Your search keyword '"Shaw JAM"' showing total 5 results

1. Beyond insulin: Unraveling the complex interplay of ER stress, oxidative damage, and CFTR modulation in CFRD.

Author

Umashankar B, Eliasson L, Ooi CY, Kim KW, Shaw JAM, and Waters SA

Subjects

Humans, Insulin metabolism, Unfolded Protein Response physiology, Insulin-Secreting Cells metabolism, Insulin-Secreting Cells physiology, Cystic Fibrosis metabolism, Oxidative Stress, Endoplasmic Reticulum Stress physiology, Cystic Fibrosis Transmembrane Conductance Regulator metabolism, Cystic Fibrosis Transmembrane Conductance Regulator genetics, Diabetes Mellitus metabolism

Abstract

CF-related diabetes (CFRD) is a prevalent comorbidity in people with Cystic Fibrosis (CF), significantly impacting morbidity and mortality rates. This review article critically evaluates the current understanding of CFRD molecular mechanisms, including the role of CFTR protein, oxidative stress, unfolded protein response (UPR) and intracellular communication. CFRD manifests from a complex interplay between exocrine pancreatic damage and intrinsic endocrine dysfunction, further complicated by the deleterious effects of misfolded CFTR protein on insulin secretion and action. Studies indicate that ER stress and subsequent UPR activation play critical roles in both exocrine and endocrine pancreatic cell dysfunction, contributing to β-cell loss and insulin insufficiency. Additionally, oxidative stress and altered calcium flux, exacerbated by CFTR dysfunction, impair β-cell survival and function, highlighting the significance of antioxidant pathways in CFRD pathogenesis. Emerging evidence underscores the importance of exosomal microRNAs (miRNAs) in mediating inflammatory and stress responses, offering novel insights into CFRD's molecular landscape. Despite insulin therapy remaining the cornerstone of CFRD management, the variability in response to CFTR modulators underscores the need for personalized treatment approaches. The review advocates for further research into non-CFTR therapeutic targets, emphasizing the need to address the multifaceted pathophysiology of CFRD. Understanding the intricate mechanisms underlying CFRD will pave the way for innovative treatments, moving beyond insulin therapy to target the disease's root causes and improve the quality of life for individuals with CF., Competing Interests: Declaration of competing interest All authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published

2024

2. Editorial: Cystic fibrosis-related diabetes.

Author

Shaw JAM

Subjects

Humans, Cystic Fibrosis complications, Diabetes Mellitus etiology

Abstract

Competing Interests: The authors declares that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Published

2024

3. β-Cell and renal transplantation options for diabetes.

Author

Flatt AJS, Bennett D, Counter C, Brown AL, White SA, and Shaw JAM

Subjects

Humans, Insulin-Secreting Cells physiology, Islets of Langerhans Transplantation methods, Living Donors, Pancreas Transplantation methods, Tissue Donors supply & distribution, Diabetes Mellitus therapy, Insulin-Secreting Cells transplantation, Kidney Transplantation methods

Abstract

Despite major advances in structured education, insulin delivery and glucose monitoring, diabetes self-management remains an unremitting challenge. Insulin therapy is inextricably linked to risk of dangerous hypoglycaemia and sustained hyperglycaemia remains a leading cause of renal failure. This review sets out to demystify transplantation for diabetes multidisciplinary teams, facilitating consideration and incorporation within holistic overall person-centred management. Deceased and living donor kidney, whole pancreas and isolated islet transplant procedures, indications and potential benefits are described, in addition to outcomes within the integrated UK transplant programme., (© 2019 Diabetes UK.)

Published

2020

4. Defining Outcomes for β-cell Replacement Therapy in the Treatment of Diabetes: A Consensus Report on the Igls Criteria From the IPITA/EPITA Opinion Leaders Workshop.

Author

Rickels MR, Stock PG, de Koning EJP, Piemonti L, Pratschke J, Alejandro R, Bellin MD, Berney T, Choudhary P, Johnson PR, Kandaswamy R, Kay TWH, Keymeulen B, Kudva YC, Latres E, Langer RM, Lehmann R, Ludwig B, Markmann JF, Marinac M, Odorico JS, Pattou F, Senior PA, Shaw JAM, Vantyghem MC, and White S

Subjects

Biomarkers blood, Blood Glucose metabolism, C-Peptide blood, Consensus, Diabetes Mellitus blood, Diabetes Mellitus diagnosis, Glycated Hemoglobin metabolism, Humans, Hypoglycemia blood, Hypoglycemia etiology, Hypoglycemic Agents therapeutic use, Insulin-Secreting Cells metabolism, Islets of Langerhans Transplantation adverse effects, Islets of Langerhans Transplantation standards, Risk Factors, Treatment Outcome, Diabetes Mellitus surgery, Insulin-Secreting Cells transplantation, Islets of Langerhans Transplantation methods

Abstract

β-cell replacement therapy, available currently as pancreas or islet transplantation, has developed without a clear definition of graft functional and clinical outcomes. The International Pancreas and Islet Transplant Association and European Pancreas and Islet Transplantation Association held a workshop to develop consensus for an International Pancreas and Islet Transplant Association and European Pancreas and Islet Transplant Association Statement on the definition of function and failure of current and future forms of β-cell replacement therapy. There was consensus that β-cell replacement therapy could be considered as a treatment for β-cell failure, regardless of etiology and without requiring undetectable C-peptide, accompanied by glycemic instability with either problematic hypoglycemia or hyperglycemia. Glycemic control should be assessed at a minimum by glycated hemoglobin (HbA1c) and the occurrence of severe hypoglycemia. Optimal β-cell graft function is defined by near-normal glycemic control (HbA1c ≤6.5% [48 mmol/mol]) without severe hypoglycemia or requirement for insulin or other antihyperglycemic therapy, and with an increase over pretransplant measurement of C-peptide. Good β-cell graft function requires HbA1c less than 7.0% (53 mmol/mol) without severe hypoglycemia and with a significant (>50%) reduction in insulin requirements and restoration of clinically significant C-peptide production. Marginal β-cell graft function is defined by failure to achieve HbA1c less than 7.0% (53 mmol/mol), the occurrence of any severe hypoglycemia, or less than 50% reduction in insulin requirements when there is restoration of clinically significant C-peptide production documented by improvement in hypoglycemia awareness/severity, or glycemic variability/lability. A failed β-cell graft is defined by the absence of any evidence for clinically significant C-peptide production. Optimal and good function are considered successful clinical outcomes.

Published

2018

5. Oxygen Perfusion (Persufflation) of Human Pancreata Enhances Insulin Secretion and Attenuates Islet Proinflammatory Signaling

Author

Klearchos K. Papas, Manas Dmd, Amanda M. Cooksey, Hasilo C, Kate E. Smith, Andrew M. Posselt, Georgiev Ig, Nicholas D. Price, Amy C. Kelly, Robert C. Harland, Suszynski Tm, Scott We rd, Peter G. Stock, Leticia E. Camacho, Shaw Jam, Miranda J. Anderson, Shapiro Amj, Weegman Bp, Thomas Loudovaris, Molano Ds, OʼGorman D, Fiona M. McCarthy, Catherine G. Min, Tatsuya Kin, Jana Jandova, Gregory L. Szot, Steven Paraskevas, Theodore Karatzas, Sean W. Limesand, Craig Weber, Ronald M. Lynch, and Purvis Wg

Subjects

Male, Time Factors, endocrine system diseases, 030230 surgery, Medical and Health Sciences, Transcriptome, 0302 clinical medicine, Gene expression, Insulin Secretion, Insulin, geography.geographical_feature_category, Secretory Pathway, integumentary system, Diabetes, Organ Preservation, Middle Aged, Islet, Cold Temperature, Perfusion, medicine.anatomical_structure, Tissue and Organ Harvesting, 030211 gastroenterology & hepatology, Female, Inflammation Mediators, Pancreas, Signal Transduction, Adult, endocrine system, Adolescent, Cell Survival, Cold storage, Autoimmune Disease, Article, Proinflammatory cytokine, Andrology, 03 medical and health sciences, Islets of Langerhans, Young Adult, Diabetes mellitus, medicine, Humans, Metabolic and endocrine, Transplantation, geography, business.industry, medicine.disease, Oxygen, Gene Expression Regulation, Surgery, business, Energy Metabolism

Abstract

Background All human islets used in research and for the clinical treatment of diabetes are subject to ischemic damage during pancreas procurement, preservation, and islet isolation. A major factor influencing islet function is exposure of pancreata to cold ischemia during unavoidable windows of preservation by static cold storage (SCS). Improved preservation methods may prevent this functional deterioration. In the present study, we investigated whether pancreas preservation by gaseous oxygen perfusion (persufflation) better preserved islet function versus SCS. Methods Human pancreata were preserved by SCS or by persufflation in combination with SCS. Islets were subsequently isolated, and preparations in each group matched for SCS or total preservation time were compared using dynamic glucose-stimulated insulin secretion as a measure of β-cell function and RNA sequencing to elucidate transcriptomic changes. Results Persufflated pancreata had reduced SCS time, which resulted in islets with higher glucose-stimulated insulin secretion compared to islets from SCS only pancreata. RNA sequencing of islets from persufflated pancreata identified reduced inflammatory and greater metabolic gene expression, consistent with expectations of reducing cold ischemic exposure. Portions of these transcriptional responses were not associated with time spent in SCS and were attributable to pancreatic reoxygenation. Furthermore, persufflation extended the total preservation time by 50% without any detectable decline in islet function or viability. Conclusions These data demonstrate that pancreas preservation by persufflation rather than SCS before islet isolation reduces inflammatory responses and promotes metabolic pathways in human islets, which results in improved β cell function.

Published

2019