Type 1 diabetes is an autoimmune disorder, which occurs due to β cell damage. Interleukin (IL)-10, a pleotropic cytokine, has been reported to have anti-inflammatory, immunosuppressive and immunostimulatory properties. Administration of IL-10 is known to prevent autoimmune diabetes in non-obese diabetic (NOD) mice. However, the mechanism of IL-10-induced protection in NOD mice requires further investigation. The aim of the present study was to evaluate the protective effect of transgenic IL-10 expression in pancreatic β cells against autoimmune damage in NOD mice and to elucidate its mechanism of action. Female NOD mice (9 weeks old) were intraperitoneally injected with an adenovirus carrying either IL-10 (Adv-IL-10) or green fluorescent protein (Adv-GFP). Blood glucose was monitored weekly and the expression of IL-10 was evaluated using reverse transcription quantitative polymerase chain reaction. IL-10 and interferon (IFN)-γ expression levels in serum and splenocytes were analyzed. CD4+CD25+FoxP3+ T regulatory (Treg) cells were determined by flow cytometry. Apoptosis of pancreatic β cells was determined using a terminal deoxynucleotidyl transferase deoxyuridine triphosphate nick-end labeling assay and expression levels of Fas and caspase-3 were estimated by immunohistochemistry analysis. The results revealed that mice treated with IL-10 showed less severe insulitis and a lower incidence of diabetes compared with the saline control and Adv-GFP groups. In addition, compared with the control group, IFN-γ levels were decreased in sera and splenocytes, while IL-10 expression was increased in sera only. The number of CD4+CD25+FoxP3+ Treg cells was increased in IL-10-injected mice. Furthermore, the expression levels of Fas and caspase-3 were decreased in IL-10-injected mice compared with that of GFP-injected and control mice, which was concomitant with a reduction in β cell apoptosis. In conclusion, the present study demonstrated that IL-10 gene transfer reduced the expression of the inflammatory cytokines, attenuated pancreatic insulitis and inhibited β cell apoptosis. This therefore indicated that IL-10 reduced the incidence of diabetes in female NOD mice. [ABSTRACT FROM AUTHOR]

Published

2015

37. Multiple mechanisms involved in diabetes protection by lipopolysaccharide in non-obese diabetic mice.

Author

Wang, Jun, Cao, Hui, Wang, Hongjie, Yin, Guoxiao, Du, Jiao, Xia, Fei, Lu, Jingli, and Xiang, Ming

Subjects

*DIABETES prevention, *LIPOPOLYSACCHARIDES, *TOLL-like receptors, *ISLANDS of Langerhans, *DISEASE progression, *LABORATORY mice

Abstract

Toll-like receptor 4 (TLR4) activation has been proposed to be important for islet cell inflammation and eventually β cell loss in the course of type 1 diabetes (T1D) development. However, according to the “hygiene hypothesis”, bacterial endotoxin lipopolysaccharide (LPS), an agonist on TLR4, inhibits T1D progression. Here we investigated possible mechanisms for the protective effect of LPS on T1D development in non-obese diabetic (NOD) mice. We found that LPS administration to NOD mice during the prediabetic state neither prevented nor reversed insulitis, but delayed the onset and decreased the incidence of diabetes, and that a multiple-injection protocol is more effective than a single LPS intervention. Further, LPS administration suppressed spleen T lymphocyte proliferation, increased the generation of CD4 + CD25 + Foxp3 + regulatory T cells (Tregs), reduced the synthesis of strong Th1 proinflammatory cytokines, and downregulated TLR4 and its downstream MyD88-dependent signaling pathway. Most importantly, multiple injections of LPS induced a potential tolerogenic dendritic cell (DC) subset with low TLR4 expression without influencing the DC phenotype. Explanting DCs from repeated LPS-treated NOD mice into NOD/SCID diabetic mice conferred sustained protective effects against the progression of diabetes in the recipients. Overall, these results suggest that multiple mechanisms are involved in the protective effects of LPS against the development of diabetes in NOD diabetic mice. These include Treg induction, down-regulation of TLR4 and its downstream MyD88-dependent signaling pathway, and the emergence of a potential tolerogenic DC subset. [ABSTRACT FROM AUTHOR]

Published

2015

38. Sodium meta-arsenite prevents the development of autoimmune diabetes in NOD mice.

Author

Lee, Y.S., Kim, D., Lee, E.K., Kim, S., Choi, C.S., and Jun, H.S.

Subjects

*SODIUM compounds, *ARSENITES, *AUTOIMMUNE diseases, *LABORATORY mice, *TYPE 1 diabetes, *DISEASE incidence

Abstract

Sodium meta-arsenite (SA) is an orally available arsenic compound. We investigated the effects of SA on the development of autoimmune type 1 diabetes. Female non-obese diabetic (NOD) mice were orally intubated with SA (5 mg/kg/day) from 8 weeks of age for 8 weeks. The cumulative incidence of diabetes was monitored until 30 weeks of age, islet histology was examined, and lymphocytes including T cells, B cells, CD4+ IFN-γ+ cells, CD8+ IFN-γ+ cells, CD4+ IL-4+ cells, and regulatory T cells were analyzed. We also investigated the diabetogenic ability of splenocytes using an adoptive transfer model and the effect of SA on the proliferation, activation, and expression of glucose transporter 1 (Glut1) in splenocytes treated with SA in vitro and splenocytes isolated from SA-treated mice. SA treatment decreased the incidence of diabetes and delayed disease onset. SA treatment reduced the infiltration of immunocytes in islets, and splenocytes from SA-treated mice showed a reduced ability to transfer diabetes. The number of total splenocytes and T cells and both the number and the proportion of CD4+ IFN-γ+ and CD8+ IFN-γ+ T cells in the spleen were significantly reduced in SA-treated NOD mice compared with controls. The number, but not the proportion, of regulatory T cells was decreased in SA-treated NOD mice. Treatment with SA either in vitro or in vivo inhibited proliferation of splenocytes. In addition, the expression of Glut1 and phosphorylated ERK1/2 was decreased by SA treatment. These results suggest that SA reduces proliferation and activation of T cells, thus preventing autoimmune diabetes in NOD mice. [ABSTRACT FROM AUTHOR]

Published

2015

39. Prevention of Autoimmune Diabetes in NOD Mice by Dimethyl Fumarate

Author

Nosratola D. Vaziri, Kelly Vo, Shiri Li, Chie Takasu, Hirohito Ichii, Lourdes Swentek, Michael J. Stamos, and Camillo Ricordi

Subjects

0301 basic medicine, medicine.medical_specialty, antioxidant, Physiology, Clinical Biochemistry, Nod, medicine.disease_cause, Biochemistry, Autoimmune Disease, Article, Nrf2, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, non-obese diabetic mice, Internal medicine, Diabetes mellitus, medicine, 2.1 Biological and endogenous factors, oxidative stress, Aetiology, Molecular Biology, Metabolic and endocrine, NOD mice, Nutrition, Pediatric, Type 1 diabetes, geography, geography.geographical_feature_category, dimethyl fumarate, Dimethyl fumarate, diabetes, business.industry, Prevention, lcsh:RM1-950, Cell Biology, medicine.disease, Islet, 030104 developmental biology, Endocrinology, lcsh:Therapeutics. Pharmacology, chemistry, 030220 oncology & carcinogenesis, business, Insulitis, Oxidative stress

Abstract

Oxidative stress plays critical roles in the pathogenesis of diabetes. This study tested the hypothesis that by protecting β-cells against oxidative stress and inflammation, an Nrf2 activator, dimethyl fumarate (DMF), may prevent or delay the onset of type 1 diabetes in non-obese diabetic (NOD) mice. Firstly, islet isolation was conducted to confirm the antioxidative effects of DMF oral administration on islet cells. Secondly, in a spontaneous diabetes model, DMF (25 mg/kg) was fed to mice once daily starting at the age of 8 weeks up to the age of 22 weeks. In a cyclophosphamide-induced accelerated diabetes model, DMF (25 mg/kg) was fed to mice twice daily for 2 weeks. In the islet isolation study, DMF administration improved the isolation yield, attenuated oxidative stress and enhanced GCLC and NQO1 expression in the islets. In the spontaneous model, DMF significantly reduced the onset of diabetes compared to the control group (25% vs. 54.2%). In the accelerated model, DMF reduced the onset of diabetes from 58.3% to 16.7%. The insulitis score in the islets of the DMF treatment group (1.6 ± 0.32) was significantly lower than in the control group (3.47 ± 0.21). The serum IL-1α, IL-1β, IL-2, IL-4, IL-5, IL-6, IL-9, IL-12p70, IFN-γ, TNF-α, MCP-1 and CXCL16 levels in the DMF-treated group were lower than in the control group. In conclusion, DMF may protect islet cells and reduce the incidence of autoimmune diabetes in NOD mice by attenuating insulitis and proinflammatory cytokine production.

Published

2021

40. Decreased submandibular adiponectin is involved in the progression of autoimmune sialoadenitis in non-obese diabetic mice.

Author

Su, Y‐C, Xiang, R‐L, Zhang, Y, Ding, C, Cong, X, Guo, X‐H, Yang, N‐Y, Hua, H, Wu, L‐L, and Yu, G‐Y

Subjects

*DIABETES complications, *ANALYSIS of variance, *ANIMAL experimentation, *APOPTOSIS, *ENZYME-linked immunosorbent assay, *FLOW cytometry, *IMMUNOBLOTTING, *MICE, *POLYMERASE chain reaction, *RESEARCH funding, *SALIVA, *SALIVARY gland diseases, *SJOGREN'S syndrome, *STATISTICS, *T-test (Statistics), *DATA analysis, *DISEASE progression, *DATA analysis software, *ADIPONECTIN, *STATISTICAL models, *DESCRIPTIVE statistics, *DISEASE complications

Abstract

Objective To investigate a possible role of adiponectin in the pathogenesis of autoimmune sialoadenitis in non-obese diabetic ( NOD) mouse model of Sjögren's syndrome. Materials and Methods Expression of adiponectin and its receptors (AdipoR1/2) was detected by PCR, immunoblotting, or immunofluorescence. The level of adiponectin was quantified by ELISA. Adiponectin-related signaling molecules and pro-inflammatory cytokines were examined by PCR or immunoblotting. Apoptosis was evaluated by TUNEL staining, flow cytometry, and caspase 3 activation. Results Adiponectin and AdipoR1/2 mRNA and protein were expressed in submandibular glands. Adiponectin immunostaining was widely diffused in the cytoplasm of acinar and ductal cells. AdipoR1 was mainly distributed in acinar cytoplasm, while AdipoR2 was predominantly located at acinar cell membrane. Submandibular adiponectin levels were reduced during the progression of autoimmune sialoadenitis in 7-, 14-, and 21-week-old NOD mice, while AdipoR1/2 levels were unchanged. The levels of phosphorylated adenosine monophosphate-activated protein kinase, extracellular signal-regulated kinase 1/2, and p38 mitogen-activated protein kinase were decreased, while interferon (IFN)- γ and glandular apoptosis were temporally increased at all time points. Moreover, exogenous adiponectin supplement inhibited, whereas neutralizing endogenous adiponectin by its antibody promoted IFN- γ-induced apoptosis and caspase 3 activation in cultured submandibular acinar cells. Conclusions Adiponectin plays a protective role on submandibular cells. Decreased adiponectin might promote glandular destruction in autoimmune sialoadenitis. [ABSTRACT FROM AUTHOR]

Published

2014

41. Stable activity of diabetogenic cells with age in NOD mice: dynamics of reconstitution and adoptive diabetes transfer in immunocompromised mice.

Author

Kaminitz, Ayelet, Mizrahi, Keren, Ash, Shifra, Ben‐Nun, Avi, and Askenasy, Nadir

Subjects

*IMMUNOCOMPROMISED patients, *T cells, *TREATMENT of diabetes, *PEOPLE with diabetes, *LABORATORY mice, *CHROMOSOME abnormalities, *CD25 antigen

Abstract

The non-obese diabetic ( NOD) mouse is a prevalent disease model of type 1 diabetes. Immune aberrations that cause and propagate autoimmune insulitis in these mice are being continually debated, with evidence supporting both dominance of effector cells and insufficiency of suppressor mechanisms. In this study we assessed the behaviour of NOD lymphocytes under extreme expansion conditions using adoptive transfer into immunocompromised NOD. SCID (severe combined immunodeficiency) mice. CD4+ CD25+ T cells do not cause islet inflammation, whereas splenocytes and CD4+ CD25− T cells induce pancreatic inflammation and hyperglycaemia in 80-100% of the NOD. SCID recipients. Adoptively transferred effector T cells migrate to the lymphoid organs and pancreas, proliferate, are activated in the target organ in situ and initiate inflammatory insulitis. Reconstitution of all components of the CD4+ subset emphasizes the plastic capacity of different cell types to adopt effector and suppressor phenotypes. Furthermore, similar immune profiles of diabetic and euglycaemic NOD. SCID recipients demonstrate dissociation between fractional expression of CD25 and FoxP3 and the severity of insulitis. There were no evident and consistent differences in diabetogenic activity and immune reconstituting activity of T cells from pre-diabetic (11 weeks) and new onset diabetic NOD females. Similarities in immune phenotypes and variable distribution of effector and suppressor subsets in various stages of inflammation commend caution in interpretation of quantitative and qualitative aberrations as markers of disease severity in adoptive transfer experiments. [ABSTRACT FROM AUTHOR]

Published

2014

42. Vasoactive Intestinal Peptide Induces an Immunosuppressant Microenvironment in the Maternal-Fetal Interface of Non-Obese Diabetic Mice and Improves Early Pregnancy Outcome.

Author

Hauk, Vanesa, Azzam, Sofía, Calo, Guillermina, Gallino, Lucila, Paparini, Daniel, Franchi, Ana, Ramhorst, Rosanna, and Leirós, Claudia Pérez

Subjects

*VASOACTIVE intestinal peptide, *IMMUNOSUPPRESSIVE agents, *MATERNAL-fetal exchange, *LABORATORY mice, *PEOPLE with diabetes, *PREGNANCY complications, *DISEASES

Abstract

Problem Impaired pregnancy in non-obese diabetic ( NOD) mice was related to limited vascular remodeling and autoimmune background. Vasoactive intestinal peptide ( VIP) has anti-inflammatory and immunosuppressant effects, so we explored its ability to modulate the immune microenvironment at the early maternal-placental interface and improve pregnancy in NOD mice. Method of study Implantation sites were isolated from pregnant NOD mice at gestational day 9.5 and were incubated with VIP for evaluation of cytokine or transcription factor expression by RT- PCR, immunoblotting, and immunohistochemistry. Alternatively, pregnant mice were injected with VIP at day 6.5 and studied at day 9.5. Results VIP and VPAC receptors were detected in viable implantation sites. VIP immunostaining was found predominantly on trophoblast giant cells. The in vitro treatment of viable implantation sites with VIP increased IL-10, TGF-β, and Foxp3 expression. Sites with resorption processes presented lower VIP expression, reduced suppressant markers, and increased IL-17 and RORγT expression compared with viable sites and VIP reduced RORγ T expression. Pregnant mice treated with VIP at day 6.5 presented an even distribution of viable implantation sites with an increased expression of IL-10, TGF- β, and Foxp3. Conclusion VIP induces an immunosuppressant profile at the early maternal-placental interface of NOD mice and improves pregnancy outcome. [ABSTRACT FROM AUTHOR]

Published

2014

43. Antioxidant and anti-diabetic potential of Passiflora alata Curtis aqueous leaves extract in type 1 diabetes mellitus (NOD-mice).

Author

Colomeu, T.C., Figueiredo, D., Cazarin, C.B.B., Schumacher, N.S.G., Maróstica, M.R., Meletti, L.M.M., and Zollner, R.L.

Subjects

*ANTIOXIDANTS, *HYPOGLYCEMIC agents, *PASSIFLORA, *TREATMENT of diabetes, *TYPE 1 diabetes, *LABORATORY mice, *LEAVES, *THERAPEUTICS, THERAPEUTIC use of plant extracts

Abstract

Abstract: Leaves of Passiflora alata Curtis were characterized for their antioxidant capacity. Antioxidant analyses of DPPH, FRAP, ABTS, ORAC and phenolic compounds were made in three different extracts: aqueous, methanol/acetone and ethanol. Aqueous extract was found to be the best solvent for recovery of phenolic compounds and antioxidant activity, when compared with methanol/acetone and ethanol. To study the anti-inflammatory properties of this extract in experimental type 1 diabetes, NOD mice were divided into two groups: the P. alata group, treated with aqueous extract of P. alata Curtis, and a non-treated control group, followed by diabetes expression analysis. The consumption of aqueous extract and water ad libitum lasted 28weeks. The treated-group presented a decrease in diabetes incidence, a low quantity of infiltrative cells in pancreatic islets and increased glutathione in the kidney and liver (p<0.05), when compared with the diabetic and non-diabetic control-groups. In conclusion, our results suggest that the consumption of aqueous extract of P. alata may be considered a good source of natural antioxidants and compounds found in its composition can act as anti-inflammatory agents, helping in the control of diabetes. [Copyright &y& Elsevier]

Published

2014

44. Premature Activation of Immune Transcription Programs in Autoimmune-Predisposed Mouse Embryonic Stem Cells and Blastocysts

Author

Kirak, Oktay, Ke, Eugene, Yang, Kevin Y., Schwarz, Anna, Plate, Lars, Nham, Amy, Abadejos, Justin R., Valencia, Anna, Wiseman, R. Luke, Lui, Kathy O., and Ku, Manching

Subjects

Proteomics, Proteome, Transcription, Genetic, chemokines, Autoimmunity, Article, Diabetes Mellitus, Experimental, Epigenesis, Genetic, lcsh:Chemistry, ChIP-Seq, Mice, non-obese diabetic mice, Mice, Inbred NOD, Animals, RNA-Seq, lcsh:QH301-705.5, Mouse Embryonic Stem Cells, embryonic stem cells, cytokines, Chromatin, Mice, Inbred C57BL, multi-omic analyses, predisposition, Blastocyst, lcsh:Biology (General), lcsh:QD1-999, Immune System, Transcriptome

Abstract

Autoimmune diabetes is a complex multifactorial disease with genetic and environmental factors playing pivotal roles. While many genes associated with the risk of diabetes have been identified to date, the mechanisms by which external triggers contribute to the genetic predisposition remain unclear. Here, we derived embryonic stem (ES) cell lines from diabetes-prone non-obese diabetic (NOD) and healthy C57BL/6 (B6) mice. While overall pluripotency markers were indistinguishable between newly derived NOD and B6 ES cells, we discovered several differentially expressed genes that normally are not expressed in ES cells. Several genes that reside in previously identified insulin-dependent diabetics (Idd) genomic regions were up-regulated in NOD ES cells. Gene set enrichment analysis showed that different groups of genes associated with immune functions are differentially expressed in NOD. Transcriptomic analysis of NOD blastocysts validated several differentially overexpressed Idd genes compared to B6. Genome-wide mapping of active histone modifications using ChIP-Seq supports active expression as the promoters and enhancers of activated genes are also marked by active histone modifications. We have also found that NOD ES cells secrete more inflammatory cytokines. Our data suggest that the known genetic predisposition of NOD to autoimmune diabetes leads to epigenetic instability of several Idd regions.

Published

2020

45. Uterine dysfunction in diabetic mice: the role of hydrogen sulfide

Author

Raffaella Sorrentino, Roberta d'Emmanuele di Villa Bianca, Emma Mitidieri, Domenico Vanacore, Carlotta Turnaturi, Mitidieri, E., Vanacore, D., Turnaturi, C., Sorrentino, R., and Di Villa Bianca, R. D.

Subjects

0301 basic medicine, medicine.medical_specialty, Physiology, Spontaneous motility, Clinical Biochemistry, Uterus, 030209 endocrinology & metabolism, Nod, Diabete, Biochemistry, Article, Non-obese diabetic mice, Contractility, 03 medical and health sciences, 0302 clinical medicine, Downregulation and upregulation, Western blot, Internal medicine, medicine, 3-mercaptopyruvate-sulfurtransferase, Molecular Biology, NOD mice, Contraction, medicine.diagnostic_test, diabetes, Hydrogen sulfide, Chemistry, lcsh:RM1-950, Phosphodiesterase, Cell Biology, 030104 developmental biology, medicine.anatomical_structure, Endocrinology, lcsh:Therapeutics. Pharmacology, Homeostasis

Abstract

It is well-known that the physiological uterine peristalsis, related to several phases of reproductive functions, plays a pivotal role in fertility and female reproductive health. Here, we have addressed the role of hydrogen sulfide (H2S) signaling in changes of uterine contractions driven by diabetes in non-obese diabetic (NOD) mice, a murine model of type-1 diabetes mellitus. The isolated uterus of NOD mice showed a significant reduction in spontaneous motility coupled to a generalized hypo-contractility to uterotonic agents. The levels of cyclic nucleotides, cAMP and cGMP, notoriously involved in the regulation of uterus homeostasis, were significantly elevated in NOD mouse uteri. This increase was well-correlated with the higher levels of H2S, a non-specific endogenous inhibitor of phosphodiesterases. The exposure of isolated uterus to L-cysteine (L-Cys), but not to sodium hydrogen sulfide, the exogenous source of H2S, showed a weak tocolytic effect in the uterus of NOD mice. Western blot analysis revealed a reorganization of the enzymatic expression with an upregulation of 3-mercaptopyruvate-sulfurtransferase (3-MST) coupled to a reduction in both cystathionine-&beta, synthase (CBS) and cystathionine-&gamma, lyase (CSE) expression. In conclusion, the increased levels of cyclic nucleotides dysregulate the uterus peristalsis and contractility in diabetic mice through an increase in basal H2S synthesis suggesting a role of 3-MST.

Published

2020

46. Administration of IL-1 Trap prolongs survival of transplanted pancreatic islets to type 1 diabetic NOD mice.

Author

Rydgren, Tobias, Öster, Elin, Sandberg, Monica, and Sandler, Stellan

Subjects

*INTERLEUKIN-1, *ISLANDS of Langerhans transplantation, *TYPE 1 diabetes, *GENETIC regulation, *DRUG administration, *LABORATORY mice

Abstract

Highlights: [•] Treatment with IL-1 Trap prolongs islet graft survival in type 1 diabetic mice. [•] The protective effect may be related to upregulation of IL-4. [•] The action of IL-1 Trap seems to be an “all or nothing” effect. [ABSTRACT FROM AUTHOR]

Published

2013

47. Lotus (Nelumbo nucifera Gaertn) plumule polysaccharide ameliorates pancreatic islets loss and serum lipid profiles in non-obese diabetic mice.

Author

Liao, Chun-Huei and Lin, Jin-Yuarn

Subjects

*EAST Indian lotus, *POLYSACCHARIDES, *ISLANDS of Langerhans, *BLOOD lipids, *DIABETES, *INSULIN, *BLOOD serum analysis, *LABORATORY mice

Abstract

Highlights: [•] A newly isolated lotus plumule polysaccharide (LPPS) was used for study. [•] LPPS was administered to NOD mice for 15weeks. [•] LPPS markedly ameliorated pancreatic islets loss in NOD mice. [•] LPPS improved basal insulin secretion ability by pancreatic islets. [•] LPPS modulated serum lipid profiles in the diabetic mice. [ABSTRACT FROM AUTHOR]

Published

2013

48. Alpha-1-antitrypsin for the improvement of autoimmunity and allograft rejection in beta cell transplantation

Author

Ye, Jian, Liao, Yu-Ting, Jian, You-Qiang, Zhang, Xiao-Dan, Wei, Pei, Qi, Hui, Deng, Chun-Yan, and Li, Fu-Rong

Subjects

*ALPHA 1-antitrypsin, *PANCREATIC beta cells, *CELL transplantation, *AUTOIMMUNITY, *HOMOGRAFTS, *GRAFT rejection, *ISLANDS of Langerhans, *AUTOIMMUNE diseases, *DIABETES

Abstract

Abstract: Islet transplantation offers hope for patients with type 1 diabetes, which is an autoimmune disease. However, islet transplant recipients must overcome two obstacles in both allograft rejection and autoimmune reaction. Alpha-1-antitrypsin (a1-proteinase inhibitor, AAT) possesses anti-inflammatory properties, reduces cytokine-mediated islet damage, and induces specific immune tolerance. In this study, an insulinoma cell line, NIT-1, was transfected with human AAT (hAAT), named NIT-hAAT, and was transplanted to the left renal subcapsular spaces of 7-week-old female non-obese diabetic (NOD) mice (n =22). Cyclophosphamide(CY) was administered to synchronize and accelerate the development of diabetes. Thus, the immunosuppressive and cytoprotective activity of hAAT in β-cell transplantation was investigated. NIT-hAAT has immunomodulatory properties, which delay the onset of autoimmune diabetes, reduce diabetes incidence, inhibit insulitis and β-cell apoptosis, and dampen transplant site inflammation. We propose that NIT-hAAT has a dual function by improving islet autoimmunity and protecting transplanted β-cells from allograft rejection. However, the low expression of hAAT in vivo results in the inability of NIT-hAAT to induce long-term specific immune tolerance and to completely block allograft rejection. [Copyright &y& Elsevier]

Published

2013

49. Long-term reversal of diabetes in non-obese diabetic mice by liver-directed gene therapy.

Author

Ren, Binhai, O'Brien, Bronwyn A., Byrne, Michelle R., Ch'ng, Edwin, Gatt, Prudence N., Swan, M. Anne, Nassif, Najah T., Wei, Ming Q., Gijsbers, Rik, Debyser, Zeger, and Simpson, Ann M.

Abstract

Background Type 1 diabetes (T1D) results from an autoimmune attack against the insulin-producing β-cells of the pancreas. The present study aimed to reverse T1D by gene therapy. Methods We used a novel surgical technique, which involves isolating the liver from the circulation before the delivery of a lentiviral vector carrying furin-cleavable human insulin (INS-FUR) or empty vector to the livers of diabetic non-obese diabetic mice (NOD). This was compared with the direct injection of the vector into the portal circulation. Mice were monitored for body weight and blood glucose. Intravenous glucose tolerance tests were performed. Expression of insulin and pancreatic transcription factors was determined by the reverse transcriptase-polymerase chain reaction and immunohistochemistry and immunoelectron microscopy was used to localise insulin. Results Using the novel surgical technique, we achieved long-term transduction (42% efficiency) of hepatocytes, restored normoglycaemia for 150 days (experimental endpoint) and re-established normal glucose tolerance. We showed the expression of β-cell transcription factors, murine insulin, glucagon and somatostatin, and hepatic storage of insulin in granules. The expression of hepatic markers, C/EBP-β, G6PC, AAT and GLUI was down-regulated in INS-FUR-treated livers. Liver function tests remained normal, with no evidence of intrahepatic inflammation or autoimmune destruction of the insulin-secreting liver tissue. By comparison, direct injection of INS-FUR reduced blood glucose levels, and no pancreatic transdifferentiation or normal glucose tolerance was observed. Conclusions This gene therapy protocol has, for the first time, permanently reversed T1D with normal glucose tolerance in NOD mice and, as such, represents a novel therapeutic strategy for the treatment of T1D. Copyright © 2013 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2013

50. TACI-Fc gene therapy improves autoimmune sialadenitis but not salivary gland function in non-obese diabetic mice.

Author

Vosters, JL, Roescher, N, Illei, GG, Chiorini, JA, and Tak, PP

Subjects

*ANIMAL experimentation, *AUTOIMMUNE diseases, *STATISTICAL correlation, *CYTOKINES, *DIABETES, *ENZYME-linked immunosorbent assay, *GENE therapy, *MICE, *SALIVARY glands, *SALIVARY gland diseases, *SJOGREN'S syndrome, *STATISTICS, *T-test (Statistics), *DATA analysis, *DATA analysis software

Abstract

Oral Diseases (2012) 18, 365-374 Objective: Patients with Sjögren's syndrome (SS) show aberrant expression of the B cell-related mediators, B cell-activating factor (BAFF), and a proliferation-inducing ligand (APRIL) in serum and salivary glands (SGs). We studied the biological effect of neutralizing these cytokines by local gene transfer of the common receptor transmembrane activator and CAML interactor (TACI) in an animal model of SS. Material and Methods: A recombinant serotype 2 adeno-associated virus (rAAV2) encoding TACI-Fc was constructed, and its efficacy was tested in the SGs of non-obese diabetic mice. Ten weeks later, SG inflammation was evaluated and serum and SG tissue were analyzed for inflammatory markers including immunoglobulins (Ig) and cytokines. Results: AAV2-TACI-Fc gene therapy significantly reduced the number of inflammatory foci in the SG, owing to a decrease in IgD+ cells and CD138+ cells. Moreover, IgG and IgM levels, but not IgA levels, were reduced in the SG. Overall expression of mainly proinflammatory cytokines tended to be lower in AAV2-TACI-Fc-treated mice. Salivary flow was unaffected. Conclusion: Although local expression of soluble TACI-Fc reduced inflammation and immunoglobulin levels in the SG, further research will have to prove whether dual blockade of APRIL and BAFF by TACI-Fc can provide a satisfying treatment for the clinical symptoms of patients. [ABSTRACT FROM AUTHOR]

Published

2012