Your search keyword '"Monogenic diabetes"' showing total 332 results

1. Next-generation sequencing identifies monogenic diabetes in 16% of patients with late adolescence/adult-onset diabetes selected on a clinical basis: a cross-sectional analysis

Author

Donath, Xavier, Saint-Martin, Cécile, Dubois-Laforgue, Danièle, Rajasingham, Ramanan, Mifsud, François, Ciangura, Cécile, Timsit, José, Bellanné-Chantelot, Christine, and on behalf of the Monogenic Diabetes Study Group of the Société Francophone du Diabète

Published

2019

2. Developmentally dynamic changes in DNA methylation in the human pancreas

Author

MacCalman, Ailsa, De Franco, Elisa, Franklin, Alice, Flaxman, Christine S., Richardson, Sarah J., Murrall, Kathryn, Burrage, Joe, Walker, Emma M., Morgan, Noel G., Hattersley, Andrew T., Dempster, Emma L., Hannon, Eilis, Jeffries, Aaron R., Owens, Nick D. L., and Mill, Jonathan

Published

2024

3. Case report: Glycaemic management and pregnancy outcomes in a woman with an insulin receptor mutation, p.Met1180Lys

Author

Crowley, Mairéad T., Goulden, Eirena, Sanchez-Lechuga, Begona, Fleming, Aileen, Kennelly, Maria, McDonnell, Ciara, and Byrne, Maria M.

Published

2024

4. Atypical diabetes with spontaneous remission associated with systemic lupus erythematosus in an adolescent girl of African ancestry, a case report

Author

Luterbacher, Fanny, Blouin, Jean-Louis, and Schwitzgebel, Valerie M.

Published

2023

5. Disease progression and search for monogenic diabetes among children with new onset type 1 diabetes negative for ICA, GAD- and IA-2 Antibodies

Author

University of Helsinki, Clinicum, Porksen, Sven, Laborie, Lene Bjerke, Nielsen, Lotte, Andersen, Marie Louise Max, Sandal, Tone, de Wet, Heidi, Schwarcz, Erik, Aman, Jan, Swift, Peter, Kocova, Mirjana, Schoenle, Eugen J., de Beaufort, Carine, Hougaard, Philip, Ashcroft, Frances, Molven, Anders, Knip, Mikael, Mortensen, Henrik B., Hansen, Lars, Njolstad, Pal R., Hvidore Study Grp Childhood Diabet, University of Helsinki, Clinicum, Porksen, Sven, Laborie, Lene Bjerke, Nielsen, Lotte, Andersen, Marie Louise Max, Sandal, Tone, de Wet, Heidi, Schwarcz, Erik, Aman, Jan, Swift, Peter, Kocova, Mirjana, Schoenle, Eugen J., de Beaufort, Carine, Hougaard, Philip, Ashcroft, Frances, Molven, Anders, Knip, Mikael, Mortensen, Henrik B., Hansen, Lars, Njolstad, Pal R., and Hvidore Study Grp Childhood Diabet

Published

2010

6. Spectrum of mutations in monogenic diabetes genes identified from high-throughput DNA sequencing of 6888 individuals.

Author

Bansal V, Gassenhuber J, Phillips T, Oliveira G, Harbaugh R, Villarasa N, Topol EJ, Seufferlein T, and Boehm BO

Subjects

Adult, Case-Control Studies, Cohort Studies, DNA Mutational Analysis, Diabetes Mellitus, Type 2 diagnosis, Female, High-Throughput Nucleotide Sequencing methods, Humans, Male, Mutation, Missense, Phenotype, Prognosis, Sequence Analysis, DNA, Diabetes Mellitus, Type 2 genetics, Mutation

Abstract

Background: Diagnosis of monogenic as well as atypical forms of diabetes mellitus has important clinical implications for their specific diagnosis, prognosis, and targeted treatment. Single gene mutations that affect beta-cell function represent 1-2% of all cases of diabetes. However, phenotypic heterogeneity and lack of family history of diabetes can limit the diagnosis of monogenic forms of diabetes. Next-generation sequencing technologies provide an excellent opportunity to screen large numbers of individuals with a diagnosis of diabetes for mutations in disease-associated genes., Methods: We utilized a targeted sequencing approach using the Illumina HiSeq to perform a case-control sequencing study of 22 monogenic diabetes genes in 4016 individuals with type 2 diabetes (including 1346 individuals diagnosed before the age of 40 years) and 2872 controls. We analyzed protein-coding variants identified from the sequence data and compared the frequencies of pathogenic variants (protein-truncating variants and missense variants) between the cases and controls., Results: A total of 40 individuals with diabetes (1.8% of early onset sub-group and 0.6% of adult onset sub-group) were carriers of known pathogenic missense variants in the GCK, HNF1A, HNF4A, ABCC8, and INS genes. In addition, heterozygous protein truncating mutations were detected in the GCK, HNF1A, and HNF1B genes in seven individuals with diabetes. Rare missense mutations in the GCK gene were significantly over-represented in individuals with diabetes (0.5% carrier frequency) compared to controls (0.035%). One individual with early onset diabetes was homozygous for a rare pathogenic missense variant in the WFS1 gene but did not have the additional phenotypes associated with Wolfram syndrome., Conclusion: Targeted sequencing of genes linked with monogenic diabetes can identify disease-relevant mutations in individuals diagnosed with type 2 diabetes not suspected of having monogenic forms of the disease. Our data suggests that GCK-MODY frequently masquerades as classical type 2 diabetes. The results confirm that MODY is under-diagnosed, particularly in individuals presenting with early onset diabetes and clinically labeled as type 2 diabetes; thus, sequencing of all monogenic diabetes genes should be routinely considered in such individuals. Genetic information can provide a specific diagnosis, inform disease prognosis and may help to better stratify treatment plans.

Published

2017

7. Evaluation of a target region capture sequencing platform using monogenic diabetes as a study-model.

Author

Rui Gao, Yanxia Liu, Gjesing, Anette Prior, Hollensted, Mette, Xianzi Wan, Shuwen He, Pedersen, Oluf, Xin Yi, Jun Wang, and Hansen, Torben

Subjects

*ENDOCRINE diseases, *DIAGNOSIS of diabetes, *DIABETES complications, *GENETIC disorders, *PEOPLE with diabetes, *CLINICAL medicine

Abstract

Background Monogenic diabetes is a genetic disease often caused by mutations in genes involved in betacell function. Correct sub-categorization of the disease is a prerequisite for appropriate treatment and genetic counseling. Target-region capture sequencing is a combination of genomic region enrichment and next generation sequencing which might be used as an efficient way to diagnose various genetic disorders. We aimed to develop a target-region capture sequencing platform to screen 117 selected candidate genes involved in metabolism for mutations and to evaluate its performance using monogenic diabetes as a study-model. Results The performance of the assay was evaluated in 70 patients carrying known disease causing mutations previously identified in HNF4A, GCK, HNF1A, HNF1B, INS, or KCNJ11. Target regions with a less than 20-fold sequencing depth were either introns or UTRs. When only considering translated regions, the coverage was 100% with a 50-fold minimum depth. Among the 70 analyzed samples, 63 small size single nucleotide polymorphisms and indels as well as 7 large deletions and duplications were identified as being the pathogenic variants. The mutations identified by the present technique were identical with those previously identified through Sanger sequencing and Multiplex Ligation-dependent Probe Amplification. Conclusions We hereby demonstrated that the established platform as an accurate and high-throughput gene testing method which might be useful in the clinical diagnosis of monogenic diabetes. [ABSTRACT FROM AUTHOR]

Published

2014

8. Etiologic distribution and clinical characteristics of pediatric diabetes in 276 children and adolescents with diabetes at a single academic center

Author

Kim, Ja Hye, Lee, Yena, Choi, Yunha, Kim, Gu-Hwan, Yoo, Han-Wook, and Choi, Jin-Ho

Published

2021

9. Searching for "monogenic diabetes" in dogs using a candidate gene approach.

Author

Short AD, Holder A, Rothwell S, Massey J, Scholey R, Kennedy LJ, Catchpole B, and Ollier WE

Abstract

Background: Canine diabetes is a common endocrine disorder with an estimated breed-related prevalence ranging from 0.005% to 1.5% in pet dogs. Increased prevalence in some breeds suggests that diabetes in dogs is influenced by genetic factors and similarities between canine and human diabetes phenotypes suggest that the same genes might be associated with disease susceptibility in both species. Between 1-5% of human diabetes cases result from mutations in a single gene, including maturity onset diabetes of the adult (MODY) and neonatal diabetes mellitus (NDM). It is not clear whether monogenic forms of diabetes exist within some dog breeds. Identification of forms of canine monogenic diabetes could help to resolve the heterogeneity of the condition and lead to development of breed-specific genetic tests for diabetes susceptibility., Results: Seventeen dog breeds were screened for single nucleotide polymorphisms (SNPs) in eighteen genes that have been associated with human MODY/NDM. Six SNP associations were found from five genes, with one gene (ZFP57) being associated in two different breeds., Conclusions: Some of the genes that have been associated with susceptibility to MODY and NDM in humans appear to also be associated with canine diabetes, although the limited number of associations identified in this study indicates canine diabetes is a heterogeneous condition and is most likely to be a polygenic trait in most dog breeds.

Published

2014

10. Disease progression and search for monogenic diabetes among children with new onset type 1 diabetes negative for ICA, GAD- and IA-2 Antibodies.

Author

Pörksen S, Laborie LB, Nielsen L, Louise Max Andersen M, Sandal T, de Wet H, Schwarcz E, Aman J, Swift P, Kocova M, Schönle EJ, de Beaufort C, Hougaard P, Ashcroft F, Molven A, Knip M, Mortensen HB, Hansen L, and Njølstad PR

Abstract

Background: To investigate disease progression the first 12 months after diagnosis in children with type 1 diabetes negative (AAB negative) for pancreatic autoantibodies [islet cell autoantibodies(ICA), glutamic acid decarboxylase antibodies (GADA) and insulinoma-associated antigen-2 antibodies (IA-2A)]. Furthermore the study aimed at determining whether mutations in KCNJ11, ABCC8, HNF1A, HNF4A or INS are common in AAB negative diabetes., Materials and Methods: In 261 newly diagnosed children with type 1 diabetes, we measured residual β-cell function, ICA, GADA, and IA-2A at 1, 6 and 12 months after diagnosis. The genes KCNJ11, ABCC8, HNF1A, HNF4A and INS were sequenced in subjects AAB negative at diagnosis. We expressed recombinant K-ATP channels in Xenopus oocytes to analyse the functional effects of an ABCC8 mutation., Results: Twenty-four patients (9.1%) tested AAB negative after one month. Patients, who were AAB-negative throughout the 12-month period, had higher residual β-cell function (P = 0.002), lower blood glucose (P = 0.004), received less insulin (P = 0.05) and had lower HbA1c (P = 0.02) 12 months after diagnosis. One patient had a heterozygous mutation leading to the substitution of arginine at residue 1530 of SUR1 (ABCC8) by cysteine. Functional analyses of recombinant K-ATP channels showed that R1530C markedly reduced the sensitivity of the K-ATP channel to inhibition by MgATP. Morover, the channel was highly sensitive to sulphonylureas. However, there was no effect of sulfonylurea treatment after four weeks on 1.0-1.2 mg/kg/24 h glibenclamide., Conclusion: GAD, IA-2A, and ICA negative children with new onset type 1 diabetes have slower disease progression as assessed by residual beta-cell function and improved glycemic control 12 months after diagnosis. One out of 24 had a mutation in ABCC8, suggesting that screening of ABCC8 should be considered in patients with AAB negative type 1 diabetes.

Published

2010

11. Quality of life in monogenic diabetes (a case report)

Author

Ahmad Yuniari, Muhammad Faizi, Netty Ep, and Nur Rochmah

Subjects

medicine.medical_specialty, business.industry, Insulin, medicine.medical_treatment, medicine.disease, Metformin, Diabetic nephropathy, Endocrinology, Polyphagia, Polyuria, Internal medicine, Diabetes mellitus, Poster Presentation, medicine, medicine.symptom, business, Polydipsia, medicine.drug, Insulin detemir

Abstract

Monogenic diabetes in children mostly results from mutations in genes that regulate beta-cell function. It may be dominantly or recessively inherited or may be a de novo mutation and hence a spontaneous case. Quality of life is important in management of patient with monogenic diabetes. Objective is to analyze quality of life in a patient with monogenic diabetes. A-19year old, girl, 29.5 kg, sufferred from polyuria, polydipsia, and polyphagia. Family history of diabetes was positive. Physical examination revealed non obese, with colateral vein, and hepatosplenomegaly. Laboratory examination revealed fasting blood glucose 275 mg/dL, hemoglobin A1C/A1C 10.3%, C-peptide 4.2ng/mL (normal:0.9-7.1ng/mL), ALT:110 U/L, AST:115 U/L; HDL:70 µg/dL, LDL:57mg/dL, total cholesterol:319mg/dL, and triglyceride:2030 mg/dL. Liver biopsy revealed hepatosteatosis. She was diagnosed with monogenic diabetes and Nonalcoholic Steatohepatitis (NASH). Patient was given glibenclamide 5 mg twice daily; insulin detemir 14 IU; metformin 500 mg twice daily, with uncooked corn starch. After three months of treatment random blood glucose became 132 mg/dL and A1C became 7.7%; insulin was stopped. Seven months later random blood glucose increased to 287.5 mg/dL, ALT: 204 U/L, and AST: 257 U/L. Insulin was readminestered and glibenclamide were increased to three times daily. A1C evaluation revealed 5.7%. Diabetic nephropathy (DN) occurred, but after a month of captopril, proteinuria was improved from 2.8 g/24 hrs to 1.5 g/24 hrs. Diet for DN was put to therapy. No retinopathy was found. Measurement of quality of life using Diabetes Quality of life (DQOL) revealed satisfaction with life 65.8%, impact of diabetes 55%, worries about diabetes 50.9%, and overall her health was poor. Conclusion is hyperglycemia, nonalcoholic steatohepatitis, hypertriglycemia, and diabetic nephropathy reported as clinical course of monogenic diabetes. The quality of life revealed satisfaction.

Published

2013

12. The epidemiology, molecular pathogenesis, diagnosis, and treatment of maturity-onset diabetes of the young (MODY)

Author

Nkonge, Ken Munene, Nkonge, Dennis Karani, and Nkonge, Teresa Njeri

Published

2020

13. Update on clinical screening of maturity-onset diabetes of the young (MODY)

Author

Peixoto-Barbosa, Renata, Reis, André F., and Giuffrida, Fernando M. A.

Published

2020

14. Treatment switch from multiple daily insulin injections to sulphonylureas in an African young adult diagnosed with HNF1A MODY: a case report

Author

Katte, Jean Claude, Dehayem, Mesmin Y., Colclough, Kevin, and Sobngwi, Eugene

Published

2024

15. Glucokinase (GCK) in diabetes: from molecular mechanisms to disease pathogenesis.

Author

Abu Aqel, Yasmin, Alnesf, Aldana, Aigha, Idil I., Islam, Zeyaul, Kolatkar, Prasanna R., Teo, Adrian, and Abdelalim, Essam M.

Abstract

Glucokinase (GCK), a key enzyme in glucose metabolism, plays a central role in glucose sensing and insulin secretion in pancreatic β-cells, as well as glycogen synthesis in the liver. Mutations in the GCK gene have been associated with various monogenic diabetes (MD) disorders, including permanent neonatal diabetes mellitus (PNDM) and maturity-onset diabetes of the young (MODY), highlighting its importance in maintaining glucose homeostasis. Additionally, GCK gain-of-function mutations lead to a rare congenital form of hyperinsulinism known as hyperinsulinemic hypoglycemia (HH), characterized by increased enzymatic activity and increased glucose sensitivity in pancreatic β-cells. This review offers a comprehensive exploration of the critical role played by the GCK gene in diabetes development, shedding light on its expression patterns, regulatory mechanisms, and diverse forms of associated monogenic disorders. Structural and mechanistic insights into GCK's involvement in glucose metabolism are discussed, emphasizing its significance in insulin secretion and glycogen synthesis. Animal models have provided valuable insights into the physiological consequences of GCK mutations, although challenges remain in accurately recapitulating human disease phenotypes. In addition, the potential of human pluripotent stem cell (hPSC) technology in overcoming current model limitations is discussed, offering a promising avenue for studying GCK-related diseases at the molecular level. Ultimately, a deeper understanding of GCK's multifaceted role in glucose metabolism and its dysregulation in disease states holds implications for developing targeted therapeutic interventions for diabetes and related disorders. [ABSTRACT FROM AUTHOR]

Published

2024

16. Clinical and genetic features of maturity-onset diabetes of the young in pediatric patients: a 12-year monocentric experience.

Author

Passanisi, Stefano, Salzano, Giuseppina, Bombaci, Bruno, and Lombardo, Fortunato

Subjects

DIABETES, TYPE 2 diabetes, GLYCEMIC control, DRUG dosage, CHILD patients, DIAGNOSIS, AUTOANTIBODIES, MATURITY onset diabetes of the young

Abstract

Background: A retrospective observational study was conducted to assess the prevalence of maturity onset diabetes of the young (MODY) in a large paediatric population of Southern Italy newly diagnosed with diabetes. Clinical and genetic features of the identified MODY patients were also described. Methods: Genetic testing was performed in children and adolescents newly diagnosed with diabetes who presented autoantibody negativity and fasting C-peptide levels ≥ 0.8 ng/mL. Patients with a low insulin daily dose and optimal glycaemic control after two years from diabetes onset were also investigated for monogenic diabetes, regardless of their autoimmunity status and/or C-peptide levels. Results: A prevalence of 6.5% of MODY was found. In particular, glucokinase-MODY was the most common type of MODY. The mean age at diagnosis was 9.1 years. Clinical presentation and biochemical data were heterogeneous also among patients belonging to the same MODY group. Conclusions: We found a relatively high prevalence of MODY among paediatric patients with a new diagnosis of diabetes in comparison to literature data. Our findings highlight that a more detailed clinical evaluation along with easier and less expensive approachability to genetic testing may allow diagnosing an increasing number of MODY cases. A correct, prompt diagnosis is crucial to choose the most appropriate treatment and offer adequate genetic counselling. [ABSTRACT FROM AUTHOR]

Published

2021

17. Frequency and genetic spectrum of maturity-onset diabetes of the young (MODY) in southern New Zealand

Author

Wheeler, Benjamin J, Patterson, Nicola, Love, Donald R, Prosser, Debbie, Tomlinson, Paul, Taylor, Barry J, and Manning, Patrick

Published

2013

18. Quality of life in monogenic diabetes (a case report).

Author

Rochmah, Nur, Faizi, Muhammad, Yuniari, Ahmad, and Netty, EP

Subjects

QUALITY of life, DIABETES

Abstract

An abstract of the study "Quality of Life in Monogenic Diabetes (A Case Report)" by Nur Rochmah et al is presented.

Published

2013

19. Safe use of the ketogenic diet in an infant with microcephaly, epilepsy, and diabetes syndrome: a case report.

Author

Zegarra, Walter A., Gallentine, William B., Ruzhnikov, Maura R., McAndrews, Catherine A., Gloyn, Anna L., and Addala, Ananta

Subjects

KETOGENIC diet, EPILEPSY, DIABETIC acidosis, MICROCEPHALY, INFANTILE spasms, ETIOLOGY of diabetes

Abstract

Background: Microcephaly, epilepsy, and diabetes syndrome (MEDS) is a rare syndromic form of monogenic diabetes caused by bi-allelic loss of function mutations in IER3IP1. In vitro studies have shown that loss of IER31P leads to apoptosis in both neurons and pancreatic β-cells. Simultaneous management of seizures and diabetes is challenging in patients with MEDS. We present the challenges and successes in the use of ketogenic diet in an infant with insulinopenic diabetes. Case presentation: Our term female proband presented at 2 months of age with new onset multifocal seizures followed by the onset of infantile spasms (IS) at 4 months of age. An epilepsy gene panel identified bi-allelic variants, c.239T > G (p.Leu80*) and c.2T > A (initiator codon), in IER3IP1 that were subsequently shown to be inherited in trans. Following initiation of steroid therapy for IS, the patient developed clinically apparent insulin requiring diabetes. Her epilepsy was ultimately refractory to multiple antiseizure medications, thus the ketogenic diet (KD) was initiated. We were able to successfully titrate to a therapeutic KD ratio of 3:1 and maintain a ketotic state without diabetic ketoacidosis (DKA). With intercurrent illnesses, however, the patient had rapid decompensation and mild DKA due to delays in treatment, and for this reason, KD was discontinued after 5 months. Conclusions: We report two novel IER31P1 mutations in a patient with MEDS and the successful management of the cooccurring conditions of IS and insulinopenic diabetes with the KD. Our experience underscores the importance of careful monitoring during KD as our patient had DKA more easily when on the KD. [ABSTRACT FROM AUTHOR]

Published

2023

20. MODY screening: a new center for molecular genetic diagnosis in Brazil

Author

Alexander A. L. Jorge, Lílian Araújo Caetano, Milena Gurgel Teles Bezerra, Marcia Nery, and Lucas Santos de Santana

Subjects

Genetics, endocrine system, business.industry, Endocrinology, Diabetes and Metabolism, Bioinformatics, medicine.disease, HNF1B, Phenotype, HNF1A, Young age, Diabetes mellitus, Meeting Abstract, Internal Medicine, medicine, Genetic diagnosis, business, Monogenic Diabetes

Abstract

Background Maturity-Onset Diabetes of the Young (MODY) is a form of monogenic diabetes characterized by autosomal dominant inheritance, young age of onset and pancreatic betacell dysfunction without autoimmune cause. To date 13 genes have been identified associated with MODY phenotype, with four of them (HNF1A; GCK; HNF4A and HNF1B) being responsible for over 95% of cases. Recently, our group has initiated molecular genetic screening for MODY using Sanger's sequencing method.

Published

2015

21. Loss of thymidine phosphorylase activity disrupts adipocyte differentiation and induces insulin-resistant lipoatrophic diabetes.

Author

Gautheron, Jérémie, Lima, Lara, Akinci, Baris, Zammouri, Jamila, Auclair, Martine, Ucar, Sema Kalkan, Ozen, Samim, Altay, Canan, Bax, Bridget E., Nemazanyy, Ivan, Lenoir, Véronique, Prip-Buus, Carina, Acquaviva-Bourdain, Cécile, Lascols, Olivier, Fève, Bruno, Vigouroux, Corinne, Noel, Esther, and Jéru, Isabelle

Abstract

Background: Thymidine phosphorylase (TP), encoded by the TYMP gene, is a cytosolic enzyme essential for the nucleotide salvage pathway. TP catalyzes the phosphorylation of the deoxyribonucleosides, thymidine and 2′-deoxyuridine, to thymine and uracil. Biallelic TYMP variants are responsible for Mitochondrial NeuroGastroIntestinal Encephalomyopathy (MNGIE), an autosomal recessive disorder characterized in most patients by gastrointestinal and neurological symptoms, ultimately leading to death. Studies on the impact of TYMP variants in cellular systems with relevance to the organs affected in MNGIE are still scarce and the role of TP in adipose tissue remains unexplored. Methods: Deep phenotyping was performed in three patients from two families carrying homozygous TYMP variants and presenting with lipoatrophic diabetes. The impact of the loss of TP expression was evaluated using a CRISPR-Cas9-mediated TP knockout (KO) strategy in human adipose stem cells (ASC), which can be differentiated into adipocytes in vitro. Protein expression profiles and cellular characteristics were investigated in this KO model. Results: All patients had TYMP loss-of-function variants and first presented with generalized loss of adipose tissue and insulin-resistant diabetes. CRISPR-Cas9-mediated TP KO in ASC abolished adipocyte differentiation and decreased insulin response, consistent with the patients' phenotype. This KO also induced major oxidative stress, altered mitochondrial functions, and promoted cellular senescence. This translational study identifies a new role of TP by demonstrating its key regulatory functions in adipose tissue. Conclusions: The implication of TP variants in atypical forms of monogenic diabetes shows that genetic diagnosis of lipodystrophic syndromes should include TYMP analysis. The fact that TP is crucial for adipocyte differentiation and function through the control of mitochondrial homeostasis highlights the importance of mitochondria in adipose tissue biology. [ABSTRACT FROM AUTHOR]

Published

2022

22. A genomic strategy for precision medicine in rare diseases: integrating customized algorithms into clinical practice.

Author

Méndez-Vidal, Cristina, Bravo-Gil, Nereida, Pérez-Florido, Javier, Marcos-Luque, Irene, Fernández, Raquel M., Fernández-Rueda, José Luis, González-del Pozo, María, Martín-Sánchez, Marta, Fernández-Suárez, Elena, Mena, Marcela, Carmona, Rosario, Dopazo, Joaquín, Borrego, Salud, and Antiñolo, Guillermo

Subjects

NUCLEOTIDE sequencing, DISEASE management, MEDICAL care research, RARE diseases, DIAGNOSIS

Abstract

Background: Despite the use of Next-Generation Sequencing (NGS) as the gold standard for the diagnosis of rare diseases, its clinical implementation has been challenging, limiting the cost-effectiveness of NGS and the understanding, control and safety essential for decision-making in clinical applications. Here, we describe a personalized NGS-based strategy integrating precision medicine into a public healthcare system and its implementation in the routine diagnosis process during a five-year pilot program. Methods: Our approach involved customized probe designs, the generation of virtual panels and the development of a personalized medicine module (PMM) for variant prioritization. This strategy was applied to 6500 individuals including 6267 index patients and 233 NGS-based carrier screenings. Results: Causative variants were identified in 2061 index patients (average 32.9%, ranging from 12 to 62% by condition). Also, 131 autosomal-recessive cases could be partially genetically diagnosed. These results led to over 5000 additional studies including carrier, prenatal and preimplantational tests or pharmacological and gene therapy treatments. Conclusion: This strategy has shown promising improvements in the diagnostic rate, facilitating timely diagnosis and gradually expanding our services portfolio for rare diseases. The steps taken towards the integration of clinical and genomic data are opening new possibilities for conducting both retrospective and prospective healthcare studies. Overall, this study represents a major milestone in the ongoing efforts to improve our understanding and clinical management of rare diseases, a crucial area of medical research and care. [ABSTRACT FROM AUTHOR]

Published

2025

23. Lean diabetes: 20-year trends in its prevalence and clinical features among Korean adults.

Author

Kim, Ji Min, Joung, Kyoung Hye, Kim, Hyun Jin, Ku, Bon Jeong, Jung, Sukyoung, and Lee, Ju Hee

Subjects

TYPE 2 diabetes, KOREANS, MEDICAL sciences, MUSCLE strength, BODY mass index

Abstract

Background: We investigated the prevalence and clinical characteristics of type 2 diabetes mellitus in lean Korean adults. Methods: We analyzed data from the Korea National Health and Nutrition Examination Survey 2001–2021 among adults aged ≥ 19 years. Trend analyses between 2001 and 2019–2021 (n = 89,720) and comparative analyses of multiple clinical characteristics between patients with type 2 diabetes with and without overweight/obesity were conducted (n = 2,284). Results: Between 2001 and 2019–2021, the estimated prevalence of lean type 2 diabetes (body mass index [BMI] < 23 kg/m2) increased from 6.6 to 8.8%, representing a 33.3% increase. This was a similar extent of increase of type 2 diabetes associated with being overweight or obese (12.1–16.3%, + 34.7%). The increase in the prevalence of lean type 2 diabetes was more pronounced among females, while the increase among those who were overweight or obese was more pronounced among males than their counterparts. Although the overweight/obese type 2 diabetes group (T2DM group) showed more risk factors for cardiovascular disease, the lean T2DM group had lower insulin levels and reduced muscle mass and strength. Conclusions: The prevalence of lean type 2 diabetes among Korean adults is increasing, at a rate similar to type 2 diabetes in overweight/obese individuals. Patients with lean type 2 diabetes showed decreased beta-cell function and sarcopenia. These findings emphasize the need for tailored management strategies for lean type 2 diabetes given its characteristics and rising prevalence. [ABSTRACT FROM AUTHOR]

Published

2024

24. Case Report: Identification of an HNF1B p.Arg527Gln mutation in a Maltese patient with atypical early onset diabetes and diabetic nephropathy.

Author

Pace, Nikolai Paul, Craus, Johann, Felice, Alex, and Vassallo, Josanne

Subjects

GENETICS of diabetes, DIABETIC nephropathies, AGE factors in disease, ALBUMINURIA, DISEASE susceptibility, FATTY liver, GENETIC polymorphisms, GLOMERULAR filtration rate, GENETIC mutation, NEUROLOGICAL disorders, TYPE 2 diabetes, OBESITY, TRANSCRIPTION factors, PHENOTYPES, SEVERITY of illness index, SEQUENCE analysis, GENETICS

Abstract

Background: The diagnosis of atypical non-autoimmune forms of diabetes mellitus, such as maturity onset diabetes of the young (MODY) presents several challenges, in view of the extensive clinical and genetic heterogeneity of the disease. In this report we describe a case of atypical non autoimmune diabetes associated with a damaging HNF1β mutation. This is distinguished by a number of uncharacteristic clinical features, including early-onset obesity, the absence of renal cysts and diabetic nephropathy. HNF1β-MODY (MODY5) is an uncommon form of monogenic diabetes that is often complicated by a wide array of congenital morphological anomalies of the urinary tract, including renal cysts. This report expands on the clinical phenotypes that have been described in the context of HNF1β mutations, and is relevant as only isolated cases of diabetic nephropathy in the setting of MODY5 have been reported. Case presentation: An obese Maltese female with non-autoimmune diabetes, microalbuminuria, glomerular hyperfiltration, fatty liver and no renal cysts was studied by whole exome sequencing to investigate potential genes responsible for the proband's phenotype. A rare missense mutation at a highly conserved site in exon 8 of HNF1β was identified (c.1580G > A, NM_000458.3, p.Arg527Gln), with multiple in-silico predictions consistent with pathogenicity. This mutation has not been previously characterised. Additionally, several common susceptibility variants associated with early-onset obesity, polygenic type 2 diabetes and nephropathy were identified in the proband that could impose additional effects on the phenotype, its severity or its clinical course. Conclusion: This report highlights several atypical features in a proband with atypical diabetes associated with an HNF1β missense mutation. It also reinforces the concept that monogenic causes of diabetes could be significant contributors to disease burden in obese individuals with atypical diabetes. [ABSTRACT FROM AUTHOR]

Published

2018

25. Time trends and advances in the management of global, regional, and national diabetes in adolescents and young adults aged 10–24 years, 1990–2021: analysis for the global burden of disease study 2021.

Author

Liu, Yan, Yao, Shenhang, Shan, Xiangxiang, Luo, Yuting, Yang, Lulu, Dai, Wu, and Hu, Ben

Subjects

GLOBAL burden of disease, HEALTH equity, REGRESSION analysis, DEATH rate, TEENAGERS, YOUNG adults

Abstract

Background: Estimation of global diabetes burden in adolescents and young adults (10–24 years) from 1990 to 2021. Methods: Data were extracted from the 2021 Global Burden of Disease Study. Joinpoint regression analysis was employed to examine trends over the past 30 years, frontier analysis identified regions with potential for improvement, and the slope index of inequality and the relative concentration index were used to assess health inequalities. Results: From 1990 to 2021, the age-standardized prevalence rates (ASPR) and age-standardized disability-adjusted life years rates (ASDR) of diabetes in adolescents and young adults increased globally, while age-standardized death rates (ASMR) remained stable. Oceania bore the highest burden regionally, East Asia experienced the fastest rise in ASPR and ASDR, and High-income Asia Pacific saw the most significant decrease in ASMR. Among 204 countries, Marshall Island and Hait reported the highest ASPR, ASDR, and ASMR in 2021. Health inequality analysis confirmed that the burden was concentrated in countries with lower Socio-Demographic Index (SDI). Frontier analysis showed that ASMR and ASDR were negatively correlated with SDI, with Yemen and Honduras, which have lower socio-demographic indices, exhibiting more smaller overall differences from frontier boundaries. Conclusions: The analysis revealed a sharp increase in the global ASPR and ASDR of diabetes in adolescents and young adults. Additionally, the disease burden is typically concentrated in countries with lower SDI, highlighting an urgent need for governments to develop flexible health policies to mitigate the escalating threat of diabetes in this demographic. [ABSTRACT FROM AUTHOR]

Published

2024

26. Application of a validated prognostic plasma protein biomarker test for renal decline in type 2 diabetes to type 1 diabetes: the Fremantle Diabetes Study Phase II.

Author

Davis, Timothy M. E., Davis, Wendy A., Bringans, Scott D., Lui, James K. C., Lumbantobing, Tasha S. C., Peters, Kirsten E., and Lipscombe, Richard J.

Published

2024

27. The effect of family structure on the still-missing heritability and genomic prediction accuracy of type 2 diabetes.

Author

Amiri Roudbar, Mahmoud, Vahedi, Seyed Milad, Jin, Jin, Jahangiri, Mina, Lanjanian, Hossein, Habibi, Danial, Masjoudi, Sajedeh, Riahi, Parisa, Fateh, Sahand Tehrani, Neshati, Farideh, Zahedi, Asiyeh Sadat, Moazzam-Jazi, Maryam, Najd-Hassan-Bonab, Leila, Mousavi, Seyedeh Fatemeh, Asgarian, Sara, Zarkesh, Maryam, Moghaddas, Mohammad Reza, Tenesa, Albert, Kazemnejad, Anoshirvan, and Vahidnezhad, Hassan

Abstract

This study aims to assess the effect of familial structures on the still-missing heritability estimate and prediction accuracy of Type 2 Diabetes (T2D) using pedigree estimated risk values (ERV) and genomic ERV. We used 11,818 individuals (T2D cases: 2,210) with genotype (649,932 SNPs) and pedigree information from the ongoing periodic cohort study of the Iranian population project. We considered three different familial structure scenarios, including (i) all families, (ii) all families with ≥ 1 generation, and (iii) families with ≥ 1 generation in which both case and control individuals are presented. Comprehensive simulation strategies were implemented to quantify the difference between estimates of and . A proportion of still-missing heritability in T2D could be explained by overestimation of pedigree-based heritability due to the presence of families with individuals having only one of the two disease statuses. Our research findings underscore the significance of including families with only case/control individuals in cohort studies. The presence of such family structures (as observed in scenarios i and ii) contributes to a more accurate estimation of disease heritability, addressing the underestimation that was previously overlooked in prior research. However, when predicting disease risk, the absence of these families (as seen in scenario iii) can yield the highest prediction accuracy and the strongest correlation with Polygenic Risk Scores. Our findings represent the first evidence of the important contribution of familial structure for heritability estimations and genomic prediction studies in T2D. [ABSTRACT FROM AUTHOR]

Published

2024

28. Does HLA explain the high incidence of childhood-onset type 1 diabetes in the Canary Islands? The role of Asp57 DQB1 molecules.

Author

Nóvoa-Medina, Yeray, Marcelino-Rodriguez, Itahisa, Suárez, Nicolás M., Barreiro-Bautista, Marta, Rivas-García, Eva, Sánchez-Alonso, Santiago, González-Martínez, Gema, Quinteiro-González, Sofía, Domínguez, Ángela, Cabrera, María, López, Sara, Pavlovic, Svetlana, Flores, Carlos, Rodriguez-Benitez, Carlota, Ageno-Alemán, Héctor, Perera-Hernández, Cristina, de Elejabeitia-Cortezo, Catalina, Franco-Mateu, Nieves, Rodríguez Gonzalez, Ana María, and Leon-Olmo, Victor Manuel

Subjects

TYPE 1 diabetes, LOGISTIC regression analysis, FISHER exact test, ASPARTIC acid, CHI-squared test

Abstract

The Canary Islands inhabitants, a recently admixed population with significant North African genetic influence, has the highest incidence of childhood-onset type 1 diabetes (T1D) in Spain and one of the highest in Europe. HLA accounts for half of the genetic risk of T1D. Aims: To characterize the classical HLA-DRB1 and HLA-DQB1 alleles in children from Gran Canaria with and without T1D. Methods: We analyzed classic HLA-DRB1 and HLA-DQB1 alleles in childhood-onset T1D patients (n = 309) and control children without T1D (n = 222) from the island of Gran Canaria. We also analyzed the presence or absence of aspartic acid at position 57 in the HLA-DQB1 gene and arginine at position 52 in the HLA-DQA1 gene. Genotyping of classical HLA-DQB1 and HLA-DRB1 alleles was performed at two-digit resolution using Luminex technology. The chi-square test (or Fisher's exact test) and odds ratio (OR) were computed to assess differences in allele and genotype frequencies between patients and controls. Logistic regression analysis was also used. Results: Mean age at diagnosis of T1D was 7.4 ± 3.6 years (46% female). Mean age of the controls was 7.6 ± 1.1 years (55% female). DRB1*03 (OR = 4.2; p = 2.13–13), DRB1*04 (OR = 6.6; p ≤ 2.00–16), DRB1* 07 (OR = 0.37; p = 9.73–06), DRB1*11 (OR = 0.17; p = 6.72–09), DRB1*12, DRB1*13 (OR = 0.38; p = 1.21–05), DRB1*14 (OR = 0.0; p = 0.0024), DRB1*15 (OR = 0.13; p = 7.78–07) and DRB1*16 (OR = 0.21; p = 0.003) exhibited significant differences in frequency between groups. Among the DQB1* alleles, DQB1*02 (OR: 2.3; p = 5.13–06), DQB1*03 (OR = 1.7; p = 1.89–03), DQB1*05 (OR = 0.64; p = 0.027) and DQB1*06 (OR = 0.19; p = 6.25–14) exhibited significant differences. A total of 58% of the studied HLA-DQB1 genes in our control population lacked aspartic acid at position 57. Conclusions: In this population, the overall distributions of the HLA-DRB1 and HLA-DQB1 alleles are similar to those in other European populations. However, the frequency of the non-Asp-57 HLA-DQB1 molecules is greater than that in other populations with a lower incidence of T1D. Based on genetic, historical and epidemiological data, we propose that a common genetic background might help explain the elevated pediatric T1D incidence in the Canary Islands, North-Africa and middle eastern countries. [ABSTRACT FROM AUTHOR]

Published

2024

29. Research progress of brain organoids in the field of diabetes.

Author

Su, Ying, Liu, Aimei, Chen, Hongguang, Chen, Qingjie, Zhao, Bo, Gao, Runze, Zhang, Kangwei, Peng, Tie, Zhang, Zhenwang, Ouyang, Changhan, and Zhu, Dan

Subjects

INDUCED pluripotent stem cells, HUMAN embryonic stem cells, PLURIPOTENT stem cells, NEURAL development, CELL anatomy

Abstract

Human embryonic stem cells and human induced pluripotent stem cells may be used to create 3D tissues called brain organoids. They duplicate the physiological and pathological characteristics of human brain tissue more faithfully in terms of both structure and function, and they more precisely resemble the morphology and cellular structure of the human embryonic brain. This makes them valuable models for both drug screening and in vitro studies on the development of the human brain and associated disorders. The technical breakthroughs enabled by brain organoids have a significant impact on the research of different brain regions, brain development and sickness, the connections between the brain and other tissues and organs, and brain evolution. This article discusses the development of brain organoids, their use in diabetes research, and their progress. [ABSTRACT FROM AUTHOR]

Published

2024

30. Multi-locus imprinting disturbance (MLID): interim joint statement for clinical and molecular diagnosis.

Author

Mackay, Deborah J. G., Gazdagh, Gabriella, Monk, David, Brioude, Frederic, Giabicani, Eloise, Krzyzewska, Izabela M., Kalish, Jennifer M., Maas, Saskia M., Kagami, Masayo, Beygo, Jasmin, Kahre, Tiina, Tenorio-Castano, Jair, Ambrozaitytė, Laima, Burnytė, Birutė, Cerrato, Flavia, Davies, Justin H., Ferrero, Giovanni Battista, Fjodorova, Olga, Manero-Azua, Africa, and Pereda, Arrate

Abstract

Background: Imprinting disorders are rare diseases resulting from altered expression of imprinted genes, which exhibit parent-of-origin-specific expression patterns regulated through differential DNA methylation. A subgroup of patients with imprinting disorders have DNA methylation changes at multiple imprinted loci, a condition referred to as multi-locus imprinting disturbance (MLID). MLID is recognised in most but not all imprinting disorders and is also found in individuals with atypical clinical features; the presence of MLID often alters the management or prognosis of the affected person. Some cases of MLID are caused by trans-acting genetic variants, frequently not in the patients but their mothers, which have counselling implications. There is currently no consensus on the definition of MLID, clinical indications prompting testing, molecular procedures and methods for epigenetic and genetic diagnosis, recommendations for laboratory reporting, considerations for counselling, and implications for prognosis and management. The purpose of this study is thus to cover this unmet need. Methods: A comprehensive literature search was conducted resulting in identification of more than 100 articles which formed the basis of discussions by two working groups focusing on clinical diagnosis (n = 12 members) and molecular testing (n = 19 members). Following eight months of preparations and regular online discussions, the experts from 11 countries compiled the preliminary documentation and determined the questions to be addressed during a face-to-face meeting which was held with the attendance of the experts together with four representatives of patient advocacy organisations. Results: In light of available evidence and expert consensus, we formulated 16 propositions and 8 recommendations as interim guidance for the clinical and molecular diagnosis of MLID. Conclusions: MLID is a molecular designation, and for patients with MLID and atypical phenotypes, we propose the alternative term multi-locus imprinting syndrome. Due to the intrinsic variability of MLID, the guidelines underscore the importance of involving experts from various fields to ensure a confident approach to diagnosis, counselling, and care. The authors advocate for global, collaborative efforts in both basic and translational research to tackle numerous crucial questions that currently lack answers, and suggest reconvening within the next 3–5 years to evaluate the research advancements and update this guidance as needed. [ABSTRACT FROM AUTHOR]

Published

2024

31. NEUROD1 mutation in an Italian patient with maturity onset diabetes of the young 6: a case report.

Author

Brodosi, Lucia, Baracco, Bianca, Mantovani, Vilma, and Pironi, Loris

Subjects

MATURITY onset diabetes of the young, GENETIC mutation, HYPERGLYCEMIA, SULFONYLUREAS, INSULIN, GENE expression

Abstract

Background: Maturity Onset Diabetes of the Young (MODY) is a monogenic, autosomal, dominant disease that results in beta-cells dysfunction with consequent hyperglycaemia. It represents a rare form of diabetes (1–2% of all the cases). Sulphonylureas (SUs) represent the first-line treatment for this form of diabetes mellitus. NEUROD1 is expressed by the nervous and the pancreatic tissues, and it is necessary for the proper development of beta cells. A neurogenic differentiation factor 1 (NEUROD1) gene mutation causes beta-cells dysfunction, inadequate insulin secretion, and hyperglycaemia (MODY 6). Case presentation: We have documented a new missense mutation (p.Met114Leu c.340A > C) of the NEUROD1 gene, pathogenetic for diabetes mellitus, in a 48 years-old man affected by diabetes since the age of 25 and treated with insulin basal-bolus therapy. Unfortunately, an attempt to replace rapid insulin with dapagliflozin has failed. However, after the genetic diagnosis of MODY6 and treatment with SUs, he was otherwise able to suspend rapid insulin and close glucose monitoring. Interestingly, our patient had an early onset dilated cardiomyopathy, though no data about cardiac diseases in patients with MODY 6 are available. Conclusions: Diagnostic criteria for MODY can overlap with other kinds of diabetes and most cases of genetic diabetes are still misdiagnosed as diabetes type 1 or 2. We encourage to suspect this disease in patients with a strong family history of diabetes, normal BMI, early-onset, and no autoimmunity. The appropriate therapy simplifies disease management and improves the quality of the patient's life. [ABSTRACT FROM AUTHOR]

Published

2021

32. Ameliorating and refining islet organoids to illuminate treatment and pathogenesis of diabetes mellitus.

Author

Li, Yushan, Xu, Meiqi, Chen, Jiali, Huang, Jiansong, Cao, Jiaying, Chen, Huajing, Zhang, Jiayi, Luo, Yukun, Wang, Yazhuo, and Sun, Jia

Subjects

ISLANDS, DIABETES, ORGANOIDS, STEM cells, CELL differentiation, BIOMIMETIC materials, PATHOGENESIS, HUMAN body

Abstract

Diabetes mellitus, a significant global public health challenge, severely impacts human health worldwide. The organoid, an innovative in vitro three-dimensional (3D) culture model, closely mimics tissues or organs in vivo. Insulin-secreting islet organoid, derived from stem cells induced in vitro with 3D structures, has emerged as a potential alternative for islet transplantation and as a possible disease model that mirrors the human body's in vivo environment, eliminating species difference. This technology has gained considerable attention for its potential in diabetes treatment. Despite advances, the process of stem cell differentiation into islet organoid and its cultivation demonstrates deficiencies, prompting ongoing efforts to develop more efficient differentiation protocols and 3D biomimetic materials. At present, the constructed islet organoid exhibit limitations in their composition, structure, and functionality when compared to natural islets. Consequently, further research is imperative to achieve a multi-tissue system composition and improved insulin secretion functionality in islet organoid, while addressing transplantation-related safety concerns, such as tumorigenicity, immune rejection, infection, and thrombosis. This review delves into the methodologies and strategies for constructing the islet organoid, its application in diabetes treatment, and the pivotal scientific challenges within organoid research, offering fresh perspectives for a deeper understanding of diabetes pathogenesis and the development of therapeutic interventions. [ABSTRACT FROM AUTHOR]

Published

2024

33. Exploring histone deacetylases in type 2 diabetes mellitus: pathophysiological insights and therapeutic avenues.

Author

Kumar, Kukkala Kiran, Aburawi, Elhadi Husein, Ljubisavljevic, Milos, Leow, Melvin Khee Shing, Feng, Xu, Ansari, Suraiya Anjum, and Emerald, Bright Starling

Subjects

TYPE 2 diabetes, INSULIN, DEACETYLASES, INSULIN receptors, INSULIN sensitivity, PANCREATIC enzymes, ACETYL group, DIABETES

Abstract

Diabetes mellitus is a chronic disease that impairs metabolism, and its prevalence has reached an epidemic proportion globally. Most people affected are with type 2 diabetes mellitus (T2DM), which is caused by a decline in the numbers or functioning of pancreatic endocrine islet cells, specifically the β-cells that release insulin in sufficient quantity to overcome any insulin resistance of the metabolic tissues. Genetic and epigenetic factors have been implicated as the main contributors to the T2DM. Epigenetic modifiers, histone deacetylases (HDACs), are enzymes that remove acetyl groups from histones and play an important role in a variety of molecular processes, including pancreatic cell destiny, insulin release, insulin production, insulin signalling, and glucose metabolism. HDACs also govern other regulatory processes related to diabetes, such as oxidative stress, inflammation, apoptosis, and fibrosis, revealed by network and functional analysis. This review explains the current understanding of the function of HDACs in diabetic pathophysiology, the inhibitory role of various HDAC inhibitors (HDACi), and their functional importance as biomarkers and possible therapeutic targets for T2DM. While their role in T2DM is still emerging, a better understanding of the role of HDACi may be relevant in improving insulin sensitivity, protecting β-cells and reducing T2DM-associated complications, among others. [ABSTRACT FROM AUTHOR]

Published

2024

34. Diabetic ketoacidosis in an adult with beta-ketothiolase deficiency (BKD) involving a novel ACAT1 variant : first report of established diabetes in BKD and a review of the literature.

Author

Zhen, Xi May, Twigg, Stephen M., Wu, Ted, Tabet, Eddy, McGill, Margaret J., Constantino, Maria, Mallawaarachchi, Amali, Luo, Connie, Thillainadesan, Senthil, Rahman, Yusof, and Wong, Jencia

Published

2024

35. Comparison of Bayesian approaches for developing prediction models in rare disease: application to the identification of patients with Maturity-Onset Diabetes of the Young.

Author

Cardoso, Pedro, McDonald, Timothy J., Patel, Kashyap A., Pearson, Ewan R., Hattersley, Andrew T., Shields, Beverley M., and McKinley, Trevelyan J.

Subjects

MATURITY onset diabetes of the young, PREDICTION models, RARE diseases, PEOPLE with diabetes, TYPE 1 diabetes

Abstract

Background: Clinical prediction models can help identify high-risk patients and facilitate timely interventions. However, developing such models for rare diseases presents challenges due to the scarcity of affected patients for developing and calibrating models. Methods that pool information from multiple sources can help with these challenges. Methods: We compared three approaches for developing clinical prediction models for population screening based on an example of discriminating a rare form of diabetes (Maturity-Onset Diabetes of the Young - MODY) in insulin-treated patients from the more common Type 1 diabetes (T1D). Two datasets were used: a case-control dataset (278 T1D, 177 MODY) and a population-representative dataset (1418 patients, 96 MODY tested with biomarker testing, 7 MODY positive). To build a population-level prediction model, we compared three methods for recalibrating models developed in case-control data. These were prevalence adjustment ("offset"), shrinkage recalibration in the population-level dataset ("recalibration"), and a refitting of the model to the population-level dataset ("re-estimation"). We then developed a Bayesian hierarchical mixture model combining shrinkage recalibration with additional informative biomarker information only available in the population-representative dataset. We developed a method for dealing with missing biomarker and outcome information using prior information from the literature and other data sources to ensure the clinical validity of predictions for certain biomarker combinations. Results: The offset, re-estimation, and recalibration methods showed good calibration in the population-representative dataset. The offset and recalibration methods displayed the lowest predictive uncertainty due to borrowing information from the fitted case-control model. We demonstrate the potential of a mixture model for incorporating informative biomarkers, which significantly enhanced the model's predictive accuracy, reduced uncertainty, and showed higher stability in all ranges of predictive outcome probabilities. Conclusion: We have compared several approaches that could be used to develop prediction models for rare diseases. Our findings highlight the recalibration mixture model as the optimal strategy if a population-level dataset is available. This approach offers the flexibility to incorporate additional predictors and informed prior probabilities, contributing to enhanced prediction accuracy for rare diseases. It also allows predictions without these additional tests, providing additional information on whether a patient should undergo further biomarker testing before genetic testing. [ABSTRACT FROM AUTHOR]

Published

2024

36. DNA methylation signatures of youth-onset type 2 diabetes and exposure to maternal diabetes.

Author

Salama, Ola E., Hizon, Nikho, Del Vecchio, Melissa, Kolsun, Kurt, Fonseca, Mario A., Lin, David T. S., Urtatiz, Oscar, MacIsaac, Julia L., Kobor, Michael S., Sellers, Elizabeth A. C., Dolinsky, Vernon W., Dart, Allison B., Jones, Meaghan J., and Wicklow, Brandy A.

Subjects

TYPE 2 diabetes, DNA methylation, MATERNAL exposure, DIABETES

Abstract

Objective: Youth-onset type 2 diabetes (T2D) is physiologically distinct from adult-onset, but it is not clear how the two diseases differ at a molecular level. In utero exposure to maternal type 2 diabetes (T2D) is known to be a specific risk factor for youth-onset T2D. DNA methylation (DNAm) changes associated with T2D but which differ between youth- and adult-onset might delineate the impacts of T2D development at different ages and could also determine the contribution of exposure to in utero diabetes. Methods: We performed an epigenome-wide analysis of DNAm on whole blood from 218 youth with T2D and 77 normoglycemic controls from the iCARE (improving renal Complications in Adolescents with type 2 diabetes through REsearch) cohort. Associations were tested using multiple linear regression models while adjusting for maternal diabetes, sex, age, BMI, smoking status, second-hand smoking exposure, cell-type proportions and genetic ancestry. Results: We identified 3830 differentially methylated sites associated with youth T2D onset, of which 3794 were moderately (adjusted p-value < 0.05 and effect size estimate > 0.01) associated and 36 were strongly (adjusted p-value < 0.05 and effect size estimate > 0.05) associated. A total of 3725 of these sites were not previously reported in the EWAS Atlas as associated with T2D, adult obesity or youth obesity. Moreover, three CpGs associated with youth-onset T2D in the PFKFB3 gene were also associated with maternal T2D exposure (FDR < 0.05 and effect size > 0.01). This is the first study to link PFKFB3 and T2D in youth. Conclusion: Our findings support that T2D in youth has different impacts on DNAm than adult-onset, and suggests that changes in DNAm could provide an important link between in utero exposure to maternal diabetes and the onset of T2D. [ABSTRACT FROM AUTHOR]

Published

2024

37. Case report: adult onset diabetes with partial pancreatic agenesis and congenital heart disease due to a de novo GATA6 mutation.

Author

Sanchez-Lechuga, Begona, Saqlain, Muhammad, Ng, Nicholas, Colclough, Kevin, Woods, Conor, and Byrne, Maria

Subjects

TYPE 2 diabetes, CONGENITAL heart disease, PANCREAS, TYPE 1 diabetes, GENETIC counseling, DIABETES, INSULIN aspart, CARDIAC amyloidosis

Abstract

Background: Mutations in GATA6 are the most frequent cause of pancreatic agenesis. Most cases present with neonatal diabetes mellitus. Case presentation: The case was a female born after an uncomplicated pregnancy and delivery in a non-consanguineous family (3.59 kg, 70th percentile). Severe cardiac malformations were diagnosed at two and a half months old. No hyperglycaemic episodes were recorded in the neonatal period. Diabetes was diagnosed at 21 years due to the detection of incidental glycosuria. She had a low but detectable C-peptide level at diagnosis. Anti-GAD and Islet-cell antibodies were negative and she failed oral hypoglycaemic therapy and was started on insulin. Abdominal MRI revealed the absence of most of the neck, body, and tail of pancreas with normal pancreas elastase levels. Criteria for type 1 or type 2 diabetes were not fulfilled, therefore a next generation sequencing (NGS) panel was performed. A novel heterozygous pathogenic GATA6 mutation (p.Tyr235Ter) was identified. The GATA6 variant was not detected in her parents, implying that the mutation had arisen de novo in the proband. Conclusion: Rarely GATA6 mutations can cause adult onset diabetes. This report highlights the importance of screening the GATA6 gene in patients with adult-onset diabetes, congenital cardiac defects and pancreatic agenesis with no first-degree family history of diabetes. It also emphasizes the importance of genetic counselling in these patients as future offspring will be at risk of inheriting the variant and developing GATA6 anomalies. [ABSTRACT FROM AUTHOR]

Published

2020

38. Clinical spectrum, over 12-year follow-up and experience of SGLT2 inhibitors treatment on patients with glycogen storage disease type Ib: a single-center retrospective study.

Author

Shao, Yong-Xian, Liang, Cui-Li, Su, Ya-Ying, Lin, Yun-Ting, Lu, Zhi-Kun, Lin, Rui-Zhu, Zhou, Zhi-Zi, Zeng, Chun-Hua, Tao, Chun-Yan, Liu, Zong-Cai, Zhang, Wen, and Liu, Li

Subjects

GLYCOGEN storage disease, SODIUM-glucose cotransporter 2 inhibitors, GENETIC disorders, SYMPTOMS, LACTIC acidosis

Abstract

Background: Glycogen storage disease type Ib (GSD Ib) is a rare disorder characterized by impaired glucose homeostasis caused by mutations in the SLC37A4 gene. It is a severe inherited metabolic disease associated with hypoglycemia, hyperlipidemia, lactic acidosis, hepatomegaly, and neutropenia. Traditional treatment consists of feeding raw cornstarch which can help to adjust energy metabolism but has no positive effect on neutropenia, which is fatal for these patients. Recently, the pathophysiologic mechanism of the neutrophil dysfunction and neutropenia in GSD Ib has been found, and the treatment with the SGLT2 inhibitor empaglifozin is now well established. In 2020, SGLT2 inhibitor empagliflozin started to be used as a promising efficient remover of 1,5AG6P in neutrophil of GSD Ib patients worldwide. However, it is necessary to consider long-term utility and safety of a novel treatment. Results: In this study, we retrospectively examined the clinical manifestations, biochemical examination results, genotypes, long-term outcomes and follow-up of thirty-five GSD Ib children who visited our department since 2009. Fourteen patients among them underwent empagliflozin treatment since 2020. This study is the largest cohort of pediatric GSD Ib patients in China as well as the largest cohort of pediatric GSD Ib patients treated with empagliflozin in a single center to date. The study also discussed the experience of long-term management on pediatric GSD Ib patients. Conclusion: Empagliflozin treatment for pediatric GSD Ib patients is efficient and safe. Increase of urine glucose is a signal for pharmaceutical effect, however attention to urinary infection and hypoglycemia is suggested. [ABSTRACT FROM AUTHOR]

Published

2024

39. A practical evidence-based approach to management of type 2 diabetes in children and young people (CYP): UK consensus.

Author

White, Billy, Ng, S. M., Agwu, J. C., Barrett, T. G., Birchmore, N., Kershaw, M., Drew, J., Kavvoura, F., Law, J., Moudiotis, C., Procter, E., Paul, P., Regan, F., Reilly, P., Sachdev, P., Sakremath, R., Semple, C., Sharples, K., Skae, M., and Timmis, A.

Subjects

YOUNG adults, DIABETES in children, TYPE 2 diabetes, ACETONEMIA, GLYCEMIC control, MAJOR adverse cardiovascular events

Abstract

Background: Type 2 diabetes in young people is an aggressive disease with a greater risk of complications leading to increased morbidity and mortality during the most productive years of life. Prevalence in the UK and globally is rising yet experience in managing this condition is limited. There are no consensus guidelines in the UK for the assessment and management of paediatric type 2 diabetes. Methods: Multidisciplinary professionals from The Association of Children's Diabetes Clinicians (ACDC) and the National Type 2 Diabetes Working Group reviewed the evidence base and made recommendations using the Grading Of Recommendations, Assessment, Development and Evaluation (GRADE) methodology. Results and discussion: Young people with type 2 diabetes should be managed within a paediatric diabetes team with close working with adult diabetes specialists, primary care and other paediatric specialties. Diagnosis of diabetes type can be challenging with many overlapping features. Diabetes antibodies may be needed to aid diagnosis. Co-morbidities and complications are frequently present at diagnosis and should be managed holistically. Lifestyle change and metformin are the mainstay of early treatment, with some needing additional basal insulin. GLP1 agonists should be used as second-line agents once early ketosis and symptoms are controlled. Glycaemic control improves microvascular but not cardiovascular risk. Reduction in excess adiposity, smoking prevention, increased physical activity and reduction of hypertension and dyslipidaemia are essential to reduce major adverse cardiovascular events. Conclusions: This evidence-based guideline aims to provide a practical approach in managing this condition in the UK. [ABSTRACT FROM AUTHOR]

Published

2024

40. Consideration of sex as a biological variable in diabetes research across twenty years.

Author

Cherian, Celena M., Reeves, Hayley R., De Silva, Duneesha, Tsao, Serena, Marshall, Katie E., and Rideout, Elizabeth J.

Subjects

SEX (Biology), TYPE 1 diabetes, TYPE 2 diabetes, DIABETES complications, DIABETES, INSULIN sensitivity

Abstract

Background: Sex differences exist in the risk of developing type 1 and type 2 diabetes, and in the risk of developing diabetes-associated complications. Sex differences in glucose homeostasis, islet and β cell biology, and peripheral insulin sensitivity have also been reported. Yet, we lack detailed information on the mechanisms underlying these differences, preventing the development of sex-informed therapeutic strategies for persons living with diabetes. To chart a path toward greater inclusion of biological sex as a variable in diabetes research, we first need a detailed assessment of common practices in the field. Methods: We developed a scoring system to evaluate the inclusion of biological sex in manuscripts published in Diabetes, a journal published by the American Diabetes Association. We chose Diabetes as this journal focuses solely on diabetes and diabetes-related research, and includes manuscripts that use both clinical and biomedical approaches. We scored papers published across 3 years within a 20-year period (1999, 2009, 2019), a timeframe that spans the introduction of funding agency and journal policies designed to improve the consideration of biological sex as a variable. Results: Our analysis showed fewer than 15% of papers used sex-based analysis in even one figure across all study years, a trend that was reproduced across journal-defined categories of diabetes research (e.g., islet studies, signal transduction). Single-sex studies accounted for approximately 40% of all manuscripts, of which > 87% used male subjects only. While we observed a modest increase in the overall inclusion of sex as a biological variable during our study period, our data highlight significant opportunities for improvement in diabetes research practices. We also present data supporting a positive role for journal policies in promoting better consideration of biological sex in diabetes research. Conclusions: Our analysis provides significant insight into common practices in diabetes research related to the consideration of biological sex as a variable. Based on our analysis we recommend ways that diabetes researchers can improve inclusion of biological sex as a variable. In the long term, improved practices will reveal sex-specific mechanisms underlying diabetes risk and complications, generating knowledge to enable the development of sex-informed prevention and treatment strategies. Plain language summary: Men and women have a different risk of developing type 1 and type 2 diabetes. Men and women also live with different complications of diabetes and show different treatment benefits. One reason for these differences is that biological sex affects diabetes risk, complications, and treatment efficacy. Unfortunately, a lot of diabetes research does not consider whether biological sex might affect the study results. As a result, we do not have enough information to match an individual's sex with the best diabetes prevention and treatment strategies. We are tackling this problem by learning how diabetes researchers consider biological sex in their studies. We read and scored over 800 diabetes research papers to see if, and how well, they considered biological sex in their study. Based on our results, we recommend several easy ways that diabetes researchers can do a better job of considering biological sex in their work. As more researchers consider biological sex, they will learn more about how an individual's sex affects diabetes risk, complications, and treatment effects. This information will benefit the diabetes community as a whole because it represents the first step toward matching an individual's sex with the best prevention and treatment strategies. Highlights: We found a modest improvement in the consideration of biological sex as a variable in diabetes research over 20 years. In single-sex animal studies males were used 87% of the time. Main barrier to inclusion of biological sex in clinical studies was failure to include biological sex as a variable in data analysis. Main barriers to inclusion of biological sex in biomedical studies were failure to collect and analyze samples according to sex, and failure to separate male and female samples from one another during sample collection. Journal policies may represent an effective tool to encourage inclusion of biological sex as a variable. [ABSTRACT FROM AUTHOR]

Published

2024

41. Effects of hepatocyte nuclear factor-1A and -4A on pancreatic stone protein/regenerating protein and C-reactive protein gene expression: implications for maturity-onset diabetes of the young.

Author

Kyithar, Ma P., Bonner, Caroline, Bacon, Siobhan, Kilbride, Seán M., Schmid, Jasmin, Graf, Rolf, Prehn, Jochen H. M., and Byrne, Maria M.

Subjects

HEPATOCYTE nuclear factors, PANCREATIC proteins, C-reactive protein, GENE expression, DIABETES, SERUM

Abstract

Background: There is a significant clinical overlap between patients with hepatocyte nuclear factor (HNF)-1A and HNF4A maturity-onset diabetes of the young (MODY), two forms of monogenic diabetes. HNF1A and HNF4A are transcription factors that control common and partly overlapping sets of target genes. We have previously shown that elevated serum pancreatic stone protein / regenerating protein A (PSP/reg1A) levels can be detected in subjects with HNF1A-MODY. In this study, we investigated whether PSP/reg is differentially regulated by HNF1A and HNF4A. Methods: Quantitative real-time PCR (qPCR) and Western blotting were used to validate gene and protein expression in cellular models of HNF1A- and HNF4A-MODY. Serum PSP/reg1A levels and high-sensitivity C-reactive protein (hsCRP) were measured by ELISA in 31 HNF1A- and 9 HNF4A-MODY subjects. The two groups were matched for age, body mass index, diabetes duration, blood pressure, lipid profile and aspirin and statin use. Results: Inducible repression of HNF1A and HNF4A function in INS-1 cells suggested that PSP/reg induction required HNF4A, but not HNF1A. In contrast, crp gene expression was significantly reduced by repression of HNF1A, but not HNF4A function. PSP/reg levels were significantly lower in HNF4A subjects when compared to HNF1A subjects [9.25 (7.85-12.85) ng/ml vs. 12.5 (10.61-17.87) ng/ml, U-test P = 0.025]. hsCRP levels were significantly lower in HNF1A-MODY [0.22 (0.17-0.35) mg/L] compared to HNF4A-MODY group [0.81 (0.38-1.41) mg/L, U-test P = 0.002], Parallel measurements of serum PSP/reg1A and hsCRP levels were able to discriminate HNF1A- and HNF4A-MODY subjects. Conclusion: Our study demonstrates that two distinct target genes, PSP/reg and crp, are differentially regulated by HNF1A and HNF4A, and provides clinical proof-of-concept that serum PSP/reg1A and hsCRP levels may distinguish HNF1A-MODY from HNF4A-MODY subjects. [ABSTRACT FROM AUTHOR]

Published

2013

42. Neonatal diabetes and protein losing enteropathy: a case report.

Author

McMillan, Tamara, Girgis, Rose, and Sellers, Elizabeth A. C.

Subjects

DIABETES, PULMONARY hypoplasia, INTESTINAL diseases, MUTANT proteins, HUMAN abnormalities, GATA proteins

Abstract

Background: Neonatal diabetes is a rare form of monogenic diabetes with onset in the first six months of life occurring in 1/100,000 to 1/400,000 births. Both permanent and transient forms have been described. Permanent neonatal diabetes results predominantly from mutations in the KCNJ11 and ABCC8 genes. Less frequently, mutations of the GATA6 gene, located on chromosome 18 cause a form of permanent neonatal diabetes resulting from pancreatic hypoplasia or agenesis. Other anomalies associated with mutations of this gene have also been reported, most commonly congenital heart disease. Case presentation: We report the case of a Caucasian male infant diagnosed shortly after birth with neonatal diabetes, truncus arteriosus type III, ventricular septal defect, atrial septal defect, an absent gallbladder and a right inguinal hernia. His diabetes resulted from a de novo mutation of the GATA6 gene resulting in pancreatic hypoplasia. At 20 months of age he developed protein losing enteropathy. This has not previously been associated with GATA6 mutations and it is not known if this association is causal. Conclusion: The combination of neonatal diabetes and pancreatic agenesis/hypoplasia should alert the clinician to the possibility of a GATA6 gene abnormality. The association of protein losing enteropathy is unique to the reported case. [ABSTRACT FROM AUTHOR]

Published

2016

43. HNF I A gene polymorphisms and cardiovascular risk factors in individuals with late-onset autosomal dominant diabetes: a cross-sectional study.

Author

Giuffrida, Fernando M. A., Furuzawa, Gilberto K., Kasamatsu, Teresa S., Oliveira, Marcos M., Reis, Andre F., and Dib, Sergio A.

Subjects

GENETIC polymorphisms, CARDIOVASCULAR diseases risk factors, DIABETES, HYPERTRIGLYCERIDEMIA, HEPATOCYTE growth factor

Abstract

Background: Type 2 diabetes mellitus (T2DM) is a genetically heterogeneous disease, hepatocyte nuclear factor-1 homeobox A (HNF1A) single-nucleotide polymorphisms (SNPs) playing a minor role in its pathogenesis. HNF1A is a frequent cause of monogenic diabetes, albeit with early-onset. Some uncommon subgroups like late-onset autosomal dominant diabetes mellitus (LOADDM) may present peculiar inheritance patterns with a stronger familial component. This study aims to investigate the relationship of HNF1A SNPs with cardiovascular risk factors in this group, as well as to characterize them in contrast with classical T2DM (CT2DM). Methods: eighteen LOADDM (age at onset > 40 y.o.; diabetes in 3 contiguous generations, uniparental lineage) along with 48 CT2DM patients and 42 normoglycemic controls (N group) have been evaluated for cardiovascular risk factors and SNPs of HNF1A. Results: LOADDM showed significantly higher frequencies of SNPs A98V (22.2% vs 2.1%, p = 0.02) and S487N (72.2% vs 43.8%, p = 0.049) of HNF1A compared to CT2DM. I27L did not show significant difference (66.7% vs 45.8%), but associated with lower risk of hypertriglyceridemia (OR 0.16, 95% CI 0.04-0.65, p = 0.01). "Protective effect" was independent from other well-known predictive risk factors for hypertriglyceridemia, such as waist circumference (OR 1.09 per 1 cm increase, p = 0.01) and HDL (OR 0.01 per 1 mmol/l, p = 0.005), after logistic regression. Conclusion: Late onset autosomal dominant diabetes mellitus is clinically indistinguishable from classical type 2 diabetes individuals. However, LOADDM group is enriched for common HNF1A polymorphisms A98V and S487N. I27L showed "protective effect" upon hypertriglyceridemia in this sample of individuals, suggesting a role for HNF1A on diabetic individuals' lipid profile. These data contribute to the understanding of the complex interactions between genes, hyperglycemia and cardiovascular risk factors development in type 2 diabetes mellitus. [ABSTRACT FROM AUTHOR]

Published

2009

44. Insulin resistance-related features are associated with cognitive decline: a cross-sectional study in adult patients with type 1 diabetes.

Author

Ji, Xiaolin, Zou, Wenjing, Fan, Li, Zhou, Zhiguang, Zhu, Xiongzhao, and Li, Xia

Subjects

TYPE 1 diabetes, WISCONSIN Card Sorting Test, COGNITION disorders, COGNITIVE ability, INSULIN sensitivity

Abstract

Background: To investigate the associations between insulin resistance (IR)-related features and cognitive function in type 1 diabetes (T1D). Methods: A total of 117 adult patients with T1D were recruited in this cross-sectional study. IR-related features include overweight/obesity/central obesity, hypertension, atherogenic dyslipidemia, and decreased estimated insulin sensitivity (eIS). The Wechsler Memory Scale-Chinese Revision, Wisconsin Card Sorting Test, and Sustained Attention to Response Task was used to assess memory, executive function and sustained attention, respectively. A z-score was generated from each test, and a composite measure of global cognitive performance was calculated by averaging the z-scores of all tests. Cognitive differences were measured between T1D patients with and without IR-related features. The associations between IR-related features and and cognitive performance were analyzed using: logistic regression, partial correlation, and multivariate linear regression analysis. Results: A total of 53 (45.3%) T1D patients were defined as having IR-related features. Individuals with IR-related features displayed worse overall cognitive scores compared to those without and had a 4-fold increase in the risk for having global cognitive z-score < 0. Among the IR-related features, higher triglyceride (TG) and lower eIS showed linear correlation with lower global cognitive performance. And the subsequent regression analysis identified eIS as the factor independently associated with global cognitive performance. Conclusions: We have provided evidence linking IR-related features to deteriorated cognitive function in adult patients with T1D. And eIS showed an independent positive correlation with global cognitive performance. Although no causal relationship can be drawn, IR emerges as an important factor reflecting cognitive function. Trial registration: ClinicalTrials.gov NCT03610984. [ABSTRACT FROM AUTHOR]

Published

2024

45. Correlation between TCF7L2 and CAPN10 gene polymorphisms and gestational diabetes mellitus in different geographical regions: a meta-analysis.

Author

He, Jingjing, Zhang, Meng, Ren, Jianhua, and Jiang, Xiaolian

Subjects

GESTATIONAL diabetes, GENETIC polymorphisms, GENETIC models, GENETIC correlations, SINGLE nucleotide polymorphisms, GENE frequency

Abstract

Background: The association between TCF7L2 and CAPN10 gene polymorphisms and gestational diabetes mellitus (GDM) has been explored in diverse populations across different geographical regions. Yet, most of these studies have been confined to a limited number of loci, resulting in inconsistent findings. In this study, we conducted a comprehensive review of published literature to identify studies examining the relationship between TCF7L2 and CAPN10 gene polymorphisms and the incidence of GDM in various populations. We specifically focused on five loci that were extensively reported in a large number of publications and performed a meta-analysis. Methods: We prioritized the selection of SNPs with well-documented correlations established in existing literature on GDM. We searched eight Chinese and English databases: Cochrane, Elton B. Stephens. Company (EBSCO), Embase, Scopus, Web of Science, China National Knowledge Infrastructure (CNKI), Wanfang, and China Science and Technology Journal Database and retrieved all relevant articles published between the inception of the database and July 2022. The Newcastle Ottawa Scale (NOS) was used to evaluate the selected articles, and the odds ratio (OR) was used as the combined effect size index to determine the association between genotypes, alleles, and GDM using different genetic models. Heterogeneity between the studies was quantified and the I2 value calculated. Due to large heterogeneities between different ethnic groups, subgroup analysis was used to explore the correlation between genetic polymorphisms and the incidence of GDM in the different populations. The stability of the results was assessed using sensitivity analysis. Begg's and Egger's tests were used to assess publication bias. Results: A total of 39 articles reporting data on 8,795 cases and 16,290 controls were included in the analysis. The frequency of the rs7901695 genotype was statistically significant between cases and controls in the European population (OR = 0.72, 95% CI: 0.65–0.86) and the American population (OR = 0.61, 95% CI: 0.48–0.77). The frequencies of rs12255372, rs7901695, rs290487, and rs2975760 alleles were also considerably different between the cases and controls in the populations analyzed. Conclusions: rs7903146, rs12255372, rs7901695, rs290487, and rs2975760 were associated with the incidence of GDM in different populations. [ABSTRACT FROM AUTHOR]

Published

2024

46. An Italian case series' description of thiamine responsive megaloblastic anemia syndrome: importance of early diagnosis and treatment.

Author

Di Candia, Francesca, Di Iorio, Valentina, Tinto, Nadia, Bonfanti, Riccardo, Iovino, Claudio, Rosanio, Francesco Maria, Fedi, Ludovica, Iafusco, Fernanda, Arrigoni, Francesca, Malesci, Rita, Simonelli, Francesca, Rigamonti, Andrea, Franzese, Adriana, and Mozzillo, Enza

Subjects

HYPERGLYCEMIA, MACROCYTIC anemia, OCULAR manifestations of general diseases, DEAFNESS, OPTIC nerve diseases, SENSORINEURAL hearing loss, INSULIN, VITAMIN B1, EARLY diagnosis, RARE diseases

Abstract

Background: Individuals with thiamine-responsive megaloblastic anemia (TRMA) mainly manifest macrocytic anemia, sensorineural deafness, ocular complications, and nonautoimmune diabetes. Macrocytic anemia and diabetes may be responsive to high-dosage thiamine treatment, in contrast to sensorineural deafness. Little is known about the efficacy of thiamine treatment on ocular manifestations. Cases presentation: Our objective is to report data from four Italian TRMA patients: in Cases 1, 2 and 3, the diagnosis of TRMA was made at 9, 14 and 27 months. In 3 out of 4 subjects, thiamine therapy allowed both normalization of hyperglycemia, with consequent insulin suspension, and macrocytic anemia. In all Cases, thiamine therapy did not resolve the clinical manifestation of deafness. In Cases 2 and 3, follow-up showed no blindness, unlike Case 4, in which treatment was started for megaloblastic anemia at age 7 but was increased to high doses only at age 25, when the genetic diagnosis of TRMA was performed. Conclusions: Early institution of high-dose thiamine supplementation seems to prevent the development of retinal changes and optic atrophy in TRMA patients. The spectrum of clinical manifestations is broad, and it is important to describe known Cases to gain a better understanding of this rare disease. [ABSTRACT FROM AUTHOR]

Published

2023

47. Wolfram syndrome type 1: a case series.

Author

Du, Danyang, Tuhuti, Aihemaitijiang, Ma, Yanrong, Abuduniyimu, Munila, Li, Suli, Ma, Guoying, Zynat, Jazyra, and Guo, Yanying

Subjects

TYPE 1 diabetes, DISEASE management, SENSORINEURAL hearing loss, SYNDROMES, NEURODEGENERATION, DYSPLASIA

Abstract

Background: Wolfram syndrome (WS) is a rare autosomal recessive multisystem neurodegenerative disease characterized by non-autoimmune insulin-dependent diabetes mellitus, optic atrophy, sensorineural deafness, and diabetes as the main features. Owing to clinical phenotypic heterogeneity, the misdiagnosis rate is high. However, early accurate diagnosis and comprehensive management are key to improving quality of life and prolonging life. Results: Eleven patients from seven WS pedigrees with 10 mutation sites (c.1314_1317delCTTT, c.C529T, c.C529A, c.G2105A, c.C1885T, c.1859_1860del, c.G2020A, c.C529A, c.G2105A, and c.G1393C) in the WFS1 gene were included. We conducted further expert department analysis to clarify the diagnosis and analyze the correlation between genes and phenotypes. Conclusions: The genotypes of these patients were closely associated with their phenotypes. The clinical data of the patients were analyzed to provide a basis for the diagnosis and clinical management of the disease. [ABSTRACT FROM AUTHOR]

Published

2023

48. Quantitative profiling and diagnostic potential of one-carbon and central metabolism pools in MODY2 and T1DM.

Author

Liu, Jieying, Xie, Ziyan, Fu, Junling, Yu, Miao, Wang, Tong, Qi, Cuijuan, Liu, Peng, Hui, Xiangyi, Wang, Dongmei, Ding, Lu, Zhang, Qian, Xie, Ting, and Xiao, Xinhua

Subjects

HYPERGLYCEMIA, GLUTAMINE, MATURITY onset diabetes of the young, HOMOCYSTEINE, TYPE 2 diabetes, TYPE 1 diabetes, LIQUID chromatography-mass spectrometry

Abstract

Background: Maturity-onset diabetes of the young type 2 (MODY2) is a rare genetic disorder characterized as mild fasting hyperglycemia with low risk of vascular complications caused by glucokinase gene mutation. This study aims to investigate metabolites alteration associated with MODY2, exploring possible mechanism underlying characteristic clinical manifestations and low cardiovascular risks of MODY2 and providing serum metabolite biomarkers to facilitating MODY2 diagnosis. Methods: Fasting serum samples from MODY2, type 1 diabetes (T1DM) and healthy individuals were collected. By using targeted metabolomics via liquid chromatography–tandem mass spectrometry platform, we quantified the metabolites involved in tricarboxylic acid (TCA) cycle and one-carbon metabolism. Results: Metabolomic profiling revealed significant difference of intermediates from central metabolism cycle, methionine cycle and several amino acids between MODY2 and T1DM groups. Among these, serum citrate, α-ketoglutaric acid, serine, glycine, glutamine and homocysteine were significantly elevated in MODY2 patients compared with T1DM patients; and compared with healthy subjects, malate and methionine levels were significantly increased in the two groups of diabetic patients. The correlation analysis with clinical indexes showed that α- ketoglutarate, serine, glycine, and glutamine were negatively correlated with blood glucose indicators including fasting blood glucose, HbA1c, and GA, while citrate was positively correlated with C-peptide. And homocysteine displayed positive correlation with HDL and negative with C-reactive protein, which shed light on the mechanism of mild symptoms and low risk of cardiovascular complications in MODY2 patients. A panel of 4 metabolites differentiated MODY2 from T1DM with AUC of 0.924, and a combination of clinical indices and metabolite also gained good diagnostic value with AUC 0.948. Conclusion: In this research, we characterized the metabolite profiles of TCA cycle and one-carbon metabolism in MODY2 and T1DM and identified promising diagnostic biomarkers for MODY2. This study may provide novel insights into the pathogenesis and clinical manifestations of MODY2. [ABSTRACT FROM AUTHOR]

Published

2023

49. CRISPR/Cas9 technology: applications in oocytes and early embryos.

Author

Zhang, Yi-ran, Yin, Tai-lang, and Zhou, Li-quan

Subjects

OVUM, CRISPRS, EMBRYOS, HUMAN embryos, GENOME editing

Abstract

CRISPR/Cas9, a highly versatile genome-editing tool, has garnered significant attention in recent years. Despite the unique characteristics of oocytes and early embryos compared to other cell types, this technology has been increasing used in mammalian reproduction. In this comprehensive review, we elucidate the fundamental principles of CRISPR/Cas9-related methodologies and explore their wide-ranging applications in deciphering molecular intricacies during oocyte and early embryo development as well as in addressing associated diseases. However, it is imperative to acknowledge the limitations inherent to these technologies, including the potential for off-target effects, as well as the ethical concerns surrounding the manipulation of human embryos. Thus, a judicious and thoughtful approach is warranted. Regardless of these challenges, CRISPR/Cas9 technology undeniably represents a formidable tool for genome and epigenome manipulation within oocytes and early embryos. Continuous refinements in this field are poised to fortify its future prospects and applications. [ABSTRACT FROM AUTHOR]

Published

2023

50. Genome-wide differential expression profiling of long non-coding RNAs in FOXA2 knockout iPSC-derived pancreatic cells.

Author

Elsayed, Ahmed K., Alajez, Nehad M., and Abdelalim, Essam M.

Subjects

LINCRNA, INDUCED pluripotent stem cells, ISLANDS of Langerhans

Abstract

Background: Our recent studies have demonstrated the crucial involvement of FOXA2 in the development of human pancreas. Reduction of FOXA2 expression during the differentiation of induced pluripotent stem cells (iPSCs) into pancreatic islets has been found to reduce α-and β-cell masses. However, the extent to which such changes are linked to alterations in the expression profile of long non-coding RNAs (lncRNAs) remains unraveled. Methods: Here, we employed our recently established FOXA2-deficient iPSCs (FOXA2−/− iPSCs) to investigate changes in lncRNA profiles and their correlation with dysregulated mRNAs during the pancreatic progenitor (PP) and pancreatic islet stages. Furthermore, we constructed co-expression networks linking significantly downregulated lncRNAs with differentially expressed pancreatic mRNAs. Results: Our results showed that 442 lncRNAs were downregulated, and 114 lncRNAs were upregulated in PPs lacking FOXA2 compared to controls. Similarly, 177 lncRNAs were downregulated, and 59 lncRNAs were upregulated in islet cells lacking FOXA2 compared to controls. At both stages, we observed a strong correlation between lncRNAs and several crucial pancreatic genes and TFs during pancreatic differentiation. Correlation analysis revealed 12 DE-lncRNAs that strongly correlated with key downregulated pancreatic genes in both PPs and islet cell stages. Selected DE-lncRNAs were validated using RT-qPCR. Conclusions: Our data indicate that the observed defects in pancreatic islet development due to the FOXA2 loss is associated with significant alterations in the expression profile of lncRNAs. Therefore, our findings provide novel insights into the role of lncRNA and mRNA networks in regulating pancreatic islet development, which warrants further investigations. 1-fWnpmZLux-XLhPse_mGh Video Abstract [ABSTRACT FROM AUTHOR]

Published

2023