Your search keyword '"mody"' showing total 54 results

1. Target gene variations of PPAR isoforms may contribute to MODY heterogeneity: A preliminary comparative study with type 2 diabetes

Author

Yilmaz-Aydogan, Hulya, Kanca-Demirci, Deniz, Gul, Nurdan, Aydogan, Cagatay, Poyrazoglu, Sukran, Tutuncu, Yıldız, Malikova, Fidan, Ozturk, Oguz, and Satman, Ilhan

Published

2024

2. Prevalence, clinical features and complications of common forms of Maturity Onset Diabetes of the Young (MODY) seen at a tertiary diabetes centre in south India.

Author

Aarthy, Ramasamy, Aston-Mourney, Kathryn, Amutha, Anandakumar, Mikocka-Walus, Antonina, Anjana, Ranjit Mohan, Unnikrishnan, Ranjit, Jebarani, Saravanan, Venkatesan, Ulagamathesan, Gopi, Sundaramoorthy, Radha, Venkatesan, and Mohan, Viswanathan

Abstract

Maturity Onset Diabetes of the Young (MODY) is a form of monogenic diabetes caused by mutations in single genes, affecting adolescents or young adults. MODY is frequently misdiagnosed as type 1 diabetes (T1). Though several studies from India have reported on the genetic aspects of MODY, the clinical profile, complications and treatments given have not been reported so far, nor compared with T1D and type 2 diabetes (T2D). To determine the prevalence, clinical features, and complications of common forms of genetically proven MODY seen at a tertiary diabetes centre in South India and compare them with matched individuals with T1D and T2D. Five hundred and thirty individuals identified as 'possible MODY' based on clinical criteria, underwent genetic testing for MODY. Diagnosis of MODY was confirmed based on pathogenic or likely pathogenic variants found using Genome Aggregation Database (gnomAD) and American College of Medical Genetics (ACMG) criteria. The clinical profile of MODY was compared with individuals with type 1 (T1D) and type 2 (T2D) diabetes, matched for duration of diabetes. Retinopathy was diagnosed by retinal photography; nephropathy by urinary albumin excretion > 30 µg/mg of creatinine and neuropathy by vibration perception threshold > 20 v on biothesiometry. Fifty-eight patients were confirmed to have MODY (10.9%). HNF1A -MODY (n = 25) was the most common subtype followed by HNF4A -MODY (n = 11), ABCC8 -MODY (n = 11), GCK -MODY (n = 6) and HNF1B -MODY (n = 5). For comparison of clinical profile, only the three 'actionable' subtypes - defined as those who may respond to sulphonylureas, namely, HNF1A, HNF4A and ABCC8 -MODY, were included. Age at onset of diabetes was lower among HNF4A -MODY and HNF1A -MODY than ABCC8 -MODY, T1D and T2D. Prevalence of retinopathy and nephropathy was higher among the three MODY subtypes taken together (n = 47) as compared to T1D (n = 86) and T2D (n = 86). This is one of the first reports of MODY subtypes from India based on ACMG and gnomAD criteria. The high prevalence of retinopathy and nephropathy in MODY points to the need for earlier diagnosis and better control of diabetes in individuals with MODY. • Prevalence, clinical features of common MODY forms from south India are presented. • MODY cases were confirmed by ACMG and gnomAD criteria. • The pick-up rate for MODY was 10.9% among clinically suspected MODY. • HNF1A -MODY is the most common subtype of MODY followed by HNF4α MODY. • The prevalence of retinopathy & nephropathy was higher among MODY than T1D and T2D. [ABSTRACT FROM AUTHOR]

Published

2023

3. Clinical profiling and screening for HNF4α and GCK gene mutations in Kashmiri patients with maturity-onset diabetes of the young (MODY).

Author

Firdous, Parveena, Hassan, Toyeeba, Nissar, Kamran, Masoodi, Shariq Rashid, and Ganai, Bashir Ahmad

Subjects

MATURITY onset diabetes of the young, UREA, GENETIC mutation, INSULIN, METFORMIN

Abstract

Aim: Maturity-onset Diabetes of Young (MODY) is a monogenic form of diabetes affecting 1-5% of young (often ≤25 years) diabetic patients exhibiting an autosomal dominant mode of inheritance. Considering the significance of genetic polymorphisms in a variety of diseases, this study aimed to determine the association between HNF4α and GCK gene polymorphisms and the risk of MODY in the Kashmir community, as well as their clinical differences.Method: The study was conducted on clinically confirmed MODY patients (n = 50), and age and gender-matched controls (25 T1DM and 25 non-diabetic) recruited from the endocrinology department of the hospital, for evaluating the HNF4α and GCK mutation. Under standard conditions, PCR-mediated amplification was done to evaluate the respective exons. Preliminary mutations were detected using restriction enzymes (BfaI and HhaI), which were then followed by sequencing of representative samples. The diabetic history, clinical and biochemical data were obtained after proper consent.Results: Our data revealed no association of HNF4α (exon7) and GCK (exon8) gene mutation with MODY disease susceptibility in the Kashmiri population. On diagnosis, no MODY patient was given immediate insulin; instead, metformin (68%) or sulphonyl-urea (28%) and dietary changes (4%) were recommended. Later in life, 54% of MODY patients develop insulin dependency. The MODY probability was calculated to be 73.88% (±4.56). HbA1c levels were lower [7.48% (±1.64)] than in T1DM [9.17(±2.29%)].Conclusions: Young early-onset diabetic patients were able to keep their HbA1c and blood glucose levels stable with a modified diet and metformin/sulphonyl-urea, but they may become insulin-dependent in the future, as seen in our study. As a result, prompt diagnosis and management are essential for avoiding complications. Furthermore, no HNF4α (exon7) or GCK (exon 8) mutations were found in MODY patients or T1DM/healthy non-diabetic controls. [ABSTRACT FROM AUTHOR]

Published

2022

4. Finding the needle in the haystack: how to identify monogenic diabetes in the paediatric clinic.

Author

Lokulo-Sodipe, Oluwakemi, Besser, Rachel EJ, and Owen, Katharine R

Subjects

COUNSELING, DIABETES, DIFFERENTIAL diagnosis, PEDIATRICS, TYPE 1 diabetes, TYPE 2 diabetes, HEALTH behavior, DIABETIC acidosis, BEHAVIOR modification, SYMPTOMS, ADOLESCENCE

Abstract

Diabetes mellitus is a common long-term childhood condition, which paediatricians, allied healthcare professionals and paediatric trainees will encounter frequently. General or acute paediatric trainees will be involved in treatment initiation, requesting appropriate investigations and continued management. The vast majority of children with diabetes have type 1 diabetes mellitus (T1DM) and the minority have type 2 diabetes mellitus (T2DM) or monogenic causes (also known as maturity-onset diabetes of the young). Individuals with T1DM tend to present more acutely and may be unwell with diabetic ketoacidosis. Those with T2DM and MODY usually present less acutely. However, there is considerable overlap in the clinical features, which may lead to diagnostic uncertainty. It is essential to clarify the subtype of diabetes mellitus as this allows tailored management including education, lifestyle modifications, medication and appropriate family counselling. In this review, we consider three adolescents presenting with symptoms and signs of diabetes, highlight the key features of different types of MODY and consider their differential diagnoses. [ABSTRACT FROM AUTHOR]

Published

2022

5. Screening for monogenic diabetes in primary care.

Author

Baldacchino, Ian, Pace, Nikolai Paul, and Vassallo, Josanne

Abstract

Aims: Updates on the latest diagnostic methods and features of MODY (Maturity Onset Diabetes of the Young) and promotion of education and awareness on the subject are discussed.Method: Previous recommendations were identified using PubMed and using combinations of terms including "MODY" "monogenic diabetes" "mature onset diabetes" "MODY case review". The diabetesgenes.org website and the US Monogenic Diabetes Registry (University of Colorado) were directly referenced. The remaining referenced papers were taken from peer-reviewed journals. The initial literature search occurred in January 2017 and the final search occurred in September 2018.Results: A diagnosis of MODY has implications for treatment, quality of life, management in pregnancy and research. The threshold for referral and testing varies among different ethnic groups, and depends on body mass index, family history of diabetes and associated syndromes. Novel causative genetic variations are still being discovered however testing is currently limited by low referral rates. Educational material is currently being promoted in the UK in an effort to raise awareness.Conclusions: The benefits and implications of life altering treatment such as termination of insulin administration are significant but little can be done without appropriate identification and referral. [ABSTRACT FROM AUTHOR]

Published

2020

6. GCK-MODY in the US Monogenic Diabetes Registry: Description of 27 unpublished variants.

Author

Sanyoura, May, Letourneau, Lisa, Knight Johnson, Amy E., del Gaudio, Daniela, Greeley, Siri Atma W., Philipson, Louis H., and Naylor, Rochelle N.

Subjects

*DIABETES, *GLUCOKINASE, *FAMILIES

Abstract

We report on 134 unique GCK variants in 217 families, including 27 unpublished variants, identified in the US Monogenic Diabetes Registry in the last decade. Using ACMG guidelines, 26% were pathogenic, 56% likely pathogenic and 18% were of uncertain significance. Those with pathogenic variants had clinical features consistent with GCK-MODY. [ABSTRACT FROM AUTHOR]

Published

2019

7. Dimerization defective MODY mutations of hepatocyte nuclear factor 4α.

Author

Singh, Puja, Tung, Shu-Ping, Han, Eun Hee, Lee, In-Kyu, and Chi, Young-In

Subjects

*HEPATOCYTE nuclear factors, *TYPE 2 diabetes, *PROTEIN stability, *DIMERIZATION, *LIGAND binding (Biochemistry), *HETERODIMERS

Abstract

Abstract HNF4α is a culprit gene product for a monogenic and dominantly-inherited form of diabetes, referred to as MODY1 (Maturity Onset Diabetes of the Young type 1). Reduced HNF4α activities have been linked to impaired insulin secretion and β-cell function. Numerous mutations have been identified from the patients and they have been instructive as to the individual residue's role in protein structure-function and dysfunction. As a member of the nuclear receptor (NR) superfamily, HNF4α is made of characteristic modular domains and it functions exclusively as a homodimer despite its sequence homology to RXR, a common heterodimer partner of non-steroidal NRs. Transcription factors commonly dimerize to enhance their molecular functions mainly by facilitating the recognition of double helix target DNAs that display an intrinsic pseudo-2-fold symmetry and the recruitment of the remainder of the main transcriptional machinery. HNF4α is no exception and its dimerization is maintained by the ligand binding domain (LBD) mainly through the leucine-zipper-like interactions at the stalk of two interacting helices. Although many MODY1 mutations have been previously characterized, including DNA binding disruptors, ligand binding disruptors, coactivator binding disruptors, and protein stability disruptors, protein dimerization disruptors have not been formally reported. In this report, we present a set of data for the two MODY1 mutations found right at the dimerization interface (L332 P and L328del mutations) which clearly exhibit the disruptive effects of directly affecting dimerization, protein stability, and transcriptional activities. These data reinforced the fact that MODY mutations are loss-of-function mutations and HNF4α dimerization is essential for its optimal function and normal physiology. [ABSTRACT FROM AUTHOR]

Published

2019

8. Early-onset diabetes in Africa: A mini-review of the current genetic profile.

Author

Adadey, Samuel Mawuli, Mensah, Joy Afua, Acquah, Kojo Sekyi, Abugri, James, and Osei-Yeboah, Richard

Subjects

*GENETIC profile, *DIABETES, *GENETIC variation, *GENE regulatory networks, *SCIENCE databases, *ION channels

Abstract

Early-onset diabetes is poorly diagnosed partly due to its heterogeneity and variable presentations. Although several genes have been associated with the disease, these genes are not well studied in Africa. We sought to identify the major neonatal, early childhood, juvenile, or early-onset diabetes genes in Africa; and evaluate the available molecular methods used for investigating these gene variants. A literature search was conducted on PubMed, Scopus, Africa-Wide Information, and Web of Science databases. The retrieved records were screened and analyzed to identify genetic variants associated with early-onset diabetes. Although 319 records were retrieved, 32 were considered for the current review. Most of these records (22/32) were from North Africa. The disease condition was genetically heterogenous with most cases possessing unique gene variants. We identified 22 genes associated with early-onset diabetes, 9 of which had variants (n = 19) classified as pathogenic or likely pathogenic (PLP). Among the PLP variants, IER3IP1 : p.(Leu78Pro) was the variant with the highest number of cases. There was limited data from West Africa, hence the contribution of genetic variability to early-onset diabetes in Africa could not be comprehensively evaluated. It is worth mentioning that most studies were focused on natural products as antidiabetics and only a few studies reported on the genetics of the disease. ABCC8 and KCNJ11 were implicated as major contributors to early-onset diabetes gene networks. Gene ontology analysis of the network associated ion channels, impaired glucose tolerance, and decreased insulin secretions to the disease. Our review highlights 9 genes from which PLP variants have been identified and can be considered for the development of an African diagnostic panel. There is a gap in early-onset diabetes genetic research from sub-Saharan Africa which is much needed to develop a comprehensive, efficient, and cost-effective genetic panel that will be useful in clinical practice on the continent and among the African diasporas. [ABSTRACT FROM AUTHOR]

Published

2023

9. PAX4 R192H is associated with younger onset of Type 2 diabetes in East Asians in Singapore.

Author

Ang, Su Fen, Tan, Clara S.H., Wang, Ling, Dorajoo, Rajkumar, Fong, Jessie C.W., Kon, Winston Y.C., Lian, Joyce X., Ang, Keven, Rahim, Jamaliah Bte, Jeevith, Babitha, Lee, Simon B.M., Tang, Wern Ee, Subramanium, Tavintharan, Sum, Chee Fang, Liu, Jian Jun, and Lim, Su Chi

Subjects

*PROTEINS, *RESEARCH, *SEQUENCE analysis, *RESEARCH methodology, *ARTHRITIS Impact Measurement Scales, *ALLELES, *EVALUATION research, *TYPE 2 diabetes, *COMPARATIVE studies, *GENOTYPES, *AGE factors in disease, *QUESTIONNAIRES, *DISEASE complications

Abstract

Aims: Young-onset T2D (YT2D) is associated with a more fulminant course and greater propensity for diabetic complications. The association of PAX4 R192H (rs2233580) variation with YT2D was inconsistent partly because of its Asian-specificity and under-representation of Asians in international consortiums. Interestingly, in our preliminary YT2D (mean = 25 years old) cohort, the prevalence of PAX4 R192H variant was remarkably higher (21.4%) than the general population. Therefore, we sought to determine whether PAX4 R192H is associated with younger onset of T2D in our East Asian (Chinese) population.Methods: Genotyping of PAX4 R192H was carried out using Illumina OmniExpress BeadChips as part of a genome-wide association study. Data analysis was performed using SPSS Ver. 22.Results: PAX4 R192H genotype was associated with younger onset age (CC: 47.1, CT: 46.0, TT: 42.6) after adjusting for gender, F = 5.402, p = 0.005. Independently, onset of diabetes was younger among males by 2.52 years, 95% CI [-3.45, -1.59], p < 0.0001. HOMA-IR and HOMA-%B were not significantly different across genotypes for a subset (n = 1045) of the cohort.Conclusions: Minor allele (T) of PAX4 R192H is associated with younger onset diabetes among Chinese in Singapore. Determining this genotype is important for identifying at-risk individuals for earlier onset diabetes and diabetic complications. [ABSTRACT FROM AUTHOR]

Published

2019

10. Functional characterization of MODY2 mutations in the nuclear export signal of glucokinase.

Author

Gutierrez-Nogués, Angel, García-Herrero, Carmen-María, Oriola, Josep, Vincent, Olivier, and Navas, María-Angeles

Subjects

*GLUCOKINASE, *HYPERGLYCEMIA, *GENETIC mutation, *HOMEOSTASIS, *GLUCOSE, *CELL compartmentation, *LIVER cells, *GENETIC regulation

Abstract

Glucokinase (GCK) plays a key role in glucose homeostasis. Heterozygous inactivating mutations in the GCK gene cause the familial, mild fasting hyperglycaemia named MODY2. Besides its particular kinetic characteristics, glucokinase is regulated by subcellular compartmentation in hepatocytes. Glucokinase regulatory protein (GKRP) binds to GCK, leading to enzyme inhibition and import into the nucleus at fasting. When glucose concentration increases, GCK-GKRP dissociates and GCK is exported to the cytosol due to a nuclear export signal (NES). With the aim to characterize the GCK-NES, we have functionally analysed nine MODY2 mutations located within the NES sequence. Recombinant GCK mutants showed reduced catalytic activity and, in most cases, protein instability. Most of the mutants interact normally with GKRP, although mutations L306R and L309P impair GCK nuclear import in cotransfected cells. We demonstrated that GCK-NES function depends on exportin 1. We further showed that none of the mutations fully inactivate the NES, with the exception of mutation L304P, which likely destabilizes its α-helicoidal structure. Finally, we found that residue Glu300 negatively modulates the NES activity, whereas other residues have the opposite effect, thus suggesting that some of the NES spacer residues contribute to the low affinity of the NES for exportin 1, which is required for its proper functioning. In conclusion, our results have provided functional and structural insights regarding the GCK-NES and contributed to a better knowledge of the molecular mechanisms involved in the nucleo-cytoplasmic shuttling of glucokinase. Impairment of this regulatory mechanism by some MODY2 mutations might contribute to the hyperglycaemia in the patients. [ABSTRACT FROM AUTHOR]

Published

2018

11. The molecular functions of hepatocyte nuclear factors – In and beyond the liver.

Author

Lau, Hwee Hui, Ng, Natasha Hui Jin, Loo, Larry Sai Weng, Jasmen, Joanita Binte, and Teo, Adrian Kee Keong

Subjects

*LIVER, *LIVER function tests, *MOLECULAR models, *LIVER diseases, *RADIOACTIVE substances

Abstract

Summary The hepatocyte nuclear factors (HNFs) namely HNF1α/β , FOXA1/2/3 , HNF4α/γ and ONECUT1/2 are expressed in a variety of tissues and organs, including the liver, pancreas and kidney. The spatial and temporal manner of HNF expression regulates embryonic development and subsequently the development of multiple tissues during adulthood. Though the HNFs were initially identified individually based on their roles in the liver, numerous studies have now revealed that the HNFs cross-regulate one another and exhibit synergistic relationships in the regulation of tissue development and function. The complex HNF transcriptional regulatory networks have largely been elucidated in rodent models, but less so in human biological systems. Several heterozygous mutations in these HNFs were found to cause diseases in humans but not in rodents, suggesting clear species-specific differences in mutational mechanisms that remain to be uncovered. In this review, we compare and contrast the expression patterns of the HNFs, the HNF cross-regulatory networks and how these liver-enriched transcription factors serve multiple functions in the liver and beyond, extending our focus to the pancreas and kidney. We also summarise the insights gained from both human and rodent studies of mutations in several HNFs that are known to lead to different disease conditions. [ABSTRACT FROM AUTHOR]

Published

2018

12. Maturity Onset Diabetes of the Young (MODY) in Tunisia: Low frequencies of GCK and HNF1A mutations.

Author

Ben Khelifa, S., Martinez, R., Dandana, A., Khochtali, I., Ferchichi, S., and Castaño, L.

Subjects

*BODY mass index, *GENETIC mutation, *GLUTAMATE decarboxylase, *APOLIPOPROTEIN A, *MATURITY onset diabetes of the young

Abstract

Maturity Onset Diabetes of the Young (MODY) is a monogenic form of diabetes characterized by autosomal dominant inheritance, an early clinical onset and a primary defect in β-cell function. Mutations in the GCK and HNF1A genes are the most common cause of MODY among Caucasians. The etiology of MODY in Tunisia stills a challenge for researchers. The aim of this study was to screen for mutations in GCK , HNF1A , HNF4A and INS genes in North African Tunisians subjects, in whom the clinical profile was very suggestive of MODY. A total of 23 unrelated patients, with clinical presentation of MODY were tested for mutations in GCK , HNF1A , HNF4A and INS genes, using Denaturing High Performance Liquid Chromatography (DHPLC), Multiplex Ligation-depend Probe Amplification (MLPA) and sequencing analysis. We identified the previously reported mutation c-169C > T in one patient as well as a new mutation c-457C > T in two unrelated patients. No mutations were detected in the HNF1A and INS genes. Despite restrictive clinical criteria used for selecting patients in this study, the most common genes known for MODY do not explain the majority of cases in Tunisians. This suggests that there are others candidate or unidentified genes contributing to the etiology of MODY in Tunisians families. [ABSTRACT FROM AUTHOR]

Published

2018

13. Analysis of the GCK gene in 79 MODY type 2 patients: A multicenter Turkish study, mutation profile and description of twenty novel mutations.

Author

Aykut, Ayça, Karaca, Emin, Onay, Hüseyin, Gökşen, Damla, Çetinkalp, Şevki, Eren, Erdal, Ersoy, Betül, Çakır, Esra Papatya, Büyükinan, Muammer, Kara, Cengiz, Anık, Ahmet, Kırel, Birgül, Özen, Samim, Atik, Tahir, Darcan, Şükran, and Özkınay, Ferda

Subjects

*GENETICS of type 2 diabetes, *GLUCOKINASE, *DNA mutational analysis, *ALLELES, *PEOPLE with diabetes

Abstract

Maturity onset diabetes is a genetic form of diabetes mellitus characterized by an early age at onset and several etiologic genes for this form of diabetes have been identified in many patients. Maturity onset diabetes type 2 [MODY2 (#125851)] caused by mutations in the glucokinase gene ( GCK ). Although its prevalence is not clear, it is estimated that 1%–2% of patients with diabetes have the monogenic form. The aim of this study was to evaluate the molecular spectrum of GCK gene mutations in 177 Turkish MODY type 2 patients. Mutations in the GCK gene were identified in 79 out of 177. All mutant alleles were identified, including 45 different GCK mutations, 20 of which were novel. [ABSTRACT FROM AUTHOR]

Published

2018

14. Maturity-onset diabetes of the young (MODY) in Brazil: Establishment of a national registry and appraisal of available genetic and clinical data.

Author

Giuffrida, Fernando M.A., Moises, Regina S., Weinert, Leticia S., Calliari, Luis E., Manna, Thais Della, Dotto, Renata P., Franco, Luciana F., Caetano, Lilian A., Teles, Milena G., Lima, Renata Andrade, Alves, Crésio, Dib, Sergio A., Silveiro, Sandra P., Dias-da-Silva, Magnus R., Reis, Andre F., and Brazilian Monogenic Diabetes Study Group (BRASMOD)

Subjects

*DIABETES, *GENETIC mutation, *GLUCOKINASE, *HEPATOCYTE nuclear factors, *BRAZILIANS, *MOLECULAR diagnosis, *HEALTH, *MATURITY onset diabetes of the young, *TYPE 2 diabetes diagnosis, *TYPE 2 diabetes, *PROTEINS, *ACQUISITION of data

Abstract

Aims: Maturity-Onset Diabetes of the Young (MODY) comprises a heterogeneous group of monogenic forms of diabetes caused by mutations in at least 14 genes, but mostly by mutations in Glucokinase (GCK) and hepatocyte nuclear factor-1 homeobox A (HNF1A). This study aims to establish a national registry of MODY cases in Brazilian patients, assessing published and unpublished data.Methods: 311 patients with clinical characteristics of MODY were analyzed, with unpublished data on 298 individuals described in 12 previous publications and 13 newly described cases in this report.Results: 72 individuals had GCK mutations, 9 described in Brazilian individuals for the first time. One previously unpublished novel GCK mutation, Gly178Ala, was found in one family. 31 individuals had HNF1A mutations, 2 described for the first time in Brazilian individuals. Comparisons of GCK probands vs HNF1A: age 16±11 vs 35±20years; age at diagnosis 11±8 vs 21±7years; BMI 19±6 vs 25±6kg/m2; sulfonylurea users 5 vs 83%; insulin users 5 vs 17%; presence of arterial hypertension 0 vs. 33%, all p<0.05. No differences were observed in lipids and C-peptide.Conclusions: Most MODY cases in Brazil are due to GCK mutations. In agreement with other studied populations, novel mutations are common. Only 14% of patients with familial diabetes carry a HNF1A mutation. Diagnosis of other rare forms of MODY is still a challenge in Brazilian population, as well as adequate strategies to screen individuals for molecular diagnosis. [ABSTRACT FROM AUTHOR]

Published

2017

15. Clinical and molecular characterization of a novel INS mutation identified in patients with MODY phenotype.

Author

Piccini, Barbara, Artuso, Rosangela, Lenzi, Lorenzo, Guasti, Monica, Braccesi, Giulia, Barni, Federica, Casalini, Emilio, Giglio, Sabrina, and Toni, Sonia

Subjects

*DIAGNOSIS of diabetes, *GENETIC mutation, *PEOPLE with diabetes, *CLINICAL trials, *NUCLEOTIDE sequence

Abstract

Correct diagnosis of Maturity-Onset Diabetes of the Young (MODY) is based on genetic tests requiring an appropriate subject selection by clinicians. Mutations in the insulin ( INS ) gene rarely occur in patients with MODY. This study is aimed at determining the genetic background and clinical phenotype in patients with suspected MODY. 34 patients with suspected MODY, negative for mutations in the GCK, HNF1α, HNF4α, HNF1β and PDX1 genes, were screened by next generation sequencing (NGS). A heterozygous INS mutation was identified in 4 members of the same family. First genetic tests performed identified two heterozygous silent nucleotide substitutions in MODY3/ HNF1α gene. An ineffective attempt to suspend insulin therapy, administering repaglinide and sulphonylureas, was made. DNA was re-sequenced by NGS investigating a set of 102 genes. Genes implicated in the pathway of pancreatic β-cells, candidate genes for type 2 diabetes mellitus and genes causative of diabetes in mice were selected. A novel heterozygous variant in human preproinsulin INS gene (c.125T > C) was found in the affected family members. The new INS mutation broadens the spectrum of possible INS phenotypes. Screening for INS mutations is warranted not only in neonatal diabetes but also in MODYx patients and in selected patients with type 1 diabetes mellitus negative for autoantibodies. Subjects with complex diseases without a specific phenotype should be studied by NGS because Sanger sequencing is ineffective and time consuming in detecting rare variants. [ABSTRACT FROM AUTHOR]

Published

2016

16. A preliminary study to evaluate the strategy of combining clinical criteria and next generation sequencing (NGS) for the identification of monogenic diabetes among multi-ethnic Asians.

Author

Ang, Su Fen, Lim, Su Chi, Tan, Clara SH, Fong, Jessie CW, Kon, Winston YC, Lian, Joyce X, Subramanium, Tavintharan, and Sum, Chee Fang

Subjects

*GENETICS of diabetes, *TYPE 2 diabetes, *GENETIC testing, *ASIANS, *DISEASES, *DIAGNOSIS of diabetes, *DIABETES, *SEQUENCE analysis

Abstract

Aims: Diabetes is increasing globally and Asia is the epicenter. Among those with young-onset diabetes (<45years), the prevalence of monogenic diabetes is estimated to be non-trivial (∼5%). An accurate diagnosis of monogenic diabetes is important to inform treatment, prognosis and genetic counseling. Therefore, a robust clinical algorithm to identify probands for testing is needed. Our aims are (1) to select probands for genetic testing and variant identification based on their clinical phenotype and (2) to evaluate the MODY probability calculator in our multi-ethnic Asian population.Methods: Eighty-four potential probands, identified in accordance with clinical practice guidelines, were subjected to re-sequencing of 16 monogenic diabetes genes and targeted genotyping for mitochondrial 3243A>G point-mutation. Variants, confirmed by bi-directional Sanger sequencing, were classified as pathogenic if they fulfilled the criteria adapted from American College of Medical Genetics. Performance of MODY calculator (with positive-predictive threshold set at >62.4%) for those with diabetes-onset ⩽35years (data input-limit) (n=71) was also evaluated.Results: Thirteen subjects (15.5%) harbored likely pathogenic/pathogenic variants: 6 (2 novel) in HNF1A (1 subject concomitantly had another HNF4A variant), 1 in HNF4A, 2 in mt3243A>G and 1 each in GCK, KCNJ11 (novel), ABCC8 (novel) and PAX4 (novel). Performance of the MODY calculator was: sensitivity 0.769, specificity 0.603 and negative predictive value 0.921. When analysis was restricted to MODY1-3, the performance was: 0.875, 0.587 and 0.974, respectively.Conclusions: The prevalence of MODY is non-trivial (∼15%) among Asians with young-onset diabetes. MODY calculator performs well in our population in nominating probands for genetic testing. [ABSTRACT FROM AUTHOR]

Published

2016

17. A three-step programmed method for the identification of causative gene mutations of maturity onset diabetes of the young (MODY).

Author

Li, Qian, Cao, Xi, Qiu, Hai-Yan, Lu, Jing, Gao, Rui, Liu, Chao, Yuan, Ming-Xia, Yang, Guang-Ran, and Yang, Jin-Kui

Subjects

*GENETIC mutation, *NUCLEIC acid probes, *NUCLEOTIDE sequencing, *GENETIC testing, *GENOME editing, *ENZYME kinetics, *MATURITY onset diabetes of the young

Abstract

To establish a three-step programmed method to find gene mutations related to maturity onset diabetes of the young (MODY). Target region capture and next-generation sequencing (NGS) were performed using customized oligonucleotide probes designed to capture suspected genes for MODY in 11 probands with clinically diagnosed MODY. The suspected associations of certain genes with MODY were then confirmed by Sanger sequencing in the probands and their family members. Finally, to validate variants of one of the genes of interest (glucokinase, GCK) as pathogenic mutations, protein function editing by the variant genes was assessed. In the target region capture and NGS phase, a total of nine variants of seven genes ( GCK , WFS1 , SLC19A2 , SH2B1 , SERPINB4 , RFX6 , and GATA6 ) were identified in eight probands. Two heterozygous GCK mutations located on the same allele (p.Leu77Arg and p.Val101Met) were identified in a MODY family. Sanger sequencing was used to confirm the variants identified by NGS to be present in probands and their diabetic family members, but not in non-diabetic family members. Finally, enzyme kinetic and thermal stability analyses revealed that the p.Leu77Arg mutation or the p.Leu77Arg mutation in combination with the p.Val101Met mutation inactivates GCK function and stability, while mutation of p.Val101Met alone does not. The p.Leu77Arg but not p.Val101Met GCK mutation is therefore considered a pathogenic mutation associated with MODY. Genetic screening coupled with gene-editing protein function testing is an effective and reliable method by which causative gene mutations of MODY can be identified. [ABSTRACT FROM AUTHOR]

Published

2016

18. Unexpected finding of a whole HNF1B gene deletion during the screening of rare MODY types in a series of Brazilian patients negative for GCK and HNF1A mutations.

Author

Dotto, Renata P., Giuffrida, Fernando M.A., Franco, Luciana, Mathez, Andreia L.G., Weinert, Leticia S., Silveiro, Sandra P., Sa, Joao R., Reis, Andre F., and Dias-da-Silva, Magnus R.

Subjects

*GENETICS of diabetes, *PEOPLE with diabetes, *HEPATOCYTE nuclear factors, *DELETION mutation, *MEDICAL screening, *RARE diseases, *GLUCOKINASE, *BRAZILIANS, *DISEASES, *TYPE 2 diabetes diagnosis, *CENTRAL nervous system diseases, *DENTAL enamel, *DIAGNOSIS, *CYSTIC kidney disease, *GENETIC mutation, *TYPE 2 diabetes, *PROTEINS, *TRANSFERASES, *PHENOTYPES, *CASE-control method, *GENETIC carriers

Abstract

Thirty-two patients with diabetes negative for point mutations in GCK and HNF1A underwent further molecular screening of GCK, HNF1A, HNF4A, and HNF1B by MLPA analysis. We described the first Brazilian case of MODY5 due to a heterozygous whole-gene deletion in HNF1B, who developed rapidly progressive renal failure and death. [ABSTRACT FROM AUTHOR]

Published

2016

19. 14-fold increased prevalence of rare glucokinase gene variant carriers in unselected Danish patients with newly diagnosed type 2 diabetes.

Author

Gjesing, Anette P., Engelbrechtsen, Line, Cathrine B. Thuesen, Anne, Have, Christian T., Hollensted, Mette, Grarup, Niels, Linneberg, Allan, Steen Nielsen, Jens, Christensen, Lotte B., Thomsen, Reimar W., Johansson, Kristoffer E., Cagiada, Matteo, Gersing, Sarah, Hartmann-Petersen, Rasmus, Lindorff-Larsen, Kresten, Vaag, Allan, Sørensen, Henrik T., Brandslund, Ivan, Beck-Nielsen, Henning, and Pedersen, Oluf

Subjects

*TYPE 2 diabetes, *MATURITY onset diabetes of the young, *GLUCOKINASE, *GENETIC variation, *TYPE 2 diabetes diagnosis

Abstract

Aims: Rare variants in the glucokinase gene (GCK) cause Maturity-Onset Diabetes of the Young (MODY2/GCK-MODY). We investigated the prevalence of GCK variants, phenotypic characteristics, micro- and macrovascular disease at baseline and follow-up, and treatment among individuals with and without pathogenic GCK variants.Methods: This is a cross-sectional study in a population-based cohort of 5,433 individuals without diabetes (Inter99 cohort) and in 2,855 patients with a new clinical diagnosis of type 2 diabetes (DD2 cohort) with sequencing of GCK. Phenotypic characteristics, presence of micro- and macrovascular disease and treatment information were available for patients in the DD2 cohort at baseline and after an average follow-up of 7.4 years.Results: Twenty-two carriers of potentially deleterious GCK variants were found among patients with type 2 diabetes compared to three among 5,433 nondiabetic individuals [OR = 14.1 (95 % CI 4.2; 47.0), p = 8.9*10-6]. Patients with type 2 diabetes carrying GCK variants had significantly lower waist circumference, hip circumference and BMI, compared to non-carriers. Three GCK variant carriers with diabetes had microvascular complications during follow-up.Conclusions: Approximately 0.8% of Danish patients with newly diagnosed type 2 diabetes carry non-synonymous variants in GCK and resemble patients with GCK-MODY. Glucose-lowering treatment cessation should be considered in this subset of diabetes patients. [ABSTRACT FROM AUTHOR]

Published

2022

20. A family with the Arg103Pro mutation in the NEUROD1 gene detected by next-generation sequencing – Clinical characteristics of mutation carriers.

Author

Szopa, Magdalena, Ludwig-Galezowska, Agnieszka H., Radkowski, Piotr, Skupien, Jan, Machlowska, Julita, Klupa, Tomasz, Wolkow, Pawel, Borowiec, Maciej, Mlynarski, Wojciech, and Malecki, Maciej T.

Subjects

*DIAGNOSIS of diabetes, *GENETIC mutation, *TRANSCRIPTION factors, *MOLECULAR structure of amino acids, *NEURODEGENERATION, *NUCLEOTIDE sequencing, *GENETICS

Abstract

Until now only a few families with early onset autosomal diabetes due to the NEUROD1 gene mutations have been identified. Moreover, only some of them meet strict MODY (maturity-onset diabetes of the young) criteria. Next-generation sequencing (NGS) provides an opportunity to detect more pathogenic mutations in this gene. Here, we evaluated the segregation of the Arg103Pro mutation in the NEUROD1 gene in a pedigree in which it was detected, and described the clinical characteristics of the mutation carriers. Methods We included 156 diabetic probands of MODY families, among them 52 patients earlier tested for GCK-MODY and/or HNF1A-MODY by Sanger sequencing with negative results. Genetic testing was performed by targeted NGS sequencing using a panel of 28 monogenic diabetes genes. Results As detected by NGS, one patient had the missense Arg103Pro (CGC/CCC) mutation in the gene NEUROD1 changing the amino-acid structure of the DNA binding domain of this transcription factor. We confirmed this sequence difference by Sanger sequencing. This family had previously been tested with negative results for HNF1A gene mutations. 17 additional members of this family were invited for further testing. We confirmed the presence of the mutation in 11 subjects. Seven adult mutation carriers (all but one) from three generations had been already diagnosed with diabetes. There were 3 individuals with the Arg103Pro mutation diagnosed before the age of 30 years in the family. The range of age of the four unaffected mutation carriers (3 minors and 1 adult) was 3–48 years. Interestingly, one mutation carrier had a history of transient neonatal hypoglycemia, of which the clinical course resembled episodes typical for HNF4A-MODY. Conclusions We report a family with autosomal dominant diabetes related to a new NEUROD1 mutation, one of very few meeting MODY criteria. The use of the NGS method will facilitate identification of more families with rare forms of MODY. [ABSTRACT FROM AUTHOR]

Published

2016

21. Frameshift mutations in the insulin gene leading to prolonged molecule of insulin in two families with Maturity-Onset Diabetes of the Young.

Author

Dusatkova, Lenka, Dusatkova, Petra, Vosahlo, Jan, Vesela, Klara, Cinek, Ondrej, Lebl, Jan, and Pruhova, Stepanka

Subjects

*FRAMESHIFT mutation, *DIABETES, *INSULIN genetics, *NUCLEOTIDE sequencing, *AMINO acid sequence, *PROINSULIN

Abstract

Mutations in the insulin ( INS ) gene rarely occur in patients with Maturity-Onset Diabetes of the Young (MODY). We aimed to describe in detail two MODY families with INS mutations. The INS gene was screened by direct sequencing. The probands and their affected relatives underwent a mixed-meal test. Mutation predictions were modeled using I-TASSER and were visualized by Swiss-PdbViewer. A novel heterozygous frameshift mutation p.Gln78fs in the INS gene was found in three generations of patients with clinically distinct diabetes. The single nucleotide deletion (c.233delA) is predicted to change and prolong amino acid sequence, resulting in aberrant proinsulin without native structures of C-peptide and A-chain. In the second family, the heterozygous mutation c.188-31G>A within the terminal intron was detected. The mother and her daughter were misdiagnosed as having type 1 diabetes since the ages of 6 and 2 years, respectively. This result is in contrast to the previously described carrier of the same mutation who was diagnosed with permanent neonatal diabetes. We identified a novel coding frameshift mutation and an intronic mutation in the INS gene leading to childhood-onset diabetes. INS mutations may result in various phenotypes, suggesting that additional mechanisms may be involved in the pathogenesis and clinical manifestation of diabetes. [ABSTRACT FROM AUTHOR]

Published

2015

22. Monogenic diabetes in adults: A multi-ancestry study reveals strong disparities in diagnosis rates and clinical presentation.

Author

Mifsud, F., Saint-Martin, C., Dubois-Laforgue, D., Bouvet, D., Timsit, J., Bellanné-Chantelot, C., and Monogenic Diabetes Study Group of the Société Francophone du Diabète

Subjects

*SYMPTOMS, *BODY mass index, *DIABETES, *FAMILY history (Medicine), *DIAGNOSIS

Abstract

Aim: Identification of monogenic diabetes (MgD) conveys benefits for patients' care. Algorithms for selecting the patients to be genetically tested have been established in EuroCaucasians, but not in non-EuroCaucasian individuals. We assessed the diagnosis rate, the phenotype of MgD, and the relevance of selection criteria, according to ancestry in patients referred for a suspected MgD.Methods: Seven genes (GCK, HNF1A, HNF4A, HNF1B, ABCC8, KCNJ11, INS) were analyzed in 1975 adult probands (42% non-EuroCaucasians), selected on the absence of diabetes autoantibodies and ≥2 of the following criteria: age ≤40 years and body mass index <30 kg/m2 at diagnosis, and a family history of diabetes in ≥2 generations.Results: Pathogenic/likely pathogenic variants were identified in 6.2% of non-EuroCaucasian and 23.6% of EuroCaucasian patients (OR 0.21, [0.16-0.29]). Diagnosis rate was low in all non-EuroCaucasian subgroups (4.1-11.8%). Common causes of MgD (GCK, HNF1A, HNF4A), but not rare causes, were less frequent in non-EuroCaucasians than in EuroCaucasians (4.1%, vs. 21.1%, OR 0.16 [0.11-0.23]). Using ethnicity-specific body mass index cutoffs increased the diagnosis rate in several non-EuroCaucasian subgroups.Conclusion: The diagnosis rate of MgD is low in non-EuroCaucasian patients, but may be improved by tailoring selection criteria according to patients'ancestry. [ABSTRACT FROM AUTHOR]

Published

2022

23. The lessons of early-onset monogenic diabetes for the understanding of diabetes pathogenesis.

Author

Vaxillaire, Martine, Bonnefond, Amélie, and Froguel, Philippe

Subjects

DIAGNOSIS of diabetes, PHENOTYPES, DISSECTION, PANCREATIC beta cells, CELL physiology, GENETIC polymorphisms

Abstract

Monogenic diabetes consists of different subtypes of single gene disorders comprising a large spectrum of phenotypes, namely neonatal diabetes mellitus or monogenic diabetes of infancy, dominantly inherited familial forms of early-onset diabetes (called Maturity-Onset Diabetes of the Young) and rarer diabetes-associated syndromic diseases. All these forms diagnosed at a very-young age are unrelated to auto-immunity. Their genetic dissection has revealed major genes in developmental and/or functional processes of the pancreatic β-cell physiology, and various molecular mechanisms underlying the primary pancreatic defects. Most of these discoveries have had remarkable consequences on the patients care and patient’s long-term condition with outstanding examples of successful genomic medicine, which are highlighted in this chapter. Increasing evidence also shows that frequent polymorphisms in or near monogenic diabetes genes may contribute to adult polygenic type 2 diabetes. In this regard, unelucidated forms of monogenic diabetes represent invaluable models for identifying new targets of β-cell dysfunction. [ABSTRACT FROM AUTHOR]

Published

2012

24. Phenotypic heterogeneity in Chinese patients with hepatocyte nuclear factor-1β mutations

Author

Wang, Congrong, Zhang, Rong, Lu, Jingyi, Jiang, Feng, Hu, Cheng, Zhou, Jian, Liu, Fang, Zhang, Feng, Qin, Wen, Li, Mei, Ma, Xiaojing, Yan, Jingbin, Bao, Yuqian, Xiang, Kunsan, and Jia, Weiping

Subjects

*GENETICS of diabetes, *HEPATOCYTE nuclear factors, *GENETIC mutation, *PHENOTYPES, *KIDNEY diseases, *CHINESE people, *ASPARTATE aminotransferase, *ALPHA fetoproteins, *DISEASES

Abstract

Abstract: Aims/hypothesis: The aim of this study was to investigate clinical spectrum of hepatocyte nuclear factor-1β (HNF-1β) mutation in Chinese diabetic patients with renal dysfunction and/or structure abnormalities. Materials and methods: A total of 104 diabetic patients with renal structural abnormalities and/or non-diabetic renal dysfunction were recruited and HNF-1β mutation was screened by direct sequencing. Results: Three heterozygous missense mutations including c.494G>A (p.R165H), c.662A>T (p.D221V) and c.780G>C (p.E260D) were identified. Progression of diabetes and mild decline of renal function were observed in the mutation carriers during the follow-up. The p.R165H mutation carrier had severe β-cell dysfunction and different extrapancreatic phenotypes. Compared with type 2 diabetes and normoglycemics, the p.R165H mutation carrier had a lower basal C-peptide (0.30, 0.61±0.07 and 0.50±0.04nmol/L for p.R165H, type 2 diabetes and normoglycemics, respectively) and low values of acute C-peptide response to arginine (0.15, 0.48±0.18 and 0.76±0.08nmol/L for p.R165H, type 2 diabetes and normoglycemics, respectively). Conclusion: Patients with the HNF-1β mutation in our population can have different pancreatic and extrapancreatic phenotypes. The exact contributions of mutations to the phenotypes await functional confirmation. [Copyright &y& Elsevier]

Published

2012

25. Genetics of type 2 diabetes mellitus and other specific types of diabetes; its role in treatment modalities.

Author

Kota, Sunil K., Meher, Lalit K., Jammula, Sruti, Kota, Siva K., and Modi, Kirtikumar D.

Subjects

GENETICS of type 2 diabetes, PATHOLOGICAL physiology, GENETIC mutation, GENETICS of disease susceptibility, POTASSIUM channels, GENETIC polymorphisms, PEROXISOME proliferator-activated receptors

Abstract

Abstract: Type 2 diabetes mellitus (T2DM) is among the most challenging health issues of the 21st century and is associated with an alarming rise in the incidence. The pathophysiological processes that lead to development of T2DM are still unclear, however impairment in insulin secretion and/or action is clearly indicated. Type 2 diabetes is a polygenic disorder with multiple genes located on different chromosomes contributing to its susceptibility. Analysis of the genetic factors is further complicated by the fact that numerous environmental factors interact with genes to produce the disorder. Only a minority of cases of type 2 diabetes are caused by single gene defects and one example is maturity onset diabetes of the young (MODY). Previous studies indicated that variants in genes encoding the pancreatic β-cell K+ATP channel subunits Kir6.2 (KCNJ11) and SUR1 (ABCC8) are associated with neonatal diabetes. Six different types of maturity onset diabetes of young (MODY) have been identified based on characteristic gene defect. The common Pro12Ala polymorphism in peroxisome proliferator-activated receptor-γ (PPAR-γ) gene was confirmed in several studies to be associated with type 2 diabetes as well. More recently, studies reported variants within a novel gene, TCF7L2, as a putative susceptibility gene for type 2 diabetes across many ethnic backgrounds around the world. MODY patients respond better to sulphonylureas and metformin, while neonatal diabetes patients with genetic mutations can be changed from insulin to oral drugs. We hereby provide a comprehensive review on the role of genetics in type 2 diabetes mellitus. [Copyright &y& Elsevier]

Published

2012

26. Maturity onset diabetes of the young and pregnancy.

Author

Colom, Cristina and Corcoy, Rosa

Subjects

TYPE 2 diabetes, GESTATIONAL diabetes, PHARMACOGENOMICS, PREGNANCY complications, DIABETES in youth, GENETICS of diabetes

Abstract

Three and a half decades after the clinical description of “Maturity Onset Diabetes of the Young” (MODY), and despite its low prevalence, important knowledge has been gathered concerning its genetic basis, molecular pathways, clinical phenotypes and pharmacogenetic issues. This knowledge has proved to be important not only for the attention of subjects carrying a mutation but also for the insight provided in Type 2 diabetes mellitus. In recent years, a shift from the term “MODY” to “monogenic diabetes” has taken place, the latter term being a better and more comprehensive descriptor. We stick to the “old” term because information on other types of monogenic diabetes and pregnancy is scarce. In this review we perform an overview of the entity, the prevalence rates reported in women with gestational diabetes mellitus and the specific impact of each type on pregnancy outcome. [Copyright &y& Elsevier]

Published

2010

27. Three novel mutations in MODY and its phenotype in three different Czech families

Author

Bazalová, Z., Rypáčková, B., Brož, J., Brunerová, L., Polák, J., Rušavý, Z., Trešlová, L., and Anděl, M.

Subjects

*GENETIC mutation, *PHENOTYPES, *GENETICS of diabetes, *HYPOGLYCEMIC agents, *GLUCOKINASE, *TYPE 2 diabetes, *NUCLEOTIDE sequence

Abstract

Abstract: Aims/hypothesis: MODY (Maturity Onset Diabetes of the Young) is an autosomal dominant inherited type of diabetes with significant genetic heterogeneity. New mutations causing MODY are still being found. A genetically confirmed diagnosis of MODY allows application of individualized treatment based on the underlying concrete genetic dysfunction. Detection of novel MODY mutations helps provide a more complete picture of the possible MODY genotypes. Materials and methods: We tested 43 adult Czech patients with clinical characteristics of MODY, using direct sequencing of HNF1A (hepatocyte nuclear factor 1-alpha), HNF4A (hepatocyte nuclear factor 4-alpha) and GCK (glucokinase) genes. Results: In three Czech families we identified three novel mutations we believe causing MODY—two missense mutations in HNF1A [F268L (c.802T>C) and P291S (c.871C>T)] and one frame shift mutation in GCK V244fsdelG (c.729delG). Some of the novel HNF1A mutation carriers were successfully transferred from insulin to gliclazide, while some of the novel GCK mutation carriers had a good clinical response when switched from insulin or oral antidiabetic drugs to diet. Conclusion: We describe three novel MODY mutations in three Czech families. The identification of MODY mutations had a meaningful impact on therapy on the mutation carriers. [Copyright &y& Elsevier]

Published

2010

28. Hepatic energy metabolism in a family with a glucokinase gene mutation and dysglycemia.

Author

Bódis, Kálmán, Knebel, Birgit, Nowotny, Bettina, Bobrov, Pavel, Kupriyanova, Yuliya, Zaharia, Oana-Patricia, Karusheva, Yanislava, Schön, Martin, Wolkersdorfer, Martin, Burkart, Volker, Al-Hasani, Hadi, Markgraf, Daniel, Müssig, Karsten, Roden, Michael, Szendroedi, Julia, and GDS study group

Subjects

*ENERGY metabolism, *GENETIC mutation, *GENE families, *INSULIN sensitivity, *ADIPOSE tissues, *LIVER, *TYPE 2 diabetes, *TRANSFERASES, *INSULIN resistance

Abstract

Carriers heterozygous for the D124N (c.370, GAC > AAC in exon 4) variant of GCK not only exhibit reduced insulin-secretion, but also impaired adipose insulin sensitivity, which may shift fatty acids towards the liver. This could contribute to increased hepatic lipid-accumulation and alterations of liver energy metabolism resulting in dysglycemia. ClinicalTrial.gov registration no: NCT01055093. [ABSTRACT FROM AUTHOR]

Published

2022

29. Fucosylated AGP glycopeptides as biomarkers of HNF1A-Maturity onset diabetes of the young.

Author

Tijardović, Marko, Štambuk, Tamara, Juszczak, Agata, Keser, Toma, Gasperikova, Daniela, Novokmet, Mislav, Tjora, Erling, Pape Medvidović, Edita, Stanik, Juraj, Rasmus Njølstad, Pål, Lauc, Gordan, Owen, Katharine R., and Gornik, Olga

Subjects

*GLYCOPEPTIDES, *BLOOD proteins, *ETIOLOGY of diabetes, *FUCOSYLATION, *DIABETES, *PROTEIN metabolism, *POLYSACCHARIDES, *PROTEINS, *GENETIC mutation, *ARTHRITIS Impact Measurement Scales, *TYPE 2 diabetes, *PEPTIDES

Abstract

Aims: We previously demonstrated that antennary fucosylated N-glycans on plasma proteins are regulated by HNF1A and can identify cases of Maturity-Onset Diabetes of the Young caused by HNF1A variants (HNF1A-MODY). Based on literature data, we further postulated that N-glycans with best diagnostic value mostly originate from alpha-1-acid glycoprotein (AGP). In this study we analyzed fucosylation of AGP in subjects with HNF1A-MODY and other types of diabetes aiming to evaluate its diagnostic potential.Methods: A recently developed LC-MS method for AGP N-glycopeptide analysis was utilized in two independent cohorts: a) 466 subjects with different diabetes subtypes to test the fucosylation differences, b) 98 selected individuals to test the discriminative potential for pathogenic HNF1A variants.Results: Our results showed significant reduction in AGP fucosylation associated to HNF1A-MODY when compared to other diabetes subtypes. Additionally, ROC curve analysis confirmed significant discriminatory potential of individual fucosylated AGP glycopeptides, where the best performing glycopeptide had an AUC of 0.94 (95% CI 0.90-0.99).Conclusions: A glycopeptide based diagnostic tool would be beneficial for patient stratification by providing information about the functionality of HNF1A. It could assist the interpretation of DNA sequencing results and be a useful addition to the differential diagnostic process. [ABSTRACT FROM AUTHOR]

Published

2022

30. Difficult diabetes in teenagers.

Author

Barrett, T.G. and Porter, J.R.

Abstract

Summary: Until recently all diabetes in young people was considered to be type 1 or autoimmune, with destruction of the pancreatic β-cells and absolute insulin dependence. Children with diabetes presented with osmotic symptoms or ketoacidosis, and treatment was essentially a practical management issue. Recently, however, obesity-related type 2 diabetes has emerged in children; genetic forms of diabetes have been identified; and with the rising prevalence of obesity, there is clinical overlap between types of diabetes. Accurate diagnosis is important because these different forms have specific treatments and have different complications. This article focuses on the presentations of type 1 diabetes in the obese teenager, type 2 diabetes mimicking type 1, and maturity onset diabetes of the young. An algorithm is suggested to help guide diagnosis and initial management. Finally there is a list of resources on where to go for further information. [Copyright &y& Elsevier]

Published

2006

31. Oligonucleotide chip for the diagnosis of HNF-1α mutations

Author

Park, Hyun Gyu, Ham, Hyun Ok, Kim, Kyung Hee, and Huh, Nam

Subjects

*GENETIC mutation, *INTEGRATED circuits, *OLIGONUCLEOTIDES, *GENETIC polymorphisms

Abstract

Abstract: Mutations in HNF-1α cause maturity-onset diabetes of the young (MODY) type 3, which is the most prevalent MODY subtype in most countries. In the present study, we investigated an oligonucleotide microchip for the detection of the known HNF-1α mutations. We first optimized the coupling chemistries for covalent immobilization of allele-specific oligonucleotides on aldehyde (CHO)- and thiocyanate (NCS)-activated glass slides and compared their hybridization efficiencies. CHO-glass was found to provide a more favorable environment for hybridization than NCS-glass, whereas the binding capacity of NCS-glass for amine-activated oligonucleotide was much greater than with CHO-glass. We also investigated the effects of the length of the capture probes on the hybridized signals. To determine the presence of HNF-1α mutations in a human sample, we prepared an oligonucleotide chip from selected mutation sites of exon2 from HNF-1α. Cy3-labeled RNA target probes were obtained by in vitro transcription of promoter-tagged PCR products from a wild-type blood sample and subsequent fragmentation. Hybridization of the chip with the RNA target probes successfully identified all of the genotypes for the tested sites. This work demonstrates that oligonucleotide chip-based analysis is a good candidate for routine clinical testing for HNF-1α mutations. [Copyright &y& Elsevier]

Published

2005

32. Pathogenesis of type 2 diabetes mellitus

Author

Guillausseau, P.-J. and Laloi-Michelin, M.

Subjects

*TYPE 2 diabetes, *HYPERGLYCEMIA, *INSULIN resistance, *INSULIN, *BLOOD sugar

Abstract

“Common” type 2 diabetes mellitus is a multifactorial disease. Hyperglycemia is related to a decrease in glucose peripheral uptake, and to an increase in hepatic glucose production, due to reduced insulin secretion and insulin sensitivity. Multiple insulin secretory defects are present, including loss of basal pulsatility, lack of early phase of insulin secretion after intravenous glucose administration, decreased basal and stimulated plasma insulin concentrations, excess in prohormone secretion, and progressive decrease in insulin secretory capacity with time. These genetically determined abnormalities appear early in the course of the disease. Insulin resistance affects muscle, liver, and adipose tissue. For the same plasma insulin levels, peripheral glucose uptake and hepatic glucose production suppressibility are lower in diabetic patients than in controls. It results from aging of the population and from “western” lifestyle, with progressive increase in mean body weight, due to excess in energy intake, decreased energy expenses and low physical activity level.New aspects. – The role of β-cell dysfunction, as well as the interplay between insulin secretory defect and insulin resistance are now better understood. In subjects with normal β-cell function, increase in insulin needs secondary to insulin resistance is compensated by an increase in insulin secretion adjusted to maintain plasma glucose levels to normal. In subjects genetically predisposed to type 2 diabetes, failure of β-cell to compensate for increased needs is responsible for a progressive elevation in plasma glucose levels, then for overt type 2 diabetes. This adaptative phenomenon is called β-cell compensation of insulin resistance. The lack of compensation is responsible for type 2 diabetes. When permanent hyperglycemia is present, progressive insulin secretory failure with time ensues, due to glucotoxicity and to lipotoxicity.Perspectives. – Simple changes in lifestyle, such regular moderate physical activity, and control of body weight, should permit to avoid the explosion in prevalence of type 2 diabetes. This has been evidenced by the results of prospective studies aiming at preventing conversion from impaired glucose tolerance to diabetes. In patients with permanent hyperglycemia not controlled by lifestyle changes, metabolic defects are the targets of specific therapy intervention with antidiabetic oral agents, such as insulin secretagogues, insulin sensitizers, and inhibitors of hepatic glucose production. [Copyright &y& Elsevier]

Published

2003

33. Hepatocyte Nuclear Factor 4 Is a Transcription Factor that Constitutively Binds Fatty Acids

Author

Wisely, G. Bruce, Miller, Ann B., Davis, Roderick G., Thornquest Jr., Alan D., Johnson, Robert, Spitzer, Tim, Sefler, Andrea, Shearer, Barry, Moore, John T., Miller, Aaron B., Willson, Timothy M., and Williams, Shawn P.

Subjects

*FATTY acids, *LIGAND binding (Biochemistry), *NUCLEAR receptors (Biochemistry)

Abstract

The 2.7 A˚ X-ray crystal structure of the HNF4γ ligand binding domain (LBD) revealed the presence of a fatty acid within the pocket, with the AF2 helix in a conformation characteristic of a transcriptionally active nuclear receptor. GC/MS and NMR analysis of chloroform/methanol extracts from purified HNF4α and HNF4γ LBDs identified mixtures of saturated and cis-monounsaturated C14-18 fatty acids. The purified HNF4 LBDs interacted with nuclear receptor coactivators, and both HNF4 subtypes show high constitutive activity in transient transfection assays, which was reduced by mutations designed to interfere with fatty acid binding. The endogenous fatty acids did not readily exchange with radiolabeled palmitic acid, and all attempts to displace them without denaturing the protein failed. Our results suggest that the HNF4s may be transcription factors that are constitutively bound to fatty acids. [Copyright &y& Elsevier]

Published

2002

34. Next- generation sequencing is an effective method for diagnosing patients with different forms of monogenic diabetes.

Author

Zmysłowska, A., Jakiel, P., Gadzalska, K., Majos, A., Płoszaj, T., Ben-Skowronek, I., Deja, G., Glowinska-Olszewska, B., Jarosz-Chobot, P., Klonowska, B., Kowalska, I., Mlynarski, W., Mysliwiec, M., Nazim, J., Noczynska, A., Robak-Kontna, K., Skala-Zamorowska, E., Skowronska, B., Szadkowska, A., and Szypowska, A.

Subjects

*GENETIC variation, *DIAGNOSIS, *DIABETES, *MOLECULAR diagnosis, *GENETIC disorder diagnosis, *TYPE 2 diabetes, *SEQUENCE analysis, *GENETIC mutation, *MEDICAL care, *GENETIC testing

Abstract

Aim: Monogenic diabetes (MD) represents 5-7% of antibody-negative diabetes cases and is a heterogeneous group of disorders.Methods: We used targeted next-generation sequencing (NGS) on Illumina NextSeq 550 platform involving the SureSelect assay to perform genetic and clinical characteristics of a study group of 684 individuals, including 542 patients referred from 12 Polish Diabetes Centers with suspected MD diagnosed between December 2016 and December 2019 and their 142 family members (FM).Results: In 198 probands (36.5%) and 66 FM (46.5%) heterozygous causative variants were confirmed in 11 different MD-related genes, including 31 novel mutations, with the highest number in the GCK gene (206/264), 22/264 in the HNF1A gene and 8/264 in the KCNJ11 gene. Of the 183 probands with MODY1-5 diabetes, 48.6% of them were diagnosed at the pre-diabetes stage and most of them (68.7%) were on diet only at the time of genetic diagnosis, while 31.3% were additionally treated with oral hypoglycaemic drugs and/or insulin.Conclusions: In summary, the results obtained confirm the efficacy of targeted NGS method in the molecular diagnosis of patients with suspected MD and broaden the spectrum of new causal variants, while updating our knowledge of the clinical features of patients defined as having MD. [ABSTRACT FROM AUTHOR]

Published

2022

35. Cardiovascular risk assessment by coronary artery calcium score in subjects with maturity-onset diabetes of the young caused by glucokinase mutations.

Author

Franco, Luciana F., Szarf, Gilberto, Dotto, Renata P., Dib, Sergio A., Moises, Regina S., Giuffrida, Fernando M.A., Reis, André F., and M A Giuffrida, Fernando

Subjects

*HYPERGLYCEMIA, *ETIOLOGY of diabetes, *GLUCOKINASE, *CORONARY arteries, *CORONARY artery disease, *TYPE 2 diabetes

Abstract

Aims: Maturity-Onset Diabetes of the Young (MODY) caused by glucokinase (GCK) mutations is characterized by lifelong mild non-progressive hyperglycemia, with low frequency of coronary artery disease (CAD) compared to other types of diabetes. The aim of this study is to estimate cardiovascular risk by coronary artery calcification (CAC) score in this group.Materials and Methods: Twenty-nine GCK-MODY cases, 26 normoglycemic controls (recruited among non-affected relatives/spouses of GCK mutation carriers), and 24 unrelated individuals with type 2 diabetes were studied. Patients underwent CAC score evaluation by computed tomography and were classified by Agatston score ≥ or < 10. Framingham Risk scores of CAD in 10 years were calculated.Results: Median [interquartile range] CAC score in GCK-MODY was 0 [0,0], similar to controls (0 [0,0], P = 0.49), but lower than type 2 diabetes (39 [0, 126], P = 2.6 × 10-5). A CAC score ≥ 10 was seen in 6.9% of the GCK group, 7.7% of Controls (P = 1.0), and 54.2% of individuals with type 2 diabetes (P = 0.0006). Median Framingham risk score was lower in GCK than type 2 diabetes (3% vs. 13%, P = 4 × 10-6), but similar to controls (3% vs. 4%, P = 0.66).Conclusions: CAC score in GCK-MODY is similar to control individuals from the same family and/or household and is significantly lower than type 2 diabetes. Besides demonstrating low risk of CAD in GCK-MODY, these findings may contribute to understanding the specific effect of hyperglycemia in CAD. [ABSTRACT FROM AUTHOR]

Published

2021

36. PDX1-MODY: A rare missense mutation as a cause of monogenic diabetes.

Author

Abreu, Gabriella de M., Tarantino, Roberta M., da Fonseca, Ana Carolina P., de Souza, Ritiele B., Soares, Camila A.P.D., Cabello, Pedro H., Rodacki, Melanie, Zajdenverg, Lenita, Zembrzuski, Verônica M., and Campos Junior, Mário

Subjects

*ETIOLOGY of diabetes, *MISSENSE mutation, *GLYCOSYLATED hemoglobin, *SONS, *BODY mass index, *BLOOD sugar

Abstract

Maturity-Onset Diabetes of the Young type 4 is a rare form of diabetes mellitus, caused by mutations in the PDX1 gene. However, only a few mutations in this gene have been associated as a cause of monogenic diabetes up to date. It makes difficult to create a clinical manifestation profile of this disease and, consequently, to improve the therapeutic management for these patients. Here we report a normal weight woman, diagnosed with diabetes mellitus at 27 years old, during her first pregnancy. At the time of the recruitment, she was 40 years old and had a body mass index of 23.9 kg/m2, glycated hemoglobin level of 9.6%, and fasting plasma glucose (FPG) of 254 mg/dL. She presented no diabetic complications and she was being treated with insulin. She reported a family history of diabetes mellitus characteristic of an autosomal dominant mode of inheritance. Molecular analysis of the PDX1 gene revealed the missense variant c.532G > A (p.(Glu178Lys)) segregating from the patient to her son, reported as diabetic. It was absent in her healthy daughter. The c.532G > A seems to be a rare variant, absent in human variants databases, and among 86 normoglycemic controls. Eight in silico algorithms classified this variant as probably pathogenic. Additionally, analysis of the evolutionary conservation showed the glutamic acid in the position 178 of PDX-1 protein as conserved among several species. Our findings reinforce the importance of screening rare MODY genes among families with suspicion of monogenic diabetes to help better understand the clinical manifestations of this disease. • PDX1-MODY is a rare cause of monogenic diabetes among Brazilian patients. • The molecular analysis of the PDX1 revealed six variants in patients from Brazil. • The rare c.532G > A p.(Glu178Lys) seems to be a cause of PDX1-MODY in the family described here. [ABSTRACT FROM AUTHOR]

Published

2021

37. Diabetes MODY. Una causa frecuente de hiperglucemia.

Author

Ceballos, L. Tapia, Borras, E. Córdoba, Angelín, B. Picazo, and Pérez, P. Ranchal

Published

2008

38. Clinical experience from a regional monogenic diabetes referral centre in Singapore.

Author

Ang, Su Fen, Tan, Clara S.H., Chan, Lovynn W.T., Goh, Li Xian, Kon, Winston Y.C., Lian, Joyce X., Subramanium, Tavintharan, Sum, Chee Fang, and Lim, Su Chi

Subjects

*DIABETIC acidosis, *DIABETES, *GENETIC testing, *BIOMARKERS, *AGE of onset, *TYPE 2 diabetes, *MEDICAL referrals

Abstract

Aims: Monogenic diabetes (also known as maturity-onset diabetes of the young or MODY) affects a subset of individuals with young-onset diabetes. We report our diagnostic work-up experience for such individuals.Methods: Serving as a regional secondary-care diabetes centre in a multi-ethnic population, we receive referrals to evaluate MODY from endocrinologists in both public and private practice. Key criteria for consideration of genetic-testing are onset age ≤ 35, negative GAD antibody, no history of diabetic ketoacidosis, strong family history of diabetes and BMI < 32.5 kg/m2. A monogenic diabetes registry was set up since 2017 to study their disease trajectories.Results: We identified 30 out of 175 (17.1%) individuals with likely pathogenic/pathogenic variants. Importantly, 29 out of 30 (96.7%) occurred in clinically actionable genes. A continuous scale combining BMI, hs-CRP and HDL provided 80% (P < 0.001) diagnostic accuracy for MODY in our cohort, achieving a negative predictive value of 0.93 and sensitivity at 0.76. Subtyping MODY prior to genetic testing (if desired) will require specialist domain knowledge and additional biomarkers due to its genetic heterogeneity.Conclusions: Through systematic and structured evaluation, the prevalence of MODY is non-trivial (17.1%) in a referral centre. Diagnostic algorithm combining clinical criteria and readily available biomarkers can support clinical decision for MODY genetic testing. [ABSTRACT FROM AUTHOR]

Published

2020

39. Genetic alterations in hepatocellular adenomas.

Author

Zucman-Rossi, J.

Published

2004

40. Heterogeneity of gestational diabetes - Do we take MODY into consideration as much as we should?

Author

Urbanová, Jana, Brunerová, Ludmila, and Brož, Jan

Subjects

*GESTATIONAL diabetes, *FETAL macrosomia, *TYPE 2 diabetes, *HEPATOCYTE nuclear factors, *INSULIN derivatives, *PREGNANT women, *AUDITING, *TYPE 1 diabetes, *RETROSPECTIVE studies

Published

2019

41. Hypoglycemia and antihyperglycemic treatment in adult MODY patients - A systematic review of literature.

Author

Urbanova, Jana, Brunerova, Ludmila, and Broz, Jan

Subjects

*TYPE 2 diabetes, *HYPOGLYCEMIA, *META-analysis, *GENETIC regulation, *HYPOGLYCEMIC agents, *SYSTEMATIC reviews, *PHARMACODYNAMICS

Abstract

Maturity onset diabetes of the young (MODY) is a heterogeneous group of diseases caused by a single mutation in one of the 14 genes involved in the regulation of glucose homeostasis. GCK, HNF1A, and HNF4A genes are among the most common genes affected. Expression of these genes in the key organs for defense against hypoglycemia and their participation in counter-regulation to hypoglycemia may potentially put individuals with a heterozygous mutation in these genes at increased risk for hypoglycemia. In HNF4A-MODY and HNF1A-MODY patients, normal or even increased insulin sensitivity together with glucose-independent mechanism of action of the first-line therapy - sulphonylurea derivatives - often leads to hypoglycemia, even at the much lower dose used in type 2 diabetes. This review aims to analyze clinical studies and case reports concerning hypoglycemia associated with antihyperglycemic treatment in adult MODY patients. [ABSTRACT FROM AUTHOR]

Published

2019

42. Environmental and genetic contributions to diabetes.

Author

Tremblay, Johanne and Hamet, Pavel

Subjects

TYPE 1 diabetes, DIABETES in children, TYPE 2 diabetes, DIABETES, NATURE & nurture

Abstract

Diabetes mellitus (DM) is a heterogeneous group of disorders characterized by persistent hyperglycemia. Its two most common forms are type 1 diabetes (T1D) and type 2 diabetes (T2D), for which genetic and environmental risk factors act in synergy. Because it occurs in children and involves infectious, autoimmune or toxic destruction of the insulin-secreting pancreatic beta-cells, type 1 diabetes has been called juvenile or insulin-deficient diabetes. In type 2, patients can still secrete some insulin but its effectiveness may be attenuated by 'insulin resistance.' There is also a group of rare forms of diabetes in the young which are inherited as monogenetic diseases. Whether one calls the underlying process 'genes vs. environment' or 'nature vs nurture', diabetes occurs at the interface of the two domains. Together with our genetic background we are born tabula rasa —a blank slate upon which the story of life, with all its environmental inputs will be written. There is one proviso: the influence of epigenetic inheritance must also be considered. Thus, in the creation of databases that include "big data" originating from genomic as well as exposome (defined as: the totality of environmental exposure from conception to death), a broad perspective is crucial as these factors act in concert in such chronic illnesses as diabetes that, for example, are likely to require adoption of an appropriate lifestyle change. Also, it is becoming increasingly evident that epigenetic factors can modulate the interplay between genes and environment. Consequently, throughout the life of an individual nature and nurture interact in a complex manner in the development of diabetes. This review addresses the question of the contribution of gene and environment and their interactions in the development of diabetes. [ABSTRACT FROM AUTHOR]

Published

2019

43. From Hyper- to Hypoinsulinemia and Diabetes: Effect of KCNH6 on Insulin Secretion.

Author

Yang, Jin-Kui, Lu, Jing, Yuan, Sha-Sha, Asan, Cao, Xi, Qiu, Hai-Yan, Shi, Ting-Ting, Yang, Fang-Yuan, Li, Qian, Liu, Cui-Ping, Wu, Qian, Wang, Yu-Hui, Huang, Hai-Xia, Kayoumu, Abudurexiti, Feng, Jian-Ping, Xie, Rong-Rong, Zhu, Xiao-Rong, Liu, Chang, Yang, Guang-Ran, and Zhang, Ming-Rong

Abstract

Summary Glucose-stimulated insulin secretion from islet β cells is mediated by K ATP channels. However, the role of non-K ATP K+ channels in insulin secretion is largely unknown. Here, we show that a non-K ATP K+ channel, KCNH6, plays a key role in insulin secretion and glucose hemostasis in humans and mice. KCNH6 p.P235L heterozygous mutation co-separated with diabetes in a four-generation pedigree. Kcnh6 knockout (KO) or Kcnh6 p.P235L knockin (KI) mice had a phenotype characterized by changing from hypoglycemia with hyperinsulinemia to hyperglycemia with insulin deficiency. Islets from the young KO mice had increased intracellular calcium concentration and increased insulin secretion. However, islets from the adult KO mice not only had increased intracellular calcium levels but also had remarkable ER stress and apoptosis, associated with loss of β cell mass and decreased insulin secretion. Therefore, dysfunction of KCNH6 causes overstimulation of insulin secretion in the short term and β cell failure in the long term. Graphical Abstract Highlights • KCNH6 regulates insulin secretion and glucose hemostasis in humans and mice • KCNH6 dysfunction causes a phenotype from hyper- to hypoinsulinemia and diabetes • KCNH6 dysfunction increases intracellular calcium levels and hyperinsulinemia • Chronic elevation of intracellular calcium causes β cell loss and hypoinsulinemia Yang et al. show that KCNH6 plays a key role in insulin secretion and glucose hemostasis in humans and mice. Dysfunction of KCNH6 results in a hyperinsulinemia phenotype in the short term and hypoinsulinemia and diabetes in the long term. [ABSTRACT FROM AUTHOR]

Published

2018

44. The spectrum of HNF1A gene mutations in patients with MODY 3 phenotype and identification of three novel germline mutations in Turkish Population.

Author

Karaca, Emin, Onay, Huseyin, Cetinkalp, Sevki, Aykut, Ayca, Göksen, Damla, Ozen, Samim, Atik, Tahir, Darcan, Sukran, Tekin, Ismihan Merve, and Ozkınay, Ferda

Abstract

Background Maturity-onset diabetes of the young (MODY) is a monogenic form of diabetes mellitus characterized by autosomal dominant inheritance, early age of onset, and pancreatic beta cell dysfunction. Heterozygous mutations in several genes may cause MODY. Methods In the present study, we investigated the molecular spectrum of HNF1A (hepatocyte nuclear factor 1a) mutations, in the individuals referred to a reference center for molecular genetic analysis. Mutations screening was performed in a group of 136 unrelated patients (average age 17.22 years) selected by clinical characterization of MODY. Mutation screening involved direct sequencing of the HNF1A gene. Results Among 136 individuals analyzed, 10 were carrying heterozygous HNF1A mutations, 3 of them being novel. Clinical features, such as age of diabetes at diagnosis or severity of hyperglycemia, were not related to the mutation type or location. No clear phenotype – genotype correlations were identified. Conclusions As a conclusion MODY resulted from HNF1A mutations shows heterogeneity at both phenotypic and molecular levels in Turkish population. [ABSTRACT FROM AUTHOR]

Published

2017

45. Lessons from whole-exome sequencing in MODYX families.

Author

Dusatkova, Petra, Fang, Mingyan, Pruhova, Stepanka, Gjesing, Anette P., Cinek, Ondrej, Hansen, Torben, Pedersen, Oluf B., Xu, Xun, and Lebl, Jan

Subjects

*DIABETES risk factors, *MEDICAL care, *DIAGNOSIS of diabetes, *CLINICAL trials, *TREATMENT of diabetes

Abstract

Abstract: We report the first results from whole-exome sequencing performed in families with Maturity-Onset Diabetes of the Young without a known genetic cause of diabetes (MODYX). This next generation sequencing technique pointed out that routine testing of MODY needs constant awareness and regular re-evaluation of both clinical criteria and primer sequences. [Copyright &y& Elsevier]

Published

2014

46. A novel glucokinase deletion (p.Lys32del) and five previously described mutations co-segregate with the phenotype of mild familial hyperglycaemia (MODY2) in Brazilian families.

Author

Giuffrida, Fernando M.A., Calliari, Luis Eduardo, Manna, Thais Della, Ferreira, João Guimarães, Saddi-Rosa, Pedro, Kunii, Ilda S., Furuzawa, Gilberto K., Dias-da-Silva, Magnus R., and Reis, Andre F.

Subjects

*GLUCOKINASE, *GENETIC mutation, *HYPERGLYCEMIA, *FEMALES, *MEDICAL screening, *PATIENTS, *DISEASES

Abstract

Abstract: Six Brazilian families with mild familial hyperglycaemia have been screened for glucokinase (GCK) mutations. All had mutations that co-segregated with the phenotype. One of the mutations, the deletion 96_98delAAG (p.Lys32del), had not been previously described, reinforcing the worldwide prevalence of GCK MODY and widespread existence of undetected new mutations. [Copyright &y& Elsevier]

Published

2013

47. Hyperglycaemia and β-cell antibodies: Is it always pre-type 1 diabetes?

Author

d’Annunzio, Giuseppe, Marchi, Marta, Aloi, Concetta, Salina, Alessandro, Lugani, Francesca, and Lorini, Renata

Subjects

*TYPE 1 diabetes, *IMMUNOGLOBULINS, *GLUCOSE intolerance, *GENETIC mutation, *AUTOIMMUNITY, *GENETIC testing, *DIAGNOSIS

Abstract

Abstract: We describe 10-year-old girl with mild incidental hyperglycaemia, impaired glucose tolerance and GADA positivity. Family history for mild hyperglycaemia and GADA fluctuation alerted us to a possible MODY diagnosis which was confirmed by detection of GCK mutation c.626C>T; p.T209M. Weak or transient β-cell autoimmunity should not preclude genetic testing for MODY when the clinical features are suggestive. [Copyright &y& Elsevier]

Published

2013

48. Clinical assessment of HNF1A and GCK variants and identification of a novel mutation causing MODY2

Author

Shoemaker, Ashley H., Zienkiewicz, Jozef, and Moore, Daniel J.

Subjects

*GENETIC mutation, *HOMEOBOX genes, *BLOOD sugar, *HUMAN genetic variation, *DIABETES, *GLUCOKINASE

Abstract

Abstract: A child with impaired fasting glucose was found to be heterozygous for a novel variant at c.659G>A in GCK and a variant at c.1663C>T in HNF1A. Structural modeling and clinical correlation suggests that the GCK variant causes monogenic diabetes while the variant in HNF1A is unlikely to be pathogenic. [Copyright &y& Elsevier]

Published

2012

49. A novel synonymous substitution in the GCK gene causes aberrant splicing in an Italian patient with GCK-MODY phenotype

Author

Costantini, Silvia, Prandini, Paola, Corradi, Massimiliano, Pasquali, Alessandra, Contreas, Giovanna, Pignatti, Pier Franco, Pinelli, Leonardo, Trabetti, Elisabetta, and Maffeis, Claudio

Subjects

*PHENOTYPES, *GLUCOKINASE, *GENETIC engineering, *TYPE 2 diabetes, *REVERSE transcriptase polymerase chain reaction, *GENETIC mutation, *EXONS (Genetics), *GENETIC regulation

Abstract

Abstract: GCK gene analysis in an Italian MODY patient revealed a novel synonymous substitution in exon 4 (c.459T>G; p.Pro153Pro) resulting in an aberrant transcript lacking the last eight codons of the same exon. Our findings emphazise the importance of not underestimating synonymous variations when screening for disease-causing mutations. [Copyright &y& Elsevier]

Published

2011

50. The clinical application of non-genetic biomarkers for differential diagnosis monogenic diabetes

Author

Owen, Katharine R., Skupien, Jan, and Malecki, Maciej T.

Subjects

*DIAGNOSIS of diabetes, *BIOMARKERS, *DIFFERENTIAL diagnosis, *PHARMACOLOGY, *TYPE 2 diabetes, *MOLECULAR diagnosis

Abstract

Abstract: Diabetes mellitus is not a single disorder but rather a heterogeneous group of diseases that differ in respect to pathogenesis, the clinical picture and the response to dietary and pharmacological treatments. Thus, the differential diagnosis of various types and forms of diabetes is of great practical importance. This is particularly true for monogenic disease forms where some spectacular applications of pharmacogenetics have recently been described. Unfortunately, most patients with monogenic diabetes such as maturity-onset diabetes of the young (MODY) or neonatal diabetes have not undergone diagnostic molecular testing, so they can not benefit from the progress seen in this field. The reasons for this include the complexity and cost of molecular diagnostics. One of ways to change this situation is to find an efficient and cheap test to screen thousands of patients for specific forms of monogenic diabetes. These tests can be based on biomarkers discovered by one of two general strategies: a candidate approach or a systematic search based on metabonomics or proteonomics. This review summarizes recent advances in the search for putative biomarkers and the perspectives of the future progress. [Copyright &y& Elsevier]

Published

2009