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Clinical Trial Details — Status: Enrolling by invitation

Administrative data

NCT number NCT04239586
Other study ID # 2018/2388
Secondary ID
Status Enrolling by invitation
Phase Phase 4
First received
Last updated
Start date April 18, 2017
Est. completion date April 2022

Study information

Verified date January 2020
Source Haukeland University Hospital
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

The purpose of this study is to switch from insulin to oral sulfonylurea in patients with apparent type 1 diabetes or maturity onset diabetes in the young that are insulin treated. The molecular cause will be DNA variants in the HNF1A, HNF4A, or HNF1B genes that are of unknown significance (VUS, class 3) or known to be pathogenic (class 4 and 5).


Description:

Maturity onset diabetes in the young (MODY) is characterised by monogenic diabetes due to beta-cell dysfunction, with typical onset of diabetes before age of 25 years. There are 14 known forms of MODY, ranging from rather common to extremely rare.

About 1% of patients in the Norwegian Childhood Diabetes registry may have disease causing MODY mutations, according to a study recently published by the investigator's group and others.

MODY associated mutations in the transcription factors HNF1A, HNF4A, and HNF1B leads to activation of the potassium channel causing depolarisation of the beta-cell membrane, which is crucial for excretion of insulin. By treating patients with HNF1A-MODY, HNF4A-MODY, and HNF1B-MODY with sulfonylurea class of drugs, these channels will close, causing depolarisation of the beta-cell membrane, and release of insulin. Hence, these patients can often stop insulin treatment when they are treated with sulfonylurea class drugs.

Due to high throughput sequencing, a number of rare variants in these genes have been discovered. In many cases, bioinformatic tools are not sufficient to correctly classify these variants. In the present study, we intend to identify rare variants in the HNF1A, HNF4A, and HNF1B genes in patients with insulin dependent diabetes identified through the Norwegian Childhood Diabetes registry or the Norwegian MODY Registry with possibly disease causing HNF1A, HNF4A, or HNF1B mutations with sulfonylurea to see if they can reduce or even stop insulin treatment, and regulate their diabetes with sulfonylurea only. All variants will be investigated by bioinformatics tools as well as functional assays (tests for DNA-binding, transcriptional activation, nuclear localisation, protein expression). Primary endpoints are efficacy of sulfonylurea treatment measured by insulin requirement or not and level of HbA1c. Secondary endpoints are tolerance of sulfonylurea and effect on insulin secretion by oral and intravenous glucose tolerance tests. Bioinformatics and functional characterisation will be compared with success to reach primary endpoints.


Recruitment information / eligibility

Status Enrolling by invitation
Enrollment 30
Est. completion date April 2022
Est. primary completion date April 2022
Accepts healthy volunteers No
Gender All
Age group 2 Years to 95 Years
Eligibility Inclusion Criteria:

- Diabetes and DNA sequence variant of unknown significance (VUS, class 3) or pathogenic (class 4, and 5) in the HNF1A, HNF4A, or HNF1B genes

- On insulin treatment

- Willing and able to provide informed consent (parents if younger than 16 years of age)

Exclusion Criteria:

- Known anaphylactic response to sulfonylurea

- Diabetes and DNA sequence variant in the HNF1A, HNF4A, or HNF1B genes that are known to be non-pathogenic (class 1-2)

- Not willing or able to provide informed consent (parents if younger than 16 years of age)

Study Design


Related Conditions & MeSH terms


Intervention

Drug:
Sulfonylurea
Starting treatment with sulfonylurea class of drug

Locations

Country Name City State
Norway Department of Pediatrics and Adolescents, Haukeland University Hospital, and Department of Clinical Science, Faculty of Medicine, University of Bergen Bergen

Sponsors (1)

Lead Sponsor Collaborator
Haukeland University Hospital

Country where clinical trial is conducted

Norway, 

References & Publications (16)

Babenko AP, Polak M, Cavé H, Busiah K, Czernichow P, Scharfmann R, Bryan J, Aguilar-Bryan L, Vaxillaire M, Froguel P. Activating mutations in the ABCC8 gene in neonatal diabetes mellitus. N Engl J Med. 2006 Aug 3;355(5):456-66. — View Citation

Balamurugan K, Bjørkhaug L, Mahajan S, Kanthimathi S, Njølstad PR, Srinivasan N, Mohan V, Radha V. Structure-function studies of HNF1A (MODY3) gene mutations in South Indian patients with monogenic diabetes. Clin Genet. 2016 Dec;90(6):486-495. doi: 10.1111/cge.12757. Epub 2016 Mar 4. — View Citation

Bowman P, Sulen Å, Barbetti F, Beltrand J, Svalastoga P, Codner E, Tessmann EH, Juliusson PB, Skrivarhaug T, Pearson ER, Flanagan SE, Babiker T, Thomas NJ, Shepherd MH, Ellard S, Klimes I, Szopa M, Polak M, Iafusco D, Hattersley AT, Njølstad PR; Neonatal Diabetes International Collaborative Group. Effectiveness and safety of long-term treatment with sulfonylureas in patients with neonatal diabetes due to KCNJ11 mutations: an international cohort study. Lancet Diabetes Endocrinol. 2018 Aug;6(8):637-646. doi: 10.1016/S2213-8587(18)30106-2. Epub 2018 Jun 4. Erratum in: Lancet Diabetes Endocrinol. 2018 Sep;6(9):e17. — View Citation

Flannick J, Beer NL, Bick AG, Agarwala V, Molnes J, Gupta N, Burtt NP, Florez JC, Meigs JB, Taylor H, Lyssenko V, Irgens H, Fox E, Burslem F, Johansson S, Brosnan MJ, Trimmer JK, Newton-Cheh C, Tuomi T, Molven A, Wilson JG, O'Donnell CJ, Kathiresan S, Hirschhorn JN, Njølstad PR, Rolph T, Seidman JG, Gabriel S, Cox DR, Seidman CE, Groop L, Altshuler D. Assessing the phenotypic effects in the general population of rare variants in genes for a dominant Mendelian form of diabetes. Nat Genet. 2013 Nov;45(11):1380-5. doi: 10.1038/ng.2794. Epub 2013 Oct 6. — View Citation

Flannick J, Johansson S, Njølstad PR. Common and rare forms of diabetes mellitus: towards a continuum of diabetes subtypes. Nat Rev Endocrinol. 2016 Jul;12(7):394-406. doi: 10.1038/nrendo.2016.50. Epub 2016 Apr 15. Review. — View Citation

Gloyn AL, Pearson ER, Antcliff JF, Proks P, Bruining GJ, Slingerland AS, Howard N, Srinivasan S, Silva JM, Molnes J, Edghill EL, Frayling TM, Temple IK, Mackay D, Shield JP, Sumnik Z, van Rhijn A, Wales JK, Clark P, Gorman S, Aisenberg J, Ellard S, Njølstad PR, Ashcroft FM, Hattersley AT. Activating mutations in the gene encoding the ATP-sensitive potassium-channel subunit Kir6.2 and permanent neonatal diabetes. N Engl J Med. 2004 Apr 29;350(18):1838-49. Erratum in: N Engl J Med. 2004 Sep 30;351(14):1470. — View Citation

Hattersley AT, Greeley SAW, Polak M, Rubio-Cabezas O, Njølstad PR, Mlynarski W, Castano L, Carlsson A, Raile K, Chi DV, Ellard S, Craig ME. ISPAD Clinical Practice Consensus Guidelines 2018: The diagnosis and management of monogenic diabetes in children and adolescents. Pediatr Diabetes. 2018 Oct;19 Suppl 27:47-63. doi: 10.1111/pedi.12772. — View Citation

Irgens HU, Molnes J, Johansson BB, Ringdal M, Skrivarhaug T, Undlien DE, Søvik O, Joner G, Molven A, Njølstad PR. Prevalence of monogenic diabetes in the population-based Norwegian Childhood Diabetes Registry. Diabetologia. 2013 Jul;56(7):1512-9. doi: 10.1007/s00125-013-2916-y. Epub 2013 Apr 27. — View Citation

Johansson BB, Irgens HU, Molnes J, Sztromwasser P, Aukrust I, Juliusson PB, Søvik O, Levy S, Skrivarhaug T, Joner G, Molven A, Johansson S, Njølstad PR. Targeted next-generation sequencing reveals MODY in up to 6.5% of antibody-negative diabetes cases listed in the Norwegian Childhood Diabetes Registry. Diabetologia. 2017 Apr;60(4):625-635. doi: 10.1007/s00125-016-4167-1. Epub 2016 Dec 2. — View Citation

Najmi LA, Aukrust I, Flannick J, Molnes J, Burtt N, Molven A, Groop L, Altshuler D, Johansson S, Bjørkhaug L, Njølstad PR. Functional Investigations of HNF1A Identify Rare Variants as Risk Factors for Type 2 Diabetes in the General Population. Diabetes. 2017 Feb;66(2):335-346. doi: 10.2337/db16-0460. Epub 2016 Nov 29. — View Citation

Njølstad PR, Søvik O, Cuesta-Muñoz A, Bjørkhaug L, Massa O, Barbetti F, Undlien DE, Shiota C, Magnuson MA, Molven A, Matschinsky FM, Bell GI. Neonatal diabetes mellitus due to complete glucokinase deficiency. N Engl J Med. 2001 May 24;344(21):1588-92. — View Citation

Pearson ER, Flechtner I, Njølstad PR, Malecki MT, Flanagan SE, Larkin B, Ashcroft FM, Klimes I, Codner E, Iotova V, Slingerland AS, Shield J, Robert JJ, Holst JJ, Clark PM, Ellard S, Søvik O, Polak M, Hattersley AT; Neonatal Diabetes International Collaborative Group. Switching from insulin to oral sulfonylureas in patients with diabetes due to Kir6.2 mutations. N Engl J Med. 2006 Aug 3;355(5):467-77. — View Citation

Rafiq M, Flanagan SE, Patch AM, Shields BM, Ellard S, Hattersley AT; Neonatal Diabetes International Collaborative Group. Effective treatment with oral sulfonylureas in patients with diabetes due to sulfonylurea receptor 1 (SUR1) mutations. Diabetes Care. 2008 Feb;31(2):204-9. Epub 2007 Nov 19. — View Citation

Sagen JV, Bjørkhaug L, Haukanes BI, Grevle L, Molnes J, Nedrebø BG, Søvik O, Njølstad PR, Johansson S, Molven A. The HNF1A mutant Ala180Val: Clinical challenges in determining causality of a rare HNF1A variant in familial diabetes. Diabetes Res Clin Pract. 2017 Nov;133:142-149. doi: 10.1016/j.diabres.2017.08.001. Epub 2017 Sep 1. — View Citation

Sagen JV, Raeder H, Hathout E, Shehadeh N, Gudmundsson K, Baevre H, Abuelo D, Phornphutkul C, Molnes J, Bell GI, Gloyn AL, Hattersley AT, Molven A, Søvik O, Njølstad PR. Permanent neonatal diabetes due to mutations in KCNJ11 encoding Kir6.2: patient characteristics and initial response to sulfonylurea therapy. Diabetes. 2004 Oct;53(10):2713-8. — View Citation

Stoffers DA, Zinkin NT, Stanojevic V, Clarke WL, Habener JF. Pancreatic agenesis attributable to a single nucleotide deletion in the human IPF1 gene coding sequence. Nat Genet. 1997 Jan;15(1):106-10. — View Citation

* Note: There are 16 references in allClick here to view all references

Outcome

Type Measure Description Time frame Safety issue
Primary Effect of sulfonylurea treatment on insulin requirement measured in units insulin per kg per day Effect of sulfonylurea treatment on insulin requirement measured in units insulin per kg bodyweight per day, recorded at intervals of 3-6 months after exposure to sulfonylurea compared to before initiation of sulfonylurea 5 years
Primary Metabolic control of diabetes measured by HbA1c in mmol/mol Metabolic control of diabetes measured by HbA1c in mmol/mol, recorded at intervals of 3-6 months after exposure to sulfonylurea compared to before initiation of sulfonylurea 5 years
Secondary Level of sulfonylurea dose in mg per kg per day Level of sulfonylurea dose in mg per kg body weight per day, recorded at intervals of 3-6 months after exposure to sulfonylurea compared to before initiation of sulfonylurea 5 years
Secondary Prevalence of side effects of sulfonylurea Recording potential side effects of sulfonylurea, such as nausea, change in body weight, episodes of severe hypoglycemia, discolouration of teeth, diarrhoea, cardiovascular events, recorded at intervals of 3-6 months after exposure to sulfonylurea compared to before initiation of sulfonylurea 5 years
Secondary Effect on endogenous insulin secretion assessed by intravenous glucose tolerance tests Maximum increment of serum insulin in nmol/L and serum c-peptide in pmol/L at intravenous glucose tolerance tests, recorded at intervals of 6-12 months after exposure to sulfonylurea compared to before initiation of sulfonylurea 5 years
Secondary Effect on secretion of incretin hormones, assessed by oral glucose tolerance tests Maximum increment of serum insulin in nmol/L, serum c-peptide in pmol/L and incretins (GIP in pmol/L and GLP-1 in pmol/L) at oral glucose tolerance tests and in comparison with intravenous gluclose tolerance tests, recorded at intervals of 6-12 months after exposure to sulfonylurea compared to before initiation of sulfonylurea 5 years
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