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3. Primate-specific ZNF808 is essential for pancreatic development in humans

Author

De Franco, Elisa, Owens, Nick D. L., Montaser, Hossam, Wakeling, Matthew N., Saarimäki-Vire, Jonna, Triantou, Athina, Ibrahim, Hazem, Balboa, Diego, Caswell, Richard C., Jennings, Rachel E., Kvist, Jouni A., Johnson, Matthew B., Muralidharan, Sachin, Ellard, Sian, Wright, Caroline F., Maddirevula, Sateesh, Alkuraya, Fowzan S., Hanley, Neil A., Flanagan, Sarah E., Otonkoski, Timo, Hattersley, Andrew T., and Imbeault, Michael

Published
2023
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6. Non-coding variants disrupting a tissue-specific regulatory element in HK1 cause congenital hyperinsulinism

Author

Wakeling, Matthew N., Owens, Nick D. L., Hopkinson, Jessica R., Johnson, Matthew B., Houghton, Jayne A. L., Dastamani, Antonia, Flaxman, Christine S., Wyatt, Rebecca C., Hewat, Thomas I., Hopkins, Jasmin J., Laver, Thomas W., van Heugten, Rachel, Weedon, Michael N., De Franco, Elisa, Patel, Kashyap A., Ellard, Sian, Morgan, Noel G., Cheesman, Edmund, Banerjee, Indraneel, Hattersley, Andrew T., Dunne, Mark J., Richardson, Sarah J., and Flanagan, Sarah E.

Published
2022
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8. First step towards a consensus strategy for multi-locus diagnostic testing of imprinting disorders

Author

Mackay, Deborah, Bliek, Jet, Kagami, Masayo, Tenorio-Castano, Jair, Pereda, Arrate, Brioude, Frédéric, Netchine, Irène, Papingi, Dzhoy, de Franco, Elisa, Lever, Margaret, Sillibourne, Julie, Lombardi, Paola, Gaston, Véronique, Tauber, Maithé, Diene, Gwenaelle, Bieth, Eric, Fernandez, Luis, Nevado, Julian, Tümer, Zeynep, Riccio, Andrea, Maher, Eamonn R., Beygo, Jasmin, Tannorella, Pierpaola, Russo, Silvia, de Nanclares, Guiomar Perez, Temple, I. Karen, Ogata, Tsutomu, Lapunzina, Pablo, and Eggermann, Thomas

Published
2022
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12. Monogenic disease analysis establishes that fetal insulin accounts for half of human fetal growth

Author

Hughes, Alice E., De Franco, Elisa, Freathy, Rachel M., Flanagan, Sarah E., and Hattersley, Andrew T.

Subjects
Gene mutations -- Health aspects, Fetus -- Growth, Birth weight -- Analysis, Insulin -- Health aspects, Birth size -- Analysis, Health care industry
Abstract

To the Editor: Extremes in birth weight are associated with adverse pregnancy outcomes and long-term risk of cardiometabolic disease. Fetal insulin has long been recognized as an important regulator of [...]

Published
2023
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14. YIPF5 mutations cause neonatal diabetes and microcephaly through endoplasmic reticulum stress

Author

De Franco, Elisa, Lytrivi, Maria, Ibrahim, Hazem, Montaser, Hossam, Wakeling, Matthew N., Fantuzzi, Federica, Patel, Kashyap, Demarez, Celine, Cai, Ying, Igoillo-Esteve, Mariana, Cosentino, Cristina, Lithovius, Vaino, Vihinen, Helena, Jokitalo, Eija, Laver, Thomas W., Johnson, Matthew B., Sawatani, Toshiaki, Shakeri, Hadis, Pachera, Nathalie, Haliloglu, Belma, Ozbek, Mehmet Nuri, Unal, Edip, Yildirim, Ruken, Godbole, Tushar, Yildiz, Melek, Aydin, Banu, Bilheu, Angeline, Suzuki, Ikuo, Flanagan, Sarah E., Vanderhaeghen, Pierre, Senee, Valerie, Julier, Cecile, Marchetti, Piero, Eizirik, Decio L., Ellard, Sian, Saarimaki-Vire, Jonna, Otonkoski, Timo, Cnop, Miriam, and Hattersley, Andrew T.

Subjects
Pediatric research, Diabetes mellitus -- Genetic aspects -- Causes of -- Development and progression, Microcephaly -- Genetic aspects -- Causes of -- Development and progression, Stress (Physiology) -- Genetic aspects -- Health aspects, Neonatal diseases -- Genetic aspects -- Causes of -- Development and progression, Endoplasmic reticulum -- Physiological aspects -- Health aspects, Health care industry
Abstract

Neonatal diabetes is caused by single gene mutations reducing pancreatic [beta] cell number or impairing [beta] cell function. Understanding the genetic basis of rare diabetes subtypes highlights fundamental biological processes in [beta] cells. We identified 6 patients from 5 families with homozygous mutations in the YIPF5 gene, which is involved in trafficking between the endoplasmic reticulum (ER) and the Golgi. All patients had neonatal/early-onset diabetes, severe microcephaly, and epilepsy. YIPF5 is expressed during human brain development, in adult brain and pancreatic islets. We used 3 human [beta] cell models (YIPF5 silencing in EndoC-[beta]H1 cells, YIPF5 knockout and mutation knockin in embryonic stem cells, and patient-derived induced pluripotent stem cells) to investigate the mechanism through which YIPF5 loss of function affects [beta] cells. Loss of YIPF5 function in stem cell-derived islet cells resulted in proinsulin retention in the ER, marked ER stress, and p cell failure. Partial YIPF5 silencing in EndoC-[beta]H1 cells and a patient mutation in stem cells increased the [beta] cell sensitivity to ER stress-induced apoptosis. We report recessive YIPF5 mutations as the genetic cause of a congenital syndrome of microcephaly, epilepsy, and neonatal/early-onset diabetes, highlighting a critical role of YIPF5 in [beta] cells and neurons. We believe this is the first report of mutations disrupting the ER-to-Golgi trafficking, resulting in diabetes., Introduction Neonatal diabetes mellitus develops before 6 months of age and is caused by reduced pancreatic [beta] cell number (reduced formation/increased destruction) or impaired [beta] cell function. Previous studies have [...]

Published
2020
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16. Incidence, Phenotypes, and Genotypes of Neonatal Diabetes: A 16-Year Experience. The Rare Genetic Etiologies of Neonatal Diabetes Are Common in Sudan.

Author

Hassan, Samar S., Musa, Salwa A., De Franco, Elisa, Donis Frew, Russel, Babiker, Omer O., Mohamadsalih, Ghassan F., Ibrahim, Areej A., Abu Samra, Samar, and Abdullah, Mohamed A.

Subjects
GENETICS of diabetes, NEONATAL diseases, CHILDREN'S hospitals, DIABETES, TERTIARY care, ACQUISITION of data, GENETIC testing, DISEASE incidence, COMPARATIVE studies, GENOTYPES, MEDICAL records, DESCRIPTIVE statistics, RESEARCH funding, PHENOTYPES, EPIDEMIOLOGICAL research, LONGITUDINAL method, CHILDREN
Abstract

Neonatal diabetes (ND) is a rare subtype of diabetes occurring in the first 6 months of life. High incidence has been reported among populations with high rates of consanguineous marriage. However, there is paucity of reported data from sub-Saharan African countries. We report the incidence, genotype, and phenotype of ND in a large cohort from Sudan and compare these findings to regional and international data. All infants with onset of diabetes in the first 6 months of life, attending one of the only two tertiary pediatric diabetes centers in Sudan, Gaafar Ibn Auf Pediatric Tertiary Hospital and Sudan Childhood Diabetes Center, during the period of January 2006 to December 2022 were included. Medical records were reviewed for demographic and clinical information. Genetic testing was performed for 48 patients by the Exeter Genomics laboratory in the UK and for one patient by the University of Cambridge, Metabolic Research Laboratories, UK. The estimated incidence was 4.8 per 100,000 live births. Forty-nine ND patients from 45 unrelated families were identified, and a genetic diagnosis was confirmed in 37 patients (75.5%) from 33 unrelated families. Consanguinity was reported in 34 families (75.6%). The commonest genetic cause for permanent neonatal diabetes was EIF2AK3 recessive variants causing Wolcott–Rallison syndrome (18.92%). Pathogenic variants in two recently identified genes, ZNF808 and NARS2, were found in three patients each (8.11%). Activating variants in KCNJ11 and ABCC8 were identified in four (10.81%) and two (5.41%) patients, respectively. Apart from hyperglycemia, the commonest clinical presentations included dehydration, failure to thrive, and diabetic ketoacidosis. ND in Sudan has a different pattern of etiologies compared to Western and Asian populations yet similar to some Arab countries with EIF2AK3 mutations being the commonest cause. Pathogenic variants in recently identified genes reflect the impact of genome sequencing on increasing the rate of genetic diagnosis. [ABSTRACT FROM AUTHOR]

Published
2024
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18. Pharmacogenomics in diabetes: outcomes of thiamine therapy in TRMA syndrome

Author

Habeb, Abdelhadi M., Flanagan, Sarah E., Zulali, Mohamed A., Abdullah, Mohamed A., Pomahačová, Renata, Boyadzhiev, Veselin, Colindres, Lesby E., Godoy, Guillermo V., Vasanthi, Thiruvengadam, Al Saif, Ramlah, Setoodeh, Aria, Haghighi, Amirreza, Haghighi, Alireza, Shaalan, Yomna, International Neonatal Diabetes Consortium, Hattersley, Andrew T., Ellard, Sian, and De Franco, Elisa

Published
2018
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20. The Role of ONECUT1 Variants in Monogenic and Type 2 Diabetes Mellitus.

Author

Russ-Silsby, James, Patel, Kashyap A., Laver, Thomas W., Hawkes, Gareth, Johnson, Matthew B., Wakeling, Matthew N., Patil, Prashant P., Hattersley, Andrew T., Flanagan, Sarah E., Weedon, Michael N., and De Franco, Elisa

Subjects
TYPE 2 diabetes, MATURITY onset diabetes of the young, MISSENSE mutation, ETIOLOGY of diabetes, GENETIC variation
Abstract

ONECUT1 (also known as HNF6) is a transcription factor involved in pancreatic development and β-cell function. Recently, biallelic variants in ONECUT1 were reported as a cause of neonatal diabetes mellitus (NDM) in two subjects, and missense monoallelic variants were associated with type 2 diabetes and possibly maturity-onset diabetes of the young (MODY). Here we examine the role of ONECUT1 variants in NDM, MODY, and type 2 diabetes in large international cohorts of subjects with monogenic diabetes and >400,000 subjects from UK Biobank. We identified a biallelic frameshift ONECUT1 variant as the cause of NDM in one individual. However, we found no enrichment of missense or null ONECUT1 variants among 484 individuals clinically suspected of MODY, in whom all known genes had been excluded. Finally, using a rare variant burden test in the UK Biobank European cohort, we identified a significant association between heterozygous ONECUT1 null variants and type 2 diabetes (P = 0.006) but did not find an association between missense variants and type 2 diabetes. Our results confirm biallelic ONECUT1 variants as a cause of NDM and highlight monoallelic null variants as a risk factor for type 2 diabetes. These findings confirm the critical role of ONECUT1 in human β-cell function. Article Highlights: We confirmed homozygous ONECUT1 variants as causative for neonatal diabetes with the identification of a third case. Rare heterozygous ONECUT1 variants were not enriched in a cohort of 484 individuals clinically suspected of having maturity-onset diabetes of the young. Heterozygous null ONECUT1 variants are significantly associated with type 2 diabetes in the UK Biobank European population. No association was observed between heterozygous ONECUT1 missense variants and type 2 diabetes in UK Biobank. [ABSTRACT FROM AUTHOR]

Published
2023
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24. Neonatal and early‐onset diabetes in Ukraine: Atypical features and mortality.

Author

Globa, Evgenia, Zelinska, Nataliya, Johnson, Matthew B., Flanagan, Sarah E., and De Franco, Elisa

Subjects
DIAGNOSIS of diabetes, NEONATAL diseases, GENETIC testing, AGE factors in disease, RESEARCH funding, LONGITUDINAL method, RARE diseases
Abstract

Aims: The aim of this study is to elucidate the aetiology and clinical features of neonatal and early‐onset diabetes in a large database for pediatric diabetes patients in Ukraine. Methods: We established a Pediatric Diabetes Register to identify patients diagnosed with diabetes before 9 months of age. Genetic testing was undertaken for 66 patients from 65 unrelated families with diabetes diagnosed within the first 6 months of life (neonatal diabetes, n = 36) or between 6 and 9 months (early‐onset diabetes, n = 30). Results: We determined the genetic aetiology in 86.1% of patients (31/36) diagnosed before 6 months and in 20% (6/30) diagnosed between 6 and 9 months. Fourteen individuals (37.8% of those with a genetic cause identified) had activating heterozygous variants in ABCC8 or KCNJ11. An additional 10 individuals had pathogenic variants in the INS or GCK genes, while 4 had 6q24 transient neonatal diabetes. Rare genetic subtypes (including pathogenic variants in EIF2AK3, GLIS3, INSR, PDX1, LRBA, RFX6 and FOXP3) were identified in nine probands (24.3% of solved cases), 6 of whom died. In total, eight individuals died between infancy and childhood, all of them were diagnosed before 6 months and had received a genetic diagnosis. Conclusions: In the last decade, the increased availability of comprehensive genetic testing has resulted in increased recognition of the contribution of rare genetic subtypes within pediatric diabetes cohorts. In our study, we identified a high mortality rate among these patients. [ABSTRACT FROM AUTHOR]

Published
2023
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25. MNX1 mutations causing neonatal diabetes: Review of the literature and report of a case with extra‐pancreatic congenital defects presenting in severe diabetic ketoacidosis.

Author

Aly, Hanan Hassan, De Franco, Elisa, Flanagan, Sarah E., and Elhenawy, Yasmine I.

Subjects
*DIABETIC acidosis, *HUMAN abnormalities, *PANCREATIC beta cells, *ETIOLOGY of diabetes, *HYPOSPADIAS, *UMBILICAL hernia, *HYPERGLYCEMIA
Abstract

The MNX1 gene encodes a homeobox transcription factor found to be important for pancreatic beta cell differentiation and development. Mutations of the MNX1 gene that cause permanent neonatal diabetes mellitus (PNDM) are rare and have been reported in only two cases. Both cases presented with hyperglycemia, with one case having isolated PNDM while the other had PNDM and multiple neurologic, skeletal, lung, and urologic congenital anomalies resulting in death in early infancy. We describe the genetic and clinical features of a preterm male infant with a homozygous [c.816C > A p.(Phe272Leu)] MNX1 mutation. Our proband is the first case to present in severe diabetic ketoacidosis (DKA), indicating severe insulin deficiency. Unlike the previously reported female case who had the same mutation and presented with isolated PNDM, our proband had hypospadias and congenital umbilical hernia and showed poor growth on follow up. Our case suggests that MNX1 mutations causing NDM can result in a range of extra‐pancreatic features and a variable phenotype, similar to other transcription factors causing NDM such as GATA6 and GATA4 mutations. We also cannot exclude the possibility of sex‐biased expression of MNX1 gene (which was recently reported for other monogenic/neonatal diabetes genes such as the NEUROD1 and HNF4A in humans) since the two male cases had associated multiple anomalies while the female case had isolated PNDM. Our report further defines the phenotype caused by recessive homozygous MNX1 mutations and explores potential new mechanisms regulating MNX1 gene expression which should be further explored. Our manuscript describes a male newborn with the rare MNX1 mutation with a novel presentation/phenotype of not only hyperglycemia but also severe diabetic ketoacidosis, hypospadias and congenital umbilical hernia. Thus, we expand on the phenotype presentation of MNX1 mutations associated with permanent neonatal diabetes. Since the two males who had MNX1 mutation and diabetes (our case and another previously reported case with a different mutation), had multiple congenital anomalies, whereas the female who had the same mutation as our patient had isolated diabetes, our report also raises the possibility of sex‐biased gene expression, which was recently reported for several monogenic diabetes genes. This is worth exploring further in the future especially as more cases are reported. [ABSTRACT FROM AUTHOR]

Published
2023
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26. Phenotypic severity of homozygous GCK mutations causing neonatal or childhood-onset diabetes is primarily mediated through effects on protein stability

Author

Raimondo, Anne, Chakera, Ali J., Thomsen, Soren K., Colclough, Kevin, Barrett, Amy, De Franco, Elisa, Chatelas, Alisson, Demirbilek, Huseyin, Akcay, Teoman, Alawneh, Hussein, Flanagan, Sarah E., Van De Bunt, Martijn, Hattersley, Andrew T., Gloyn, Anna L., Ellard, Sian, Abduljabbar, Mohammad A., Al-Zyoud, Mahmoud, Aman, Syed, Bath, Louise, De, Parijat, Deshpande, Neeta, Durmaz, Erdem, Eickmeier, Frank, Elbarbary, Nancy Samir, Fillion, Marc, Jagadeesh, Sujatha M., Kershaw, Melanie, Khan, Waqas I., Mlynarski, Wojciech, Noyes, Kathryn, Peters, Catherine J., Shaw, Nick, Tiron, Irina, Turkkahraman, Doga, Turner, Lesley, Eltonbary, Khadiga Y., and Yuksel, Bilgin

Published
2014
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27. GATA4 Mutations Are a Cause of Neonatal and Childhood-Onset Diabetes

Author

Shaw-Smith, Charles, De Franco, Elisa, Lango Allen, Hana, Batlle, Marta, Flanagan, Sarah E., Borowiec, Maciej, Taplin, Craig E., van Alfen-van der Velden, Janiëlle, Cruz-Rojo, Jaime, Perez de Nanclares, Guiomar, Miedzybrodzka, Zosia, Deja, Grazyna, Wlodarska, Iwona, Mlynarski, Wojciech, Ferrer, Jorge, Hattersley, Andrew T., and Ellard, Sian

Published
2014
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28. Clinical and molecular characteristics of infantileonset diabetes mellitus in Egypt.

Author

Abdelmeguid, Yasmine, Mowafy, Ehsan Wafa, Marzouk, Iman, De Franco, Elisa, and Elsayed, Shaymaa

Subjects
DIABETES, CHILDREN'S hospitals, GENETIC counseling, POTASSIUM channels, ETIOLOGY of diabetes
Abstract

Purpose: In patients diagnosed with diabetes mellitus (DM) before the age of 12 months, there is an increasing recognition of diabetes caused by single-gene mutations, also known as monogenic diabetes of infancy or neonatal DM (NDM). This study aimed to classify patients at Alexandria University Children's Hospital (AUCH) diagnosed with infantile-onset DM into type 1 DM (T1DM) or NDM and to detect differences in molecular characteristics of NDM patients at our center in comparison to other countries. Methods: This retrospective/prospective observational study was conducted on 39 patients diagnosed with infantile-onset DM (age of onset =1 year) at AUCH from January 2003 to November 2020. The patients were divided into 2 groups according to age at the onset of DM: =6 months and >6-12 months. Molecular testing was done in patients diagnosed with DM at =6 months and those with negative autoantibodies. Results: Twelve patients were diagnosed with DM at age =6 months and 27 patients were diagnosed between 6-12 months. Seventeen patients (43.6%) had T1DM, whereas 9 patients (23.1%) had genetically confirmed NDM, including 3 harboring novel mutations. The most common genetic causes of NDM were EIF2AK3 mutations (n=3), followed by KCNJ11 (n=2) and ABCC8 (n=2). Other mutations included SLC19A2 (n=1) and INS (n=1). Three patients with potassium ATP channel mutations were transferred from insulin to sulfonylurea treatment. Conclusion: It is essential to identify patients with NDM clinically and confirm the diagnosis by molecular testing to distinguish them from T1DM as it helps in refining their management, predicting prognosis, and guiding genetic counseling. [ABSTRACT FROM AUTHOR]

Published
2022
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29. Congenital beta cell defects are not associated with markers of islet autoimmunity, even in the context of high genetic risk for type 1 diabetes.

Author

Wyatt, Rebecca C., Hagopian, William A., Roep, Bart O., Patel, Kashyap A., Resnick, Brittany, Dobbs, Rebecca, Hudson, Michelle, De Franco, Elisa, Ellard, Sian, Flanagan, Sarah E., Hattersley, Andrew T., Oram, Richard A., and Johnson, Matthew B.

Abstract

Aims/hypothesis: A key unanswered question in type 1 diabetes is whether beta cells initiate their own destruction or are victims of an aberrant immune response (beta cell suicide or homicide?). To investigate this, we assessed islet autoantibodies in individuals with congenital beta cell defects causing neonatal diabetes mellitus (NDM). Methods: We measured autoantibodies to GAD (GADA), islet antigen-2 (IA-2A) and zinc transporter 8 (ZnT8A) in 242 individuals with NDM (median age diagnosed 1.8 months [IQR 0.39–2.9 months]; median age collected 4.6 months [IQR 1.8–27.6 months]; median diabetes duration 2 months [IQR 0.6–23 months]), including 75 whose NDM resulted from severe beta cell endoplasmic reticulum (ER) stress. As a control cohort we also tested samples from 69 diabetes-free individuals (median age collected 9.9 months [IQR 9.0–48.6 months]) for autoantibodies. Results: We found low prevalence of islet autoantibodies in individuals with monogenic NDM; 13/242 (5.4% [95% CI 2.9, 9.0%]) had detectable GADA, IA-2A and/or ZnT8A. This was similar to the proportion in the control participants who did not have diabetes (1/69 positive [1.4%, 95% CI 0.03, 7.8%], p=0.3). Importantly, monogenic individuals with beta cell ER stress had a similar rate of GADA/IA-2A/ZnT8A positivity to non-ER stress aetiologies (2.7% [95% CI 0.3, 9.3%] vs 6.6% [95% CI 3.3, 11.5%] p=0.4). We observed no association between islet autoimmunity and genetic risk, age at testing (including 30 individuals >10 years at testing) or diabetes duration (p>0.4 for all). Conclusions/interpretation: Our data support the hypothesis that beta cell stress/dysfunction alone does not lead to the production of islet autoantibodies, even in the context of high-risk HLA types. This suggests that additional factors are required to trigger an autoimmune response towards beta cells. [ABSTRACT FROM AUTHOR]

Published
2022
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31. Genetic Etiology of Neonatal Diabetes Mellitus in Vietnamese Infants and Characteristics of Those With INS Gene Mutations.

Author

Ngoc, Can Thi Bich, Dung, Vu Chi, De Franco, Elisa, Lan, Nguyen Ngoc, Thao, Bui Phuong, Khanh, Nguyen Ngoc, Flanagan, Sarah E., Craig, Maria E., Hoang, Nguyen Huy, and Dien, Tran Minh

Subjects
ETIOLOGY of diabetes, DIABETES, GENETIC mutation, HYPERGLYCEMIA, MOLECULAR genetics, INFANTS
Abstract

Background: Neonatal diabetes mellitus (NDM) is a rare (1:90,000 newborns) but potentially devastating metabolic disorder characterized by hyperglycemia combined with low levels of insulin. Dominantly-acting insulin (INS) gene mutations cause permanent NDM through single amino acid changes in the protein sequence leading to protein misfolding, which is retained within the endoplasmic reticulum (ER), causing ER stress and β-cell apoptosis. Over 90 dominantly-acting INS gene mutations have been identified in individuals with permanent NDM. Patients and Methods: The study included 70 infants diagnosed with NDM in the first year of life between May 2008 and May 2021 at the Vietnam National Children's Hospital. Sequencing analysis of all the genes known to cause NDM was performed at the Exeter Genomic Laboratory, UK. Clinical characteristics, molecular genetics, and annual data relating to glycemic control (HbA1c) and severe hypoglycemia of those with INS mutations were collected. The main outcomes of interest were HbA1c, daily insulin dose, growth, and cognitive/motor development. Results: Fifty-five of 70 infants (78.5%) with NDM harbored a mutation in a known disease-causing gene and of these, 10 had six different de novo heterozygous INS mutations. Mean gestational age was 38.1 ± 2.5 weeks and mean birth weight was 2.8 ± 0.5 g. They presented with NDM at 20 ± 17 weeks of age; 6/10 had diabetic ketoacidosis with pH 7.13 ± 0.26; plasma glucose level 32.6 ± 14.3 mmol/l and HbA1C 81 ± 15% mmol/mol. After 5.5 ± 4.8 years of insulin treatment, 9/10 have normal development with a developmental quotient of 80-100% and HbA1C 64 ± 7.3 mmol/mol, 9/10 have normal height, weight, and BMI on follow-up. Conclusions: We report a series of Vietnamese NDM cases with dominant INS mutations. INS mutations are the third commonest cause of permanent NDM. We recommend screening of the INS gene in all children diagnosed with diabetes in the first year of life. [ABSTRACT FROM AUTHOR]

Published
2022
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32. Case Report: Extended Clinical Spectrum of the Neonatal Diabetes With Congenital Hypothyroidism Syndrome.

Author

Splittstoesser, Vera, Vollbach, Heike, Plamper, Michaela, Garbe, Werner, De Franco, Elisa, Houghton, Jayne A. L., Dueker, Gesche, Ganschow, Rainer, Gohlke, Bettina, and Schreiner, Felix

Subjects
EXOCRINE pancreatic insufficiency, CONGENITAL hypothyroidism, SYMPTOMS, PANCREATIC enzymes, DEFICIENCY diseases, FETAL hemoglobin, SYNDROMES
Abstract

Background: Neonatal diabetes with congenital hypothyroidism (NDH) syndrome is a rare condition caused by homozygous or compound heterozygous mutations in the GLI-similar 3 coding gene GLIS3. Almost 20 patients have been reported to date, with significant phenotypic variability. Case presentation: We describe a boy with a homozygous deletion (exons 5-9) in the GLIS3 gene, who presents novel clinical aspects not reported previously. In addition to neonatal diabetes, congenital hypothyroidism and other known multi-organ manifestations such as cholestasis and renal cysts, he suffered from hyporegenerative anemia during the first four months of life and presents megalocornea in the absence of elevated intraocular pressure. Compensation of partial exocrine pancreatic insufficiency and deficiencies in antioxidative vitamins seemed to have exerted marked beneficial impact on several disease symptoms including cholestasis and TSH resistance, although a causal relation is difficult to prove. Considering reports on persistent fetal hemoglobin detected in a few children with GLIS3 mutations, the transient anemia seen in our patient may represent a further symptom associated with either the GLIS3 defect itself or, secondarily, micronutrient deficiency related to exocrine pancreatic deficiency or cholestasis. Conclusions: Our report expands the phenotypic spectrum of patients with GLIS3 mutations and adds important information on the clinical course, highlighting the possible beneficial effects of pancreatic enzyme and antioxidative vitamin substitutions on characteristic NDH syndrome manifestations such as TSH resistance and cholestasis. We recommend to carefully screen infants with GLIS3 mutations for subtle biochemical signs of partial exocrine pancreatic deficiency or to discuss exploratory administration of pancreatic enzymes and antioxidative vitamins, even in case of good weight gain and fecal elastase concentrations in the low-to-normal range. [ABSTRACT FROM AUTHOR]

Published
2022
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33. SavvyCNV: Genome-wide CNV calling from off-target reads.

Author

Laver, Thomas W., De Franco, Elisa, Johnson, Matthew B., Patel, Kashyap A., Ellard, Sian, Weedon, Michael N., Flanagan, Sarah E., and Wakeling, Matthew N.

Subjects
*DNA copy number variations, *GENETIC variation, *GENETIC testing
Abstract

Identifying copy number variants (CNVs) can provide diagnoses to patients and provide important biological insights into human health and disease. Current exome and targeted sequencing approaches cannot detect clinically and biologically-relevant CNVs outside their target area. We present SavvyCNV, a tool which uses off-target read data from exome and targeted sequencing data to call germline CNVs genome-wide. Up to 70% of sequencing reads from exome and targeted sequencing fall outside the targeted regions. We have developed a new tool, SavvyCNV, to exploit this 'free data' to call CNVs across the genome. We benchmarked SavvyCNV against five state-of-the-art CNV callers using truth sets generated from genome sequencing data and Multiplex Ligation-dependent Probe Amplification assays. SavvyCNV called CNVs with high precision and recall, outperforming the five other tools at calling CNVs genome-wide, using off-target or on-target reads from targeted panel and exome sequencing. We then applied SavvyCNV to clinical samples sequenced using a targeted panel and were able to call previously undetected clinically-relevant CNVs, highlighting the utility of this tool within the diagnostic setting. SavvyCNV outperforms existing tools for calling CNVs from off-target reads. It can call CNVs genome-wide from targeted panel and exome data, increasing the utility and diagnostic yield of these tests. SavvyCNV is freely available at https://github.com/rdemolgen/SavvySuite. Author summary: We have created SavvyCNV, a new tool for calling genetic variants. Large regions of the genome can be deleted or duplicated–these variants can have important consequences, for example causing a patient's genetic disease. However, many standard genetic tests only target a small fraction of the genome and will miss variants outside of these regions. Therefore, we developed a tool to exploit sequencing data which falls outside of these regions (due to flaws in the targeting process) to call large deletions and duplications. This allows large deletions and duplications to be detected anywhere in the genome. Researchers and diagnostic laboratories can use this tool to discover more genetic variants by re-analysing their sequencing data. [ABSTRACT FROM AUTHOR]

Published
2022
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34. Molecular Genetics, Clinical Characteristics, and Treatment Outcomes of KATP-Channel Neonatal Diabetes Mellitus in Vietnam National Children's Hospital.

Author

Ngoc, Can Thi Bich, Dien, Tran Minh, De Franco, Elisa, Ellard, Sian, Houghton, Jayne A. L., Lan, Nguyen Ngoc, Thao, Bui Phuong, Khanh, Nguyen Ngoc, Flanagan, Sarah E., Craig, Maria E., and Dung, Vu Chi

Subjects
TYPE 2 diabetes, CHILDREN'S hospitals, MOLECULAR genetics, DIABETES, LOW birth weight, GLYCEMIC control
Abstract

Background: Neonatal diabetes mellitus (NDM) is defined as insulin-requiring persistent hyperglycemia occurring within the first 6 months of life, which can result from mutations in at least 25 different genes. Activating heterozygous mutations in genes encoding either of the subunits of the ATP-sensitive K+ channel (KATP channel; KCNJ11 or ABCC8) of the pancreatic beta cell are the most common cause of permanent NDM and the second most common cause of transient NDM. Patients with NDM caused by KATP channel mutations are sensitive to sulfonylurea (SU) treatment; therefore, their clinical management can be improved by replacing insulin with oral agents. Patients and Methods: Seventy patients were diagnosed with NDM between May 2008 and May 2021 at Vietnam National Children's Hospital, and molecular genetic testing for all genes known to cause NDM was performed at the Exeter Genomic Laboratory, UK. Patients with ABCC8 or KCNJ11 mutations were transferred from insulin to oral SU. Clinical characteristics, molecular genetics, and annual data relating to glycemic control, SU dose, severe hypoglycemia, and side effects were collected. The main outcomes of interest were SU dose, SU failure (defined as permanent reintroduction of daily insulin), and glycemic control (HbA1c). Results: Fifty-four of 70 patients (77%) with NDM harbored a genetic mutation and of these; 27 (50%) had activating heterozygous mutations in ABCC8 or KCNJ11. A total of 21 pathogenic mutations were identified in the 27 patients, including 13 mutations in ABCC8 and 8 mutations in KCNJ11. Overall, 51% had low birth weight (below 3rd percentile), 23 (85%) were diagnosed before 3 months of age, and 23 (85%) presented with diabetic ketoacidosis. At diagnosis, clinical and biochemical findings (mean ± SD) were pH 7.16 ± 0.16; HC O 3 − , 7.9 ± 7.4 mmol/L; BE, −17.9 ± 9.1 mmol/L; HbA1C, 7.98% ± 2.93%; blood glucose, 36.2 ± 12.3 mmol/L; and C-peptide median, 0.09 (range, 0–1.61 nmol/l). Twenty-six patients were successfully transferred from insulin to SU therapy. In the remaining case, remission of diabetes occurred prior to transfer. Glycemic control on SU treatment was better than on insulin treatment: HbA1c and blood glucose level decreased from 7.58% ± 4.63% and 19.04 ± 14.09 mmol/L when treated with insulin to 5.8 ± 0.94% and 6.87 ± 3.46 mmol/L when treated with SU, respectively. Conclusions: This is the first case series of NDM patients with ABCC8/KCNJ11 mutations reported in Vietnam. SU is safe in the short term for these patients and more effective than insulin therapy, consistent with all studies to date. This is relevant for populations where access to and cost of insulin are problematic, reinforcing the importance of genetic testing for NDM. [ABSTRACT FROM AUTHOR]

Published
2021
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35. Identification of GCK‐maturity‐onset diabetes of the young in cases of neonatal hyperglycemia: A case series and review of clinical features.

Author

Hughes, Alice E., De Franco, Elisa, Globa, Evgenia, Zelinska, Nataliya, Hilgard, Dörte, Sifianou, Popi, Hattersley, Andrew T., and Flanagan, Sarah E.

Subjects
*MATURITY onset diabetes of the young, *HYPERGLYCEMIA, *COUNSELING, *CHILDREN
Abstract

Heterozygous mutations in GCK result in a persistent, mildly raised glucose from birth, but it is usually diagnosed in adulthood as maturity‐onset diabetes of the young (MODY), where hyperglycemia is often an incidental finding. The hyperglycemia of GCK‐MODY is benign and does not require treatment, but is important to be aware of, particularly in females where it has implications for managing pregnancy. We present three cases of neonatal hyperglycemia resulting from a heterozygous mutation in GCK, illustrating its clinical presentation and evolution in early life. In summary, as with adults, neonatal hyperglycemia is an incidental finding, does not require treatment and has no adverse consequences for health. Neonates and their parents should be referred for genetic testing to confirm the diagnosis, avoid a label of diabetes and enable pregnancy counseling for females found to be affected. [ABSTRACT FROM AUTHOR]

Published
2021
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36. Monogenic diabetes in Pakistani infants and children: challenges in a resource poor country.

Author

Ibrahim, Mohsina Noor, Laghari, Taj Muhammad, Riaz, Miara, Khoso, Zubair, Khan, Yasir Naqi, Yasir, Mehar, Hanif, Misbah Iqbal, Flanagan, Sarah E., De Franco, Elisa, and Raza, Jamal

Abstract

To review the data of infants and children with suspected monogenic diabetes who underwent genetic testing. Monogenic diabetes is a rare form of diabetes resulting from mutations in a single gene. It can be caused by dominant as well as recessive modes of inheritance. In a country like Pakistan where interfamily marriages are common the incidence of genetic disorders is increased. As Pakistan a resource-poor country, the diagnosis of insulin-dependent diabetes is often delayed and a genetic diagnosis of monogenic diabetes is extremely difficult. Children with clinical diagnosis of monogenic and syndromic diabates were recruited and blood samples were sent for genetic analysis. One thousand sixty four new cases diagnosed with type 1 diabetes were registered at the National Institute of Child Health, Karachi, in the last 10 years. Of these 39 patients were selected for genetic testing who were diagnosed with diabetes/had a sibling diagnosed with diabetes before the age of nine months (n = 27) or had extra pancreatic features (n= 12). We identified mutations in 18/27 cases diagnosed with diabetes before nine months of age. The most common genetic subtype was WolcottRallison syndrome caused by EIF2AK3 mutations (seven cases). KCNJ11 mutations were identified in two cases, ABCC8mutations were identified in four cases from three families, GCK and INS mutations were each identified in two cases, and one SLC2A2 mutation was identified in one case. A genetic diagnosis was made in 12/12 children from six families with diabetes diagnosed after the age of nine months who had extrapancreatic features. Six patients had genetically confirmed Wolfram syndrome (WFS1), three had thiamine-responsive megaloblastic anemia (SLC19A2) and three were diagnosed with histocytosis lymphadenopathy plus syndrome (SLC29A3). Genetic testing is essential to confirm a diagnosis of monogenic diabetes which guides clinical management and future counselling. Our study highlights the importance of diagnosing monogenic diabetes in the largely consanguineously-married population of Pakistan. [ABSTRACT FROM AUTHOR]

Published
2021
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37. Case Report: Neonatal Diabetes Mellitus Caused by a Novel GLIS3 Mutation in Twins.

Author

London, Shira, De Franco, Elisa, Elias-Assad, Ghadir, Barhoum, Marie Noufi, Felszer, Clari, Paniakov, Marina, Weiner, Scott A., and Tenenbaum-Rakover, Yardena

Subjects
ETIOLOGY of diabetes, CONGENITAL hypothyroidism, DIABETES, TYPE 2 diabetes, INSULIN pumps, CONGENITAL glaucoma, CYSTIC kidney disease
Abstract

Background: Mutations in GLIS3 cause a rare syndrome characterized by neonatal diabetes mellitus (NDM), congenital hypothyroidism, congenital glaucoma and cystic kidneys. To date, 14 mutations in GLIS3 have been reported, inherited in an autosomal recessive manner. GLIS3 is a key transcription factor involved in β-cell development, insulin expression, and development of the thyroid, eyes, liver and kidneys. Cases: We describe non-identical twins born to consanguineous parents presenting with NDM, congenital hypothyroidism, congenital glaucoma, hepatic cholestasis, cystic kidney and delayed psychomotor development. Sequence analysis of GLIS3 identified a novel homozygous nonsense mutation, c.2392C>T, p.Gln798Ter (p.Q798*), which results in an early stop codon. The diabetes was treated with a continuous subcutaneous insulin infusion pump and continuous glucose monitoring. Fluctuating blood glucose and intermittent hypoglycemia were observed on follow-up. Conclusions: This report highlights the importance of early molecular diagnosis for appropriate management of NDM. We describe a novel nonsense mutation of GLIS3 causing NDM, extend the phenotype, and discuss the challenges in clinical management. Our findings provide new areas for further investigation into the roles of GLIS3 in the pathophysiology of diabetes mellitus. [ABSTRACT FROM AUTHOR]

Published
2021
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38. Pathological β-Cell Endoplasmic Reticulum Stress in Type 2 Diabetes: Current Evidence.

Author

Shrestha, Neha, De Franco, Elisa, Arvan, Peter, and Cnop, Miriam

Subjects
ENDOPLASMIC reticulum, TYPE 2 diabetes, UNFOLDED protein response, HEAT shock proteins, SURVIVAL analysis (Biometry)
Abstract

The notion that in diabetes pancreatic β-cells express endoplasmic reticulum (ER) stress markers indicative of increased unfolded protein response (UPR) signaling is no longer in doubt. However, what remains controversial is whether this increase in ER stress response actually contributes importantly to the β-cell failure of type 2 diabetes (akin to 'terminal UPR'), or whether it represents a coping mechanism that represents the best attempt of β-cells to adapt to changes in metabolic demands as presented by disease progression. Here an intercontinental group of experts review evidence for the role of ER stress in monogenic and type 2 diabetes in an attempt to reconcile these disparate views. Current evidence implies that pancreatic β-cells require a regulated UPR for their development, function and survival, as well as to maintain cellular homeostasis in response to protein misfolding stress. Prolonged ER stress signaling, however, can be detrimental to β-cells, highlighting the importance of "optimal" UPR for ER homeostasis, β-cell function and survival. [ABSTRACT FROM AUTHOR]

Published
2021
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39. Case Report: Extended Clinical Spectrum of the Neonatal Diabetes With Congenital Hypothyroidism Syndrome.

Author

Splittstoesser, Vera, Vollbach, Heike, Plamper, Michaela, Garbe, Werner, De Franco, Elisa, Houghton, Jayne A. L., Dueker, Gesche, Ganschow, Rainer, Gohlke, Bettina, and Schreiner, Felix

Subjects
EXOCRINE pancreatic insufficiency, CONGENITAL hypothyroidism, SYMPTOMS, PANCREATIC enzymes, FETAL hemoglobin, SYNDROMES, DEFICIENCY diseases
Abstract

Background: Neonatal diabetes with congenital hypothyroidism (NDH) syndrome is a rare condition caused by homozygous or compound heterozygous mutations in the GLI-similar 3 coding gene GLIS3. Almost 20 patients have been reported to date, with significant phenotypic variability. Case presentation: We describe a boy with a homozygous deletion (exons 5-9) in the GLIS3 gene, who presents novel clinical aspects not reported previously. In addition to neonatal diabetes, congenital hypothyroidism and other known multi-organ manifestations such as cholestasis and renal cysts, he suffered from hyporegenerative anemia during the first four months of life and presents megalocornea in the absence of elevated intraocular pressure. Compensation of partial exocrine pancreatic insufficiency and deficiencies in antioxidative vitamins seemed to have exerted marked beneficial impact on several disease symptoms including cholestasis and TSH resistance, although a causal relation is difficult to prove. Considering reports on persistent fetal hemoglobin detected in a few children with GLIS3 mutations, the transient anemia seen in our patient may represent a further symptom associated with either the GLIS3 defect itself or, secondarily, micronutrient deficiency related to exocrine pancreatic deficiency or cholestasis. Conclusions: Our report expands the phenotypic spectrum of patients with GLIS3 mutations and adds important information on the clinical course, highlighting the possible beneficial effects of pancreatic enzyme and antioxidative vitamin substitutions on characteristic NDH syndrome manifestations such as TSH resistance and cholestasis. We recommend to carefully screen infants with GLIS3 mutations for subtle biochemical signs of partial exocrine pancreatic deficiency or to discuss exploratory administration of pancreatic enzymes and antioxidative vitamins, even in case of good weight gain and fecal elastase concentrations in the low-to-normal range. [ABSTRACT FROM AUTHOR]

Published
2021
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40. Genotype and Phenotype Heterogeneity in Neonatal Diabetes: A Single Centre Experience in Turkey.

Author

Öngen, Yasemin Denkboy, Eren, Erdal, Demirbaş, Özgecan, Sobu, Elif, Ellard, Sian, De Franco, Elisa, and Tarım, Ömer

Subjects
GENETIC mutation, GLYCEMIC control, DIABETES, TERTIARY care, RETROSPECTIVE studies, SULFONYLUREAS, GENOTYPES, DESCRIPTIVE statistics, PHENOTYPES, C-peptide
Abstract

Objective: Neonatal diabetes mellitus (NDM) may be transient or permanent, and the majority is caused by genetic mutations. Early diagnosis is essential to select the patients who will respond to oral treatment. In this investigation, we aimed to present the phenotype and genotype of our patients with NDM and share our experience in a single tertiary center. Methods: A total of 16 NDM patients from 12 unrelated families are included in the study. The clinical presentation, age at diagnosis, perinatal and family history, consanguinity, gender, hemoglobin A1c, C-peptide, insulin, insulin autoantibodies, genetic mutations, and response to treatment are retrospectively evaluated. Results: The median age at diagnosis of diabetes was five months (4 days-18 months) although six patients with a confirmed genetic diagnosis were diagnosed >6 months. Three patients had KCNJ11 mutations, six had ABCC8 mutations, three had EIF2AK3 mutations, and one had a de novo INS mutation. All the permanent NDM patients with KCNJ11 and ABCC8 mutations were started on sulfonylurea treatment resulting in a significant increase in C-peptide level, better glycemic control, and discontinuation of insulin. Conclusion: Although NDM is defined as diabetes diagnosed during the first six months of life, and a diagnosis of type 1 diabetes is more common between the ages of 6 and 24 months, in rare cases NDM may present as late as 12 or even 24 months of age. Molecular diagnosis in NDM is important for planning treatment and predicting prognosis. Therefore, genetic testing is essential in these patients. [ABSTRACT FROM AUTHOR]

Published
2021
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41. Transient neonatal diabetes due to a disease causing novel variant in the ATP-binding cassette subfamily C member 8 (ABCC8) gene unmasks maturity-onset diabetes of the young (MODY) diabetes cases within a family.

Author

Giannopoulou, Eleni Z, Ovcarov, Olga, De Franco, Elisa, Kassberger, Fabian, Nusser, Susanne, Otto, Marie Celine, Denzer, Christian, and Wabitsch, Martin

Abstract

Neonatal diabetes mellitus (NDM) is a rare monogenic diabetes form, occurring mainly from ATP-binding cassette subfamily C member 8 (ABCC8) and KCNJ11 mutations. ABCC8 mutations have also been found to cause adult-onset diabetes. What is new?: •Novel ABCC8 mutation in an NDM case •Heterogeneous clinical presentation of diabetes and response to sulfonylurea therapy among family members with the same ABCC8 mutation. We report the case of a newborn with NDM and a heterozygous ABCC8 novel variant (c.3835G>A), successfully treated with sulfonylurea. The same ABCC8 variant was found in two other family members, already treated for type 2 diabetes. This case demonstrates the variable phenotypic presentation of diabetes due to a novel ABCC8 mutation (c.3835G>A), ranging from transient NDM to adult-onset, insulin-demanding diabetes, among family members. Genetic testing in young individuals with a strong family history of diabetes, presenting with non-autoimmune diabetes is recommended as it can determine prognosis and treatment of affected family members. [ABSTRACT FROM AUTHOR]

Published
2021
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42. Long-term Follow-up of Glycemic and Neurological Outcomes in an International Series of Patients With Sulfonylurea-Treated Permanent Neonatal Diabetes.

Author

Bowman, Pamela, Mathews, Frances, Barbetti, Fabrizio, Shepherd, Maggie H., Sanchez, Janine, Piccini, Barbara, Beltrand, Jacques, Letourneau-Freiberg, Lisa R., Polak, Michel, Greeley, Siri Atma W., Rawlins, Eamon, Babiker, Tarig, Thomas, Nicholas J., De Franco, Elisa, Ellard, Sian, Flanagan, Sarah E., Hattersley, Andrew T., Mohsin, Fauzia, Cummings, Elizabeth, and LeGault, Laurent

Subjects
METABOLIC regulation, GLYCEMIC control, ATTENTION-deficit hyperactivity disorder, NEURODEVELOPMENTAL treatment, DIABETES, RESEARCH, GENETIC mutation, RESEARCH methodology, POTASSIUM, HYPOGLYCEMIC agents, MEDICAL cooperation, EVALUATION research, COMPARATIVE studies, RESEARCH funding, LONGITUDINAL method
Abstract

Objective: ABCC8 mutations cause neonatal diabetes mellitus that can be transient (TNDM) or, less commonly, permanent (PNDM); ∼90% of individuals can be treated with oral sulfonylureas instead of insulin. Previous studies suggested that people with ABCC8-PNDM require lower sulfonylurea doses and have milder neurological features than those with KCNJ11-PNDM. However, these studies were short-term and included combinations of ABCC8-PNDM and ABCC8-TNDM. We aimed to assess the long-term glycemic and neurological outcomes in sulfonylurea-treated ABCC8-PNDM.Research Design and Methods: We studied all 24 individuals with ABCC8-PNDM diagnosed in the U.K., Italy, France, and U.S. known to transfer from insulin to sulfonylureas before May 2010. Data on glycemic control, sulfonylurea dose, adverse effects including hypoglycemia, and neurological features were analyzed using nonparametric statistical methods.Results: Long-term data were obtained for 21 of 24 individuals (median follow-up 10.0 [range 4.1-13.2] years). Eighteen of 21 remained on sulfonylureas without insulin at the most recent follow-up. Glycemic control improved on sulfonylureas (presulfonylurea vs. 1-year posttransfer HbA1c 7.2% vs. 5.7%, P = 0.0004) and remained excellent long-term (1-year vs. 10-year HbA1c 5.7% vs. 6.5%, P = 0.04), n = 16. Relatively high doses were used (1-year vs. 10-year dose 0.37 vs. 0.25 mg/kg/day glyburide, P = 0.50) without any severe hypoglycemia. Neurological features were reported in 13 of 21 individuals; these improved following sulfonylurea transfer in 7 of 13. The most common features were learning difficulties (52%), developmental delay (48%), and attention deficit hyperactivity disorder (38%).Conclusions: Sulfonylurea treatment of ABCC8-PNDM results in excellent long-term glycemic control. Overt neurological features frequently occur and may improve with sulfonylureas, supporting early, rapid genetic testing to guide appropriate treatment and neurodevelopmental assessment. [ABSTRACT FROM AUTHOR]

Published
2021
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43. Clinical Characteristics, Molecular Features, and Long-Term Follow-Up of 15 Patients with Neonatal Diabetes: A Single-Centre Experience.

Author

Abali, Zehra Yavas, De Franco, Elisa, Karakilic Ozturan, Esin, Poyrazoglu, Sukran, Bundak, Ruveyde, Bas, Firdevs, Flanagan, Sarah E., and Darendeliler, Feyza

Subjects
*PEOPLE with diabetes, *CONSANGUINITY, *METABOLIC regulation, *BLOOD sugar, *DIAGNOSIS
Abstract

Background: Diabetes diagnosed within the first 6 months of life is defined as neonatal diabetes mellitus (NDM). Mutations in the KCNJ11, ABCC8, and INS genes are the most common cause of permanent NDM. In populations with a high rate of consanguinity, Wolcott-Rallison syndrome caused by biallelic EIF2AK3 mutations is common. Methods: We studied the clinical characteristics and underlying genetic cause of disease in 15 individuals with diabetes onset before 6 months of age as defined by sustained hyperglycaemia requiring insulin treatment. Patients who had a remission of the diabetes, defined by a normal blood glucose and HbA1c value without insulin or sulphonylurea (SU) treatment, within the first 18 months of life were classified as having transient NDM (TNDM). Results: We report 15 patients with NDM from 14 unrelated families, including 10 with reported parental consanguinity. 1/15 patients had a remission of diabetes, leading to a diagnosis of TNDM. Mutations were detected in 80% (n = 12/15) of the cohort (ABCC8 [n = 4], PTF1A-distal enhancer [n = 3], KCNJ11 [n = 2], EIF2AK3 [n = 1], INS [n = 1], and SLC19A2 [n = 1]). All cases were initially treated with multiple dose insulin injections. One patient with an ABCC8 mutation transitioned from insulin to SU resulting in improved metabolic control at the age of 20 years. Conclusion: Although the number of individuals born to consanguineous parents was considerably high in this cohort, KATP channel mutations (ABCC8/KCNJ11) were more common than EIF2AK3 mutations (n = 6 vs. n = 1). Genetic analyses should be performed in all NDM cases due to the potential impact on treatment and prognosis. [ABSTRACT FROM AUTHOR]

Published
2020
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44. Type 1 diabetes can present before the age of 6 months and is characterised by autoimmunity and rapid loss of beta cells.

Author

Johnson, Matthew B., Patel, Kashyap A., De Franco, Elisa, Hagopian, William, Killian, Michael, McDonald, Timothy J., Tree, Timothy I. M., Domingo-Vila, Clara, Hudson, Michelle, Hammersley, Suzanne, Dobbs, Rebecca, Ellard, Sian, Flanagan, Sarah E., Hattersley, Andrew T., and Oram, Richard A.

Abstract

Aims/hypothesis: Diabetes diagnosed at <6 months of age is usually monogenic. However, 10–15% of affected infants do not have a pathogenic variant in one of the 26 known neonatal diabetes genes. We characterised infants diagnosed at <6 months of age without a pathogenic variant to assess whether polygenic type 1 diabetes could arise at early ages. Methods: We studied 166 infants diagnosed with type 1 diabetes at <6 months of age in whom pathogenic variants in all 26 known genes had been excluded and compared them with infants with monogenic neonatal diabetes (n = 164) or children with type 1 diabetes diagnosed at 6–24 months of age (n = 152). We assessed the type 1 diabetes genetic risk score (T1D-GRS), islet autoantibodies, C-peptide and clinical features. Results: We found an excess of infants with high T1D-GRS: 38% (63/166) had a T1D-GRS >95th centile of healthy individuals, whereas 5% (8/166) would be expected if all were monogenic (p < 0.0001). Individuals with a high T1D-GRS had a similar rate of autoantibody positivity to that seen in individuals with type 1 diabetes diagnosed at 6–24 months of age (41% vs 58%, p = 0.2), and had markedly reduced C-peptide levels (median <3 pmol/l within 1 year of diagnosis), reflecting rapid loss of insulin secretion. These individuals also had reduced birthweights (median z score −0.89), which were lowest in those diagnosed with type 1 diabetes at <3 months of age (median z score −1.98). Conclusions/interpretation: We provide strong evidence that type 1 diabetes can present before the age of 6 months based on individuals with this extremely early-onset diabetes subtype having the classic features of childhood type 1 diabetes: high genetic risk, autoimmunity and rapid beta cell loss. The early-onset association with reduced birthweight raises the possibility that for some individuals there was reduced insulin secretion in utero. Comprehensive genetic testing for all neonatal diabetes genes remains essential for all individuals diagnosed with diabetes at <6 months of age. [ABSTRACT FROM AUTHOR]

Published
2020
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45. HNRNPH1‐related syndromic intellectual disability: Seven additional cases suggestive of a distinct syndromic neurodevelopmental syndrome.

Author

Reichert, Sara C., Li, Rachel, Turner, Scott, Jaarsveld, Richard H., Massink, Maarten P.G., Boogaard, Marie‐José H., Toro, Mireia, Rodríguez‐Palmero, Agustí, Fourcade, Stéphane, Schlüter, Agatha, Planas‐Serra, Laura, Pujol, Aurora, Iascone, Maria, Maitz, Silvia, Loong, Lucy, Stewart, Helen, De Franco, Elisa, Ellard, Sian, Frank, Julie, and Lewandowski, Raymond

Subjects
INTELLECTUAL disabilities, BRAIN abnormalities, CONGENITAL disorders, SYNDROMES, AGENESIS of corpus callosum, HUMAN abnormalities, RECESSIVE genes
Abstract

Pathogenic variants in HNRNPH1 were first reported in 2018. The reported individual, a 13 year old boy with a c.616C>T (p.R206W) variant in the HNRNPH1 gene, was noted to have overlapping symptoms with those observed in HNRNPH2‐related X‐linked intellectual disability, Bain type (MRXSB), specifically intellectual disability and dysmorphic features. While HNRNPH1 variants were initially proposed to represent an autosomal cause of MRXSB, we report an additional seven cases which identify phenotypic differences from MRXSB. Patients with HNRNPH1 pathogenic variants diagnosed via WES were identified using clinical networks and GeneMatcher. Features unique to individuals with HNRNPH1 variants include distinctive dysmorphic facial features; an increased incidence of congenital anomalies including cranial and brain abnormalities, genitourinary malformations, and palate abnormalities; increased incidence of ophthalmologic abnormalities; and a decreased incidence of epilepsy and cardiac defects compared to those with MRXSB. This suggests that pathogenic variants in HNRNPH1 result in a related, but distinct syndromic cause of intellectual disability from MRXSB, which we refer to as HNRNPH1‐related syndromic intellectual disability. [ABSTRACT FROM AUTHOR]

Published
2020
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46. Update of variants identified in the pancreatic β‐cell KATP channel genes KCNJ11 and ABCC8 in individuals with congenital hyperinsulinism and diabetes.

Author

De Franco, Elisa, Saint‐Martin, Cécile, Brusgaard, Klaus, Knight Johnson, Amy E., Aguilar‐Bryan, Lydia, Bowman, Pamela, Arnoux, Jean‐Baptiste, Larsen, Annette Rønholt, May, Sanyoura, Greeley, Siri Atma W., Calzada‐León, Raúl, Harman, Bradley, Houghton, Jayne A. L., Nishimura‐Meguro, Elisa, Laver, Thomas W., Ellard, Sian, Gaudio, Daniela, Christesen, Henrik Thybo, Bellanné‐Chantelot, Christine, and Flanagan, Sarah E.

Abstract

The most common genetic cause of neonatal diabetes and hyperinsulinism is pathogenic variants in ABCC8 and KCNJ11. These genes encode the subunits of the β‐cell ATP‐sensitive potassium channel, a key component of the glucose‐stimulated insulin secretion pathway. Mutations in the two genes cause dysregulated insulin secretion; inactivating mutations cause an oversecretion of insulin, leading to congenital hyperinsulinism, whereas activating mutations cause the opposing phenotype, diabetes. This review focuses on variants identified in ABCC8 and KCNJ11, the phenotypic spectrum and the treatment implications for individuals with pathogenic variants. [ABSTRACT FROM AUTHOR]

Published
2020
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47. De Novo Mutations in Affecting eIF2 Signaling Cause Neonatal/Early-Onset Diabetes and Transient Hepatic Dysfunction.

Author

De Franco, Elisa, Caswell, Richard, Johnson, Matthew B., Wakeling, Matthew N., Amnon Zung, Vῦ Chí Dῦng, Cȃ Thi Bích Ngọc, Goonetilleke, Rajiv, Jury, Maritza Vivanco, El-Khateeb, Mohammed, Ellard, Sian, Flanagan, Sarah E., Ron, David, Hattersley, Andrew T., Zung, Amnon, Dũng, Vũ Chí, Bích Ngọc, Cấn Thị, and Vivanco Jury, Maritza

Subjects
*ETIOLOGY of diabetes, *HUMAN chromosome abnormality diagnosis, *CELLULAR control mechanisms, *NUCLEOTIDE sequencing, *GENETIC disorders, *PROTEIN metabolism, *COMPARATIVE studies, *COMPUTER simulation, *DIABETES, *LIVER diseases, *MATHEMATICAL models, *RESEARCH methodology, *MEDICAL cooperation, *GENETIC mutation, *PROTEINS, *RESEARCH, *PHYSIOLOGICAL stress, *DISEASE relapse, *THEORY, *EVALUATION research, *SEQUENCE analysis
Abstract

Permanent neonatal diabetes mellitus (PNDM) is caused by reduced β-cell number or impaired β-cell function. Understanding of the genetic basis of this disorder highlights fundamental β-cell mechanisms. We performed trio genome sequencing for 44 patients with PNDM and their unaffected parents to identify causative de novo variants. Replication studies were performed in 188 patients diagnosed with diabetes before 2 years of age without a genetic diagnosis. EIF2B1 (encoding the eIF2B complex α subunit) was the only gene with novel de novo variants (all missense) in at least three patients. Replication studies identified two further patients with de novo EIF2B1 variants. In addition to having diabetes, four of five patients had hepatitis-like episodes in childhood. The EIF2B1 de novo mutations were found to map to the same protein surface. We propose that these variants render the eIF2B complex insensitive to eIF2 phosphorylation, which occurs under stress conditions and triggers expression of stress response genes. Failure of eIF2B to sense eIF2 phosphorylation likely leads to unregulated unfolded protein response and cell death. Our results establish de novo EIF2B1 mutations as a novel cause of permanent diabetes and liver dysfunction. These findings confirm the importance of cell stress regulation for β-cells and highlight EIF2B1's fundamental role within this pathway. [ABSTRACT FROM AUTHOR]

Published
2020
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48. Trisomy 21 Is a Cause of Permanent Neonatal Diabetes That Is Autoimmune but Not HLA Associated.

Author

Johnson, Matthew B., De Franco, Elisa, Greeley, Siri Atma W., Letourneau, Lisa R., Gillespie, Kathleen M., Wakeling, Matthew N., Ellard, Sian, Flanagan, Sarah E., Patel, Kashyap A., Hattersley, Andrew T., and International DS-PNDM Consortium

Subjects
*DOWN syndrome, *TRISOMY 18 syndrome, *TYPE 1 diabetes, *DIABETES in children, *DIABETES, *COMPARATIVE studies, *RESEARCH methodology, *MEDICAL cooperation, *GENETIC mutation, *RESEARCH, *EVALUATION research, *SEQUENCE analysis, *DISEASE complications, PEOPLE with Down syndrome
Abstract

Identifying new causes of permanent neonatal diabetes (PNDM) (diagnosis <6 months) provides important insights into β-cell biology. Patients with Down syndrome (DS) resulting from trisomy 21 are four times more likely to have childhood diabetes with an intermediate HLA association. It is not known whether DS can cause PNDM. We found that trisomy 21 was seven times more likely in our PNDM cohort than in the population (13 of 1,522 = 85 of 10,000 observed vs. 12.6 of 10,000 expected) and none of the 13 DS-PNDM patients had a mutation in the known PNDM genes that explained 82.9% of non-DS PNDM. Islet autoantibodies were present in 4 of 9 DS-PNDM patients, but DS-PNDM was not associated with polygenic susceptibility to type 1 diabetes (T1D). We conclude that trisomy 21 is a cause of autoimmune PNDM that is not HLA associated. We propose that autoimmune diabetes in DS is heterogeneous and includes coincidental T1D that is HLA associated and diabetes caused by trisomy 21 that is not HLA associated. [ABSTRACT FROM AUTHOR]

Published
2019
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49. Practical management in Wolcott‐Rallison syndrome with associated hypothyroidism, neutropenia, and recurrent liver failure: A case report.

Author

Lundgren, Markus, De Franco, Elisa, Arnell, Henrik, and Fischler, Björn

Subjects
*LIVER failure, *EXOCRINE pancreatic insufficiency, *SYNDROMES, *HYPOTHYROIDISM, *DWARFISM, *NEUTROPENIA
Abstract

Key Clinical Message: Wolcott‐Rallison syndrome is a rare genetic syndrome of neonatal diabetes, liver failure, and growth retardation. We present a case with a EIF2AK3 p.(Arg902Ter) mutation, additionally complicated by hypothyroidism, impaired renal function, and exocrine pancreas insufficiency, focusing on clinical management. For its optimization, thorough care of multiple organ systems is needed. [ABSTRACT FROM AUTHOR]

Published
2019
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50. Wolcott-Rallison syndrome in Iran: a common cause of neonatal diabetes.

Author

Asl, Samaneh Noroozi, Vakili, Rahim, Vakili, Saba, Soheilipour, Fahimeh, Hashemipour, Mahin, Ghahramani, Sara, De Franco, Elisa, and Yaghootkar, Hanieh

Abstract

Background: Wolcott-Rallison syndrome is a rare autosomal recessive disorder characterized by neonatal/early-onset non-autoimmune insulin-dependent diabetes, multiple epiphyseal dysphasia and growth retardation. It is caused by mutations in the gene encoding eukaryotic translation initiation factor 2α kinase 3 (EIF2AK3). We aimed to study the clinical characteristics and frequency of the disease in the Iranian population. Methods: We recruited 42 patients who referred to the endocrine and metabolism clinic at Mashhad Imam Reza Hospital with neonatal diabetes. Molecular screening of KCNJ11, INS, ABCC8 and EIF2AK3 was performed at the Exeter Molecular Genetics Laboratory, UK. We calculated the frequency of the disease in 124 patients referred from Iran to the Exeter Molecular Genetics Laboratory for genetic screening and compared it to other countries worldwide. Results: We identified seven patients as having Wolcott-Rallison syndrome. Genetic testing confirmed the clinical diagnosis and indicated five novel mutations. Only two patients developed clinical features of the syndrome by 6 months of age. Of all 124 cases of Iranian neonatal diabetes referred to the Exeter Molecular Genetics Laboratory for genetic screening, 28 patients (22.58%) had a recessive mutation in EIF2AK3. Conclusions: The results of this study raises awareness of the condition and provides further accurate data on the genetic and clinical presentation of Wolcott-Rallison syndrome in the Iranian population. Our study highlights the importance of genetic testing in patients from consanguineous families with diabetes diagnosed within the first 6 months of life. [ABSTRACT FROM AUTHOR]

Published
2019
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