Type 2 Diabetes risk alleles in Peptidyl-glycine Alpha-amidating Monooxygenase influence GLP-1 levels and response to GLP-1 Receptor Agonists

Publikation: Working paperPreprintForskning

Standard

Type 2 Diabetes risk alleles in Peptidyl-glycine Alpha-amidating Monooxygenase influence GLP-1 levels and response to GLP-1 Receptor Agonists. / Umapathysivam, Mahesh M; Araldi, Elisa; Hastoy, Benoit; Dawed, Adem Y; Vatandaslar, Hasan; Sengupta, Shahana; Kaufmann, Adrian; Thomsen, Søren; Hartmann, Bolette; Jonsson, Anna E; Kabakci, Hasan; Thaman, Swaraj; Grarup, Niels; Have, Christian T; Færch, Kristine; Gjesing, Anette P; Nawaz, Sameena; Cheeseman, Jane; Neville, Matthew J; Pedersen, Oluf; Walker, Mark; Jennison, Christopher; Hattersley, Andrew T; Hansen, Torben; Karpe, Fredrik; Holst, Jens J; Jones, Angus G; Ristow, Michael; McCarthy, Mark I; Pearson, Ewan R; Stoffel, Markus; Gloyn, Anna L.

medRxiv, 2023.

Publikation: Working paperPreprintForskning

Harvard

Umapathysivam, MM, Araldi, E, Hastoy, B, Dawed, AY, Vatandaslar, H, Sengupta, S, Kaufmann, A, Thomsen, S, Hartmann, B, Jonsson, AE, Kabakci, H, Thaman, S, Grarup, N, Have, CT, Færch, K, Gjesing, AP, Nawaz, S, Cheeseman, J, Neville, MJ, Pedersen, O, Walker, M, Jennison, C, Hattersley, AT, Hansen, T, Karpe, F, Holst, JJ, Jones, AG, Ristow, M, McCarthy, MI, Pearson, ER, Stoffel, M & Gloyn, AL 2023 'Type 2 Diabetes risk alleles in Peptidyl-glycine Alpha-amidating Monooxygenase influence GLP-1 levels and response to GLP-1 Receptor Agonists' medRxiv. https://doi.org/10.1101/2023.04.07.23288197

APA

Umapathysivam, M. M., Araldi, E., Hastoy, B., Dawed, A. Y., Vatandaslar, H., Sengupta, S., Kaufmann, A., Thomsen, S., Hartmann, B., Jonsson, A. E., Kabakci, H., Thaman, S., Grarup, N., Have, C. T., Færch, K., Gjesing, A. P., Nawaz, S., Cheeseman, J., Neville, M. J., ... Gloyn, A. L. (2023). Type 2 Diabetes risk alleles in Peptidyl-glycine Alpha-amidating Monooxygenase influence GLP-1 levels and response to GLP-1 Receptor Agonists. medRxiv. https://doi.org/10.1101/2023.04.07.23288197

Vancouver

Umapathysivam MM, Araldi E, Hastoy B, Dawed AY, Vatandaslar H, Sengupta S o.a. Type 2 Diabetes risk alleles in Peptidyl-glycine Alpha-amidating Monooxygenase influence GLP-1 levels and response to GLP-1 Receptor Agonists. medRxiv. 2023. https://doi.org/10.1101/2023.04.07.23288197

Author

Umapathysivam, Mahesh M ; Araldi, Elisa ; Hastoy, Benoit ; Dawed, Adem Y ; Vatandaslar, Hasan ; Sengupta, Shahana ; Kaufmann, Adrian ; Thomsen, Søren ; Hartmann, Bolette ; Jonsson, Anna E ; Kabakci, Hasan ; Thaman, Swaraj ; Grarup, Niels ; Have, Christian T ; Færch, Kristine ; Gjesing, Anette P ; Nawaz, Sameena ; Cheeseman, Jane ; Neville, Matthew J ; Pedersen, Oluf ; Walker, Mark ; Jennison, Christopher ; Hattersley, Andrew T ; Hansen, Torben ; Karpe, Fredrik ; Holst, Jens J ; Jones, Angus G ; Ristow, Michael ; McCarthy, Mark I ; Pearson, Ewan R ; Stoffel, Markus ; Gloyn, Anna L. / Type 2 Diabetes risk alleles in Peptidyl-glycine Alpha-amidating Monooxygenase influence GLP-1 levels and response to GLP-1 Receptor Agonists. medRxiv, 2023.

Bibtex

@techreport{039f97f55faa4fc88068724551948168,
title = "Type 2 Diabetes risk alleles in Peptidyl-glycine Alpha-amidating Monooxygenase influence GLP-1 levels and response to GLP-1 Receptor Agonists",
abstract = "UNLABELLED: Patients with type 2 diabetes vary in their response to currently available therapeutic agents (including GLP-1 receptor agonists) leading to suboptimal glycemic control and increased risk of complications. We show that human carriers of hypomorphic T2D-risk alleles in the gene encoding peptidyl-glycine alpha-amidating monooxygenase (PAM), as well as Pam- knockout mice, display increased resistance to GLP-1 in vivo . Pam inactivation in mice leads to reduced gastric GLP-1R expression and faster gastric emptying: this persists during GLP-1R agonist treatment and is rescued when GLP-1R activity is antagonized, indicating resistance to GLP-1's gastric slowing properties. Meta-analysis of human data from studies examining GLP-1R agonist response (including RCTs) reveals a relative loss of 44% and 20% of glucose lowering (measured by glycated hemoglobin) in individuals with hypomorphic PAM alleles p.S539W and p.D536G treated with GLP-1R agonist. Genetic variation in PAM has effects on incretin signaling that alters response to medication used commonly for treatment of T2D. (Funded by the Wellcome, Medical Research Council, European Union, NIHR Oxford Biomedical Research Centre, United Kingdom, Registered on ClinicalTrials.gov, NCT02723110 .). SUMMARY PARAGRAPH: Type 2 diabetes (T2D) is a leading cause of morbidity and mortality globally 1 . Current management of T2D patients focuses on lowering glycemic exposure and reducing complications with lifestyle and pharmacological interventions 2 . Despite the availability of multiple medications to lower glycated hemoglobin (HbA1c), only 53% of individuals with T2D reach the glycemic target (HbA1c <7%) 3, 4 . There is potential to improve medication selection through {"}precision medicine{"} where patient specific factors (e.g. genetic markers) are used to indicate whether a patient is more or less likely to respond to a medication. Here we show that human carriers of hypomorphic T2D-risk alleles in the gene encoding peptidyl-glycine alpha-amidating monooxygenase (PAM), as well as Pam- knockout mice, have reduced PAM enzyme activity, display increased resistance to glucagon like peptide 1 (GLP-1) in vivo and have reduced response to the GLP-1 receptor agonist. Meta-analysis of human data from studies examining GLP-1 receptor agonist response (including RCTs) reveals a relative loss of 44% and 20% of glucose lowering (measured by glycated hemoglobin) in individuals with hypomorphic PAM alleles p.S539W and p.D536G treated with GLP-1 receptor agonist. Genetic variation in PAM has effects on incretin signaling that alters response to medication used commonly for treatment of T2D. ",
author = "Umapathysivam, {Mahesh M} and Elisa Araldi and Benoit Hastoy and Dawed, {Adem Y} and Hasan Vatandaslar and Shahana Sengupta and Adrian Kaufmann and S{\o}ren Thomsen and Bolette Hartmann and Jonsson, {Anna E} and Hasan Kabakci and Swaraj Thaman and Niels Grarup and Have, {Christian T} and Kristine F{\ae}rch and Gjesing, {Anette P} and Sameena Nawaz and Jane Cheeseman and Neville, {Matthew J} and Oluf Pedersen and Mark Walker and Christopher Jennison and Hattersley, {Andrew T} and Torben Hansen and Fredrik Karpe and Holst, {Jens J} and Jones, {Angus G} and Michael Ristow and McCarthy, {Mark I} and Pearson, {Ewan R} and Markus Stoffel and Gloyn, {Anna L}",
year = "2023",
doi = "10.1101/2023.04.07.23288197",
language = "English",
publisher = "medRxiv",
type = "WorkingPaper",
institution = "medRxiv",

}

RIS

TY - UNPB

T1 - Type 2 Diabetes risk alleles in Peptidyl-glycine Alpha-amidating Monooxygenase influence GLP-1 levels and response to GLP-1 Receptor Agonists

AU - Umapathysivam, Mahesh M

AU - Araldi, Elisa

AU - Hastoy, Benoit

AU - Dawed, Adem Y

AU - Vatandaslar, Hasan

AU - Sengupta, Shahana

AU - Kaufmann, Adrian

AU - Thomsen, Søren

AU - Hartmann, Bolette

AU - Jonsson, Anna E

AU - Kabakci, Hasan

AU - Thaman, Swaraj

AU - Grarup, Niels

AU - Have, Christian T

AU - Færch, Kristine

AU - Gjesing, Anette P

AU - Nawaz, Sameena

AU - Cheeseman, Jane

AU - Neville, Matthew J

AU - Pedersen, Oluf

AU - Walker, Mark

AU - Jennison, Christopher

AU - Hattersley, Andrew T

AU - Hansen, Torben

AU - Karpe, Fredrik

AU - Holst, Jens J

AU - Jones, Angus G

AU - Ristow, Michael

AU - McCarthy, Mark I

AU - Pearson, Ewan R

AU - Stoffel, Markus

AU - Gloyn, Anna L

PY - 2023

Y1 - 2023

N2 - UNLABELLED: Patients with type 2 diabetes vary in their response to currently available therapeutic agents (including GLP-1 receptor agonists) leading to suboptimal glycemic control and increased risk of complications. We show that human carriers of hypomorphic T2D-risk alleles in the gene encoding peptidyl-glycine alpha-amidating monooxygenase (PAM), as well as Pam- knockout mice, display increased resistance to GLP-1 in vivo . Pam inactivation in mice leads to reduced gastric GLP-1R expression and faster gastric emptying: this persists during GLP-1R agonist treatment and is rescued when GLP-1R activity is antagonized, indicating resistance to GLP-1's gastric slowing properties. Meta-analysis of human data from studies examining GLP-1R agonist response (including RCTs) reveals a relative loss of 44% and 20% of glucose lowering (measured by glycated hemoglobin) in individuals with hypomorphic PAM alleles p.S539W and p.D536G treated with GLP-1R agonist. Genetic variation in PAM has effects on incretin signaling that alters response to medication used commonly for treatment of T2D. (Funded by the Wellcome, Medical Research Council, European Union, NIHR Oxford Biomedical Research Centre, United Kingdom, Registered on ClinicalTrials.gov, NCT02723110 .). SUMMARY PARAGRAPH: Type 2 diabetes (T2D) is a leading cause of morbidity and mortality globally 1 . Current management of T2D patients focuses on lowering glycemic exposure and reducing complications with lifestyle and pharmacological interventions 2 . Despite the availability of multiple medications to lower glycated hemoglobin (HbA1c), only 53% of individuals with T2D reach the glycemic target (HbA1c <7%) 3, 4 . There is potential to improve medication selection through "precision medicine" where patient specific factors (e.g. genetic markers) are used to indicate whether a patient is more or less likely to respond to a medication. Here we show that human carriers of hypomorphic T2D-risk alleles in the gene encoding peptidyl-glycine alpha-amidating monooxygenase (PAM), as well as Pam- knockout mice, have reduced PAM enzyme activity, display increased resistance to glucagon like peptide 1 (GLP-1) in vivo and have reduced response to the GLP-1 receptor agonist. Meta-analysis of human data from studies examining GLP-1 receptor agonist response (including RCTs) reveals a relative loss of 44% and 20% of glucose lowering (measured by glycated hemoglobin) in individuals with hypomorphic PAM alleles p.S539W and p.D536G treated with GLP-1 receptor agonist. Genetic variation in PAM has effects on incretin signaling that alters response to medication used commonly for treatment of T2D.

AB - UNLABELLED: Patients with type 2 diabetes vary in their response to currently available therapeutic agents (including GLP-1 receptor agonists) leading to suboptimal glycemic control and increased risk of complications. We show that human carriers of hypomorphic T2D-risk alleles in the gene encoding peptidyl-glycine alpha-amidating monooxygenase (PAM), as well as Pam- knockout mice, display increased resistance to GLP-1 in vivo . Pam inactivation in mice leads to reduced gastric GLP-1R expression and faster gastric emptying: this persists during GLP-1R agonist treatment and is rescued when GLP-1R activity is antagonized, indicating resistance to GLP-1's gastric slowing properties. Meta-analysis of human data from studies examining GLP-1R agonist response (including RCTs) reveals a relative loss of 44% and 20% of glucose lowering (measured by glycated hemoglobin) in individuals with hypomorphic PAM alleles p.S539W and p.D536G treated with GLP-1R agonist. Genetic variation in PAM has effects on incretin signaling that alters response to medication used commonly for treatment of T2D. (Funded by the Wellcome, Medical Research Council, European Union, NIHR Oxford Biomedical Research Centre, United Kingdom, Registered on ClinicalTrials.gov, NCT02723110 .). SUMMARY PARAGRAPH: Type 2 diabetes (T2D) is a leading cause of morbidity and mortality globally 1 . Current management of T2D patients focuses on lowering glycemic exposure and reducing complications with lifestyle and pharmacological interventions 2 . Despite the availability of multiple medications to lower glycated hemoglobin (HbA1c), only 53% of individuals with T2D reach the glycemic target (HbA1c <7%) 3, 4 . There is potential to improve medication selection through "precision medicine" where patient specific factors (e.g. genetic markers) are used to indicate whether a patient is more or less likely to respond to a medication. Here we show that human carriers of hypomorphic T2D-risk alleles in the gene encoding peptidyl-glycine alpha-amidating monooxygenase (PAM), as well as Pam- knockout mice, have reduced PAM enzyme activity, display increased resistance to glucagon like peptide 1 (GLP-1) in vivo and have reduced response to the GLP-1 receptor agonist. Meta-analysis of human data from studies examining GLP-1 receptor agonist response (including RCTs) reveals a relative loss of 44% and 20% of glucose lowering (measured by glycated hemoglobin) in individuals with hypomorphic PAM alleles p.S539W and p.D536G treated with GLP-1 receptor agonist. Genetic variation in PAM has effects on incretin signaling that alters response to medication used commonly for treatment of T2D.

U2 - 10.1101/2023.04.07.23288197

DO - 10.1101/2023.04.07.23288197

M3 - Preprint

C2 - 37090505

BT - Type 2 Diabetes risk alleles in Peptidyl-glycine Alpha-amidating Monooxygenase influence GLP-1 levels and response to GLP-1 Receptor Agonists

PB - medRxiv

ER -

ID: 350979930