Your search keyword '"Suzanne Bertera"' showing total 7 results

1. Dual pancreatic adrenergic and dopaminergic signaling as a therapeutic target of bromocriptine

Author

Despoina Aslanoglou, Suzanne Bertera, Laura Friggeri, Marta Sánchez-Soto, Jeongkyung Lee, Xiangning Xue, Ryan W. Logan, J. Robert Lane, Vijay K. Yechoor, Peter J. McCormick, Jens Meiler, R. Benjamin Free, David R. Sibley, Rita Bottino, and Zachary Freyberg

Subjects

Multidisciplinary

Abstract

Bromocriptine is approved as a diabetes therapy, yet its therapeutic mechanisms remain unclear. Though bromocriptine's actions have been mainly attributed to the stimulation of brain dopamine D

Published

2022

2. Pig-to-Monkey Islet Xenotransplantation Using Multi-Transgenic Pigs

Author

Jing He, Suzanne Bertera, Rita Bottino, Hidetaka Hara, D. J. van der Windt, Noriko Murase, Martin Wijkstrom, C. Phelps, Mohamed Ezzelarab, D. Ayares, Massimo Trucco, and David K. C. Cooper

Subjects

Blood Glucose, endocrine system, medicine.medical_specialty, endocrine system diseases, Swine, Xenotransplantation, medicine.medical_treatment, Transgene, Transplantation, Heterologous, Islets of Langerhans Transplantation, Biology, Article, Animals, Genetically Modified, Membrane Cofactor Protein, Tissue factor pathway inhibitor, Internal medicine, medicine, Animals, Immunology and Allergy, CTLA-4 Antigen, Pharmacology (medical), Pancreas, Transplantation, geography, geography.geographical_feature_category, Immunosuppression, Islet, Macaca fascicularis, Glucose, Endocrinology, medicine.anatomical_structure, Liver, Female, Histopathology, Immunosuppressive Agents

Abstract

The generation of pigs with genetic modifications has significantly advanced the field of xenotransplantation. New genetically-engineered pigs were produced on an α1,3-galactosyltransferase gene-knockout background with ubiquitous expression of human CD46 (GTKO/CD46 pigs), with islet beta cell-specific expression of human tissue factor pathway inhibitor (hTFPI) and/or human CD39 and/or porcine CTLA4-lg. Isolated islets from pigs with 3, 4, or 5 genetic modifications were transplanted intraportally into streptozotocin-diabetic, immunosuppressed cynomolgus monkeys (n=5). Immunosuppression was based on anti-CD154mAb costimulation blockade. Monitoring included features of early islet destruction, glycemia, exogenous insulin requirement, and histopathology of the islets at necropsy. Using these modified pig islets, there was evidence of reduced islet destruction in the first hours after transplantation, compared with two series of historical controls that received identical therapy but were transplanted with islets from pigs with either no or only one genetic modification. Despite encouraging effects on early islet loss, these multi-transgenic islet grafts did not demonstrate consistency in regard to long-term success, with only 2 of 5 demonstrating function beyond 5 months.

Published

2014

3. Compromised central tolerance of ICA69 induces multiple organ autoimmunity

Author

Suzanne Bertera, Gregory R. Owens, William A. Rudert, Antonina Coppola, Massimo Trucco, Yong Fan, Jing He, Asako Tajima, Massimo Pietropaolo, Maria Grupillo, Giulio Gualtierotti, Fan, Y, Gualtierotti,G, Tajima, A, Grupillo, M, Coppola, A, He, J, Bertera, S, Owens, G, Pietropaolo, M, Rudert, WA, and Trucco, M

Subjects

Primary Sjogren's syndrome, Genetically modified mouse, Immunology, Thyroid Gland, Autoimmune diabete, Mice, Transgenic, Thymus Gland, Biology, medicine.disease_cause, Autoantigens, Article, Salivary Glands, Settore MED/13 - Endocrinologia, Autoimmune Diseases, Autoimmunity, Immune tolerance, Autoimmune thyroiditis, Islets of Langerhans, Mice, ICA69, Mice, Inbred NOD, Immune Tolerance, medicine, Animals, Immunology and Allergy, Thymu, Autoimmune thyroiditi, NOD mice, Inflammation, Autoimmune disease, Stomach, medicine.disease, Gene Expression Regulation, Autoimmune polyendocrine syndrome, Central tolerance

Abstract

For reasons not fully understood, patients with an organ-specific autoimmune disease have increased risks of developing autoimmune responses against other organs/tissues. We identified ICA69, a known β-cell autoantigen in Type 1 diabetes, as a potential common target in multi-organ autoimmunity. NOD mice immunized with ICA69 polypeptides exhibited exacerbated inflammation not only in the islets, but also in the salivary glands. To further investigate ICA69 autoimmunity, two genetically modified mouse lines were generated to modulate thymic ICA69 expression: the heterozygous ICA69(del/wt) line and the thymic medullary epithelial cell-specific deletion Aire-ΔICA69 line. Suboptimal central negative selection of ICA69-reactive T-cells was observed in both lines. Aire-ΔICA69 mice spontaneously developed coincident autoimmune responses to the pancreas, the salivary glands, the thyroid, and the stomach. Our findings establish a direct link between compromised thymic ICA69 expression and autoimmunity against multiple ICA69-expressing organs, and identify a potential novel mechanism for the development of multi-organ autoimmune diseases.

Published

2014

4. Harmful Delayed Effects of Exogenous Isolation Enzymes on Isolated Human Islets: Relevance to Clinical Transplantation

Author

A.N. Balamurugan, Massimo Trucco, Suzanne Bertera, Rita Bottino, Xinhui Ge, Fengli Guo, Jing He, Xuehui Geng, and Donna B. Stolz

Subjects

endocrine system, medicine.medical_specialty, endocrine system diseases, medicine.medical_treatment, Islets of Langerhans Transplantation, Thermolysin, Apoptosis, Inflammation, Mice, SCID, Biology, Islets of Langerhans, Mice, Internal medicine, Insulin Secretion, medicine, Animals, Humans, Insulin, Immunology and Allergy, Pharmacology (medical), Secretion, Collagenases, Microscopy, Immunoelectron, bcl-2-Associated X Protein, chemistry.chemical_classification, Mice, Inbred BALB C, Transplantation, geography, Microscopy, Confocal, geography.geographical_feature_category, Pancreatic islets, Islet, Enzyme, Endocrinology, medicine.anatomical_structure, Proto-Oncogene Proteins c-bcl-2, chemistry, medicine.symptom, Pancreas

Abstract

The isolation process exposes human pancreatic islets to exogenous isolation enzymes. Exposure to these enzymes, as a result of intraductal injection in the pancreas or simple contact of islets with enzyme components, causes internalization into the islet cells of enzymes and their by-products. Human islets exposed to Liberase-HI exhibit a decreased insulin secretory ability that correlates with the time of exposure. This phenomenon is paralleled by increased expression of adhesion molecules (CD106 and CD62p) and activation of apoptotic pathways (Bax and Bcl-2) in islet cells. Increased functional impairment is also observed after islet transplantation in diabetic immunodeficient mice. Experimental exposure of islet grafts to exogenous isolation enzymes causes intense inflammation (CD11b positive cells) at the transplant site and it was associated with sickness behavior and eventually death of mouse recipients. The extent of these adverse effects likely deceives the standard qualitative protocols currently in use to assess islet quality in vitro. Reducing the secondary effects of exogenous isolation enzymes on isolated human islets may be crucial to enhance the quality of islets as tissue grafts.

Published

2005

5. Protection of Islets by in SituPeptide-mediated Transduction of the IκB Kinase Inhibitor Nemo-binding Domain Peptide

Author

A.N. Balamurugan, Jeffrey C. Mai, Massimo Trucco, Rita Bottino, Suzanne Bertera, Khaja K. Rehman, Paul D. Robbins, and Zhibao Mi

Subjects

endocrine system, Cell Survival, Recombinant Fusion Proteins, Apoptosis, IκB kinase, Protein Serine-Threonine Kinases, Biology, Biochemistry, Adenoviridae, Islets of Langerhans, Mice, Transduction (genetics), Animals, Humans, Insulin, Molecular Biology, Cells, Cultured, Mice, Inbred BALB C, geography, geography.geographical_feature_category, Gene Transfer Techniques, NF-kappa B, Transcription Factor RelA, I-Kappa-B Kinase, Cell Biology, Islet, NFKB1, I-kappa B Kinase, Protein Structure, Tertiary, Cell biology, Transplantation, Protein Transport, Glucose, Microscopy, Fluorescence, Signal transduction, Peptides, Signal Transduction, Binding domain

Abstract

We have previously demonstrated that adenoviral gene transfer of the NF-kappaB inhibitor IkappaB to human islets results in protection from interleukin (IL)-1beta-mediated dysfunction and apoptosis. Here we report that human and mouse islets can be efficiently transduced by a cationic peptide transduction domain (PTD-5) without impairment of islet function. PTD mediated delivery of a peptide inhibitor of the IL-1beta-induced IkappaB kinase (IKK), derived from IKKbeta (NBD; Nemo-binding domain), and completely blocked the detrimental effects of IL-1beta on islet function and NF-kappaB activity, in a similar manner to Ad-IkappaB. We also demonstrate that mouse islets can be transduced in situ by infusion of the transduction peptide through the bile duct prior to isolation, resulting in 40% peptide transduction of the beta-cells. Delivery of the IKK inhibitor transduction fusion peptide (PTD-5-NBD) in situ to mouse islets resulted in improved islet function and viability after isolation. These results demonstrate the feasibility of using PTD-mediated delivery to transiently modify islets in situ to improve their viability and function during isolation, prior to transplantation.

Published

2003

6. IMMUNOLOGY OF TYPE 1 DIABETES

Author

Paul D. Robbins, Nick Giannoukakis, Massimo Trucco, Andrew L. Alexander, and Suzanne Bertera

Subjects

Autoimmune disease, Type 1 diabetes, biology, business.industry, Endocrinology, Diabetes and Metabolism, Pancreatic islets, Coxsackievirus, medicine.disease, biology.organism_classification, Pathogenesis, Endocrinology, Immune system, medicine.anatomical_structure, Autoimmune Process, Diabetes mellitus, Immunology, medicine, business

Abstract

Type 1 diabetes is the outcome of a progressive and selective destruction of insulin-producing cells in the pancreatic islets of Langerhans. The precise cause and mechanism(s) that trigger the insulin-producing cell destruction are still unclear, although it is well accepted that an autoimmune process plays a central role in diabetes development among genetically susceptible children. Additionally, certain viral infections, especially those caused by Coxsackievirus B, have been associated with the onset of type 1 diabetes. Possible gene therapy-based prevention and intervention strategies are discussed, based on the most accepted models of type 1 diabetes pathogenesis.

Published

1999

7. A Novel Strategy in Prevention and Delay of Type I Diabetes Mellitus (T1DM) Onset by Autoimmunization

Author

Suzanne Bertera, Yingze Zhang, Massimo Trucco, Y. Chang, J. Pignelli, Ming S. Lin, J. Chang, Hubert M. Tse, Robert J. Lakomy, L. He, M. Pietroppaolo, M. Milton, and C. Wong

Subjects

Pediatrics, medicine.medical_specialty, business.industry, Type i diabetes mellitus, Immunology, medicine, Immunology and Allergy, business

Published

2008