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2. Identification of biomarkers for glycaemic deterioration in type 2 diabetes

Author

Slieker, Roderick C., Donnelly, Louise A., Akalestou, Elina, Lopez-Noriega, Livia, Melhem, Rana, Güneş, Ayşim, Abou Azar, Frederic, Efanov, Alexander, Georgiadou, Eleni, Muniangi-Muhitu, Hermine, Sheikh, Mahsa, Giordano, Giuseppe N., Åkerlund, Mikael, Ahlqvist, Emma, Ali, Ashfaq, Banasik, Karina, Brunak, Søren, Barovic, Marko, Bouland, Gerard A., Burdet, Frédéric, Canouil, Mickaël, Dragan, Iulian, Elders, Petra J. M., Fernandez, Celine, Festa, Andreas, Fitipaldi, Hugo, Froguel, Phillippe, Gudmundsdottir, Valborg, Gudnason, Vilmundur, Gerl, Mathias J., van der Heijden, Amber A., Jennings, Lori L., Hansen, Michael K., Kim, Min, Leclerc, Isabelle, Klose, Christian, Kuznetsov, Dmitry, Mansour Aly, Dina, Mehl, Florence, Marek, Diana, Melander, Olle, Niknejad, Anne, Ottosson, Filip, Pavo, Imre, Duffin, Kevin, Syed, Samreen K., Shaw, Janice L., Cabrera, Over, Pullen, Timothy J., Simons, Kai, Solimena, Michele, Suvitaival, Tommi, Wretlind, Asger, Rossing, Peter, Lyssenko, Valeriya, Legido Quigley, Cristina, Groop, Leif, Thorens, Bernard, Franks, Paul W., Lim, Gareth E., Estall, Jennifer, Ibberson, Mark, Beulens, Joline W. J., ’t Hart, Leen M, Pearson, Ewan R., and Rutter, Guy A.

Published
2023
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3. Replication and cross-validation of type 2 diabetes subtypes based on clinical variables: an IMI-RHAPSODY study

Author

Slieker, Roderick C., Donnelly, Louise A., Fitipaldi, Hugo, Bouland, Gerard A., Giordano, Giuseppe N., Åkerlund, Mikael, Gerl, Mathias J., Ahlqvist, Emma, Ali, Ashfaq, Dragan, Iulian, Festa, Andreas, Hansen, Michael K., Mansour Aly, Dina, Kim, Min, Kuznetsov, Dmitry, Mehl, Florence, Klose, Christian, Simons, Kai, Pavo, Imre, Pullen, Timothy J., Suvitaival, Tommi, Wretlind, Asger, Rossing, Peter, Lyssenko, Valeriya, Legido-Quigley, Cristina, Groop, Leif, Thorens, Bernard, Franks, Paul W., Ibberson, Mark, Rutter, Guy A., Beulens, Joline W. J., ‘t Hart, Leen M., and Pearson, Ewan R.

Published
2021
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4. 'Som erfarenhetsforskare, då är man med och bestämmer i forskningsprojektet' : en autoetnografisk studie om en gemensam forskningsprocess

Author

Hultman, Lill, Sandman, Fredrik, Nelson, Jeanette, Åkerlund, Mikael, Von Koch, Lena, Tistad, Malin, Hultman, Lill, Sandman, Fredrik, Nelson, Jeanette, Åkerlund, Mikael, Von Koch, Lena, and Tistad, Malin

Abstract

In a participatory action research project, we emphasize experiences of collaboration between aca-demic and community researchers by applying analytical autoethnography. The aim of the article is to describe the research process which involves both individual and collaborative processes, and to analyze challenges in relation to participation in the ongoing research process. We identified four themes: Start-up and initial challenges, Conditions and structural prerequisites for collabo-ration, Joint development of work methods and Power and role distribution. Our findings are presented in two separate analyses; a collaborative inductive analysis and an academic led theore-tical analysis in which Arnstein’s ladder of participation and Fricker’s concept of epistemic injus-tice are utilized in order to scrutinize challenges related to different degrees of participation in the research process. The results demonstrate that shared hermeneutic resources are necessary for the mitigation of epistemic injustice and enablement of mutual learning processes, such as collective writing processes. The results also indicate that a full participation for community researchers in the entire research process was difficult to achieve, both in relation to structural resources such as allocated time, and in relation to perceptions of meaning- making aspects, for example, indivi-dual interests and contributionsin terms of knowledge.

Published
2023
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8. 'Som erfarenhetsforskare, då är man med och bestämmer i forskningsprojektet' : En autoetnografisk studie om en gemensam forskningsprocess

Author

Hultman, Lill, Sandman, Fredrik, Nelson, Jeanette, Åkerlund, Mikael, von Koch, Lena, Tistad, Malin, Hultman, Lill, Sandman, Fredrik, Nelson, Jeanette, Åkerlund, Mikael, von Koch, Lena, and Tistad, Malin

Abstract

In a participatory action research project, we emphasize experiences of collaboration between academic and community researchers by applying analytical autoethnography. The aim of the article is to describe the research process which involves both individual and collaborative processes, and to analyze challenges in relation to participation in the ongoing research process. We identified four themes: Start-up and initial challenges, Conditions and structural prerequisites for collaboration, Joint development of work methods and Power and role distribution. Our findings are presented in two separate analyses; a collaborative inductive analysis and an academic led theoretical analysis in which Arnstein’s ladder of participation and Fricker’s concept of epistemic injustice are utilized in order to scrutinize challenges related to different degrees of participation in the research process. The results demonstrate that shared hermeneutic resources are necessary for the mitigation of epistemic injustice and enablement of mutual learning processes, such as collective writing processes. The results also indicate that a full participation for community researchers in the entire research process was difficult to achieve, both in relation to structural resources such as allocated time, and in relation to perceptions of meaning- making aspects, for example, individual interests and contributions in terms of knowledge., Engelsk titel: ’As a community researcher, you get to make decisions in the research project’– an autoethnographic study about a joint research process

Published
2022
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9. Age- and Sex-Specific Causal Effects of Adiposity on Cardiovascular Risk Factors

Author

Fall, Tove, Hägg, Sara, Ploner, Alexander, Mägi, Reedik, Fischer, Krista, Draisma, Harmen H.M., Sarin, Antti-Pekka, Benyamin, Beben, Ladenvall, Claes, Åkerlund, Mikael, Kals, Mart, Esko, Tõnu, Nelson, Christopher P., Kaakinen, Marika, Huikari, Ville, Mangino, Massimo, Meirhaeghe, Aline, Kristiansson, Kati, Nuotio, Marja-Liisa, Kobl, Michael, Grallert, Harald, Dehghan, Abbas, Kuningas, Maris, de Vries, Paul S., de Bruijn, Renée F.A.G., Willems, Sara M., Heikkilä, Kauko, Silventoinen, Karri, Pietiläinen, Kirsi H., Legry, Vanessa, Giedraitis, Vilmantas, Goumidi, Louisa, Syvänen, Ann-Christine, Strauch, Konstantin, Koenig, Wolfgang, Lichtner, Peter, Herder, Christian, Palotie, Aarno, Menni, Cristina, Uitterlinden, André G., Kuulasmaa, Kari, Havulinna, Aki S., Moreno, Luis A., Gonzalez-Gross, Marcela, Evans, Alun, Tregouet, David-Alexandre, Yarnell, John W.G., Virtamo, Jarmo, Ferrières, Jean, Veronesi, Giovanni, Perola, Markus, Arveiler, Dominique, Brambilla, Paolo, Lind, Lars, Kaprio, Jaakko, Hofman, Albert, Stricker, Bruno H., van Duijn, Cornelia M., Ikram, M. Arfan, Franco, Oscar H., Cottel, Dominique, Dallongeville, Jean, Hall, Alistair S., Jula, Antti, Tobin, Martin D., Penninx, Brenda W., Peters, Annette, Gieger, Christian, Samani, Nilesh J., Montgomery, Grant W., Whitfield, John B., Martin, Nicholas G., Groop, Leif, Spector, Tim D., Magnusson, Patrik K., Amouyel, Philippe, Boomsma, Dorret I., Nilsson, Peter M., Järvelin, Marjo-Riitta, Lyssenko, Valeriya, Metspalu, Andres, Strachan, David P., Salomaa, Veikko, Ripatti, Samuli, Pedersen, Nancy L., Prokopenko, Inga, McCarthy, Mark I., and Ingelsson, Erik

Published
2015
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12. Distinct Molecular Signatures of Clinical Clusters in People with Type 2 Diabetes: an IMI-RHAPSODY Study

Author

Slieker, Roderick C, primary, Donnelly, Louise A, primary, Fitipaldi, Hugo, primary, Bouland, Gerard A, primary, Giordano, Giuseppe N., primary, Åkerlund, Mikael, primary, Gerl, Mathias J., primary, Ahlqvist, Emma, primary, Ali, Ashfaq, primary, Dragan, Iulian, primary, Elders, Petra, primary, Festa, Andreas, primary, Hansen, Michael K., primary, Heijden, Amber A van der, primary, Aly, Dina Mansour, primary, Kim, Min, primary, Kuznetsov, Dmitry, primary, Mehl, Florence, primary, Klose, Christian, primary, Simons, Kai, primary, Pavo, Imre, primary, Pullen, Timothy J., primary, Suvitaival, Tommi, primary, Wretlind, Asger, primary, Rossing, Peter, primary, Lyssenko, Valeriya, primary, Quigley, Cristina Legido, primary, Groop, Leif, primary, Thorens, Bernard, primary, Franks, Paul W, primary, Ibberson, Mark, primary, Rutter, Guy A, primary, Beulens, Joline WJ, primary, Hart, Leen M ’t, primary, and Pearson, Ewan R, primary

Published
2021
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13. Distinct Molecular Signatures of Clinical Clusters in People With Type 2 Diabetes: An IMI-RHAPSODY Study

Author

Slieker, Roderick C., primary, Donnelly, Louise A., additional, Fitipaldi, Hugo, additional, Bouland, Gerard A., additional, Giordano, Giuseppe N., additional, Åkerlund, Mikael, additional, Gerl, Mathias J., additional, Ahlqvist, Emma, additional, Ali, Ashfaq, additional, Dragan, Iulian, additional, Elders, Petra, additional, Festa, Andreas, additional, Hansen, Michael K., additional, van der Heijden, Amber A., additional, Mansour Aly, Dina, additional, Kim, Min, additional, Kuznetsov, Dmitry, additional, Mehl, Florence, additional, Klose, Christian, additional, Simons, Kai, additional, Pavo, Imre, additional, Pullen, Timothy J., additional, Suvitaival, Tommi, additional, Wretlind, Asger, additional, Rossing, Peter, additional, Lyssenko, Valeriya, additional, Legido Quigley, Cristina, additional, Groop, Leif, additional, Thorens, Bernard, additional, Franks, Paul W., additional, Ibberson, Mark, additional, Rutter, Guy A., additional, Beulens, Joline W.J., additional, ’t Hart, Leen M., additional, and Pearson, Ewan R., additional

Published
2021
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14. Replication and cross-validation of type 2 diabetes subtypes based on clinical variables:an IMI-RHAPSODY study

Author

Slieker, Roderick C., Donnelly, Louise A, Fitipaldi, Hugo, Bouland, Gerard A., Giordano, Giuseppe N., Åkerlund, Mikael, Gerl, Mathias J, Ahlqvist, Emma, Ali, Ashfaq, Dragan, Iulian, Festa, Andreas, Hansen, Michael K., Mansour Aly, Dina, Kim, Min, Kuznetsov, Dmitry, Mehl, Florence, Klose, Christian, Simons, Kai, Pavo, Imre, Pullen, Timothy J, Suvitaival, Tommi, Wretlind, Asger, Rossing, Peter, Lyssenko, Valeriya, Legido-Quigley, Cristina, Groop, Leif, Thorens, Bernard, Franks, Paul W., Ibberson, Mark, Rutter, Guy A, Beulens, Joline W J, ‘t Hart, Leen M, Pearson, Ewan R, Slieker, Roderick C., Donnelly, Louise A, Fitipaldi, Hugo, Bouland, Gerard A., Giordano, Giuseppe N., Åkerlund, Mikael, Gerl, Mathias J, Ahlqvist, Emma, Ali, Ashfaq, Dragan, Iulian, Festa, Andreas, Hansen, Michael K., Mansour Aly, Dina, Kim, Min, Kuznetsov, Dmitry, Mehl, Florence, Klose, Christian, Simons, Kai, Pavo, Imre, Pullen, Timothy J, Suvitaival, Tommi, Wretlind, Asger, Rossing, Peter, Lyssenko, Valeriya, Legido-Quigley, Cristina, Groop, Leif, Thorens, Bernard, Franks, Paul W., Ibberson, Mark, Rutter, Guy A, Beulens, Joline W J, ‘t Hart, Leen M, and Pearson, Ewan R

Abstract

Aims/hypothesis: Five clusters based on clinical characteristics have been suggested as diabetes subtypes: one autoimmune and four subtypes of type 2 diabetes. In the current study we replicate and cross-validate these type 2 diabetes clusters in three large cohorts using variables readily measured in the clinic. Methods: In three independent cohorts, in total 15,940 individuals were clustered based on age, BMI, HbA1c, random or fasting C-peptide, and HDL-cholesterol. Clusters were cross-validated against the original clusters based on HOMA measures. In addition, between cohorts, clusters were cross-validated by re-assigning people based on each cohort’s cluster centres. Finally, we compared the time to insulin requirement for each cluster. Results: Five distinct type 2 diabetes clusters were identified and mapped back to the original four All New Diabetics in Scania (ANDIS) clusters. Using C-peptide and HDL-cholesterol instead of HOMA2-B and HOMA2-IR, three of the clusters mapped with high sensitivity (80.6–90.7%) to the previously identified severe insulin-deficient diabetes (SIDD), severe insulin-resistant diabetes (SIRD) and mild obesity-related diabetes (MOD) clusters. The previously described ANDIS mild age-related diabetes (MARD) cluster could be mapped to the two milder groups in our study: one characterised by high HDL-cholesterol (mild diabetes with high HDL-cholesterol [MDH] cluster), and the other not having any extreme characteristic (mild diabetes [MD]). When these two milder groups were combined, they mapped well to the previously labelled MARD cluster (sensitivity 79.1%). In the cross-validation between cohorts, particularly the SIDD and MDH clusters cross-validated well, with sensitivities ranging from 73.3% to 97.1%. SIRD and MD showed a lower sensitivity, ranging from 36.1% to 92.3%, where individuals shifted from SIRD to MD and vice versa. People belonging to the SIDD cluster showed the fastest progression towards insulin requiremen

Published
2021

15. Distinct Molecular Signatures of Clinical Clusters in People With Type 2 Diabetes:An IMI-RHAPSODY Study

Author

Slieker, Roderick C., Donnelly, Louise A., Fitipaldi, Hugo, Bouland, Gerard A., Giordano, Giuseppe N., Åkerlund, Mikael, Gerl, Mathias J., Ahlqvist, Emma, Ali, Ashfaq, Dragan, Iulian, Elders, Petra, Festa, Andreas, Hansen, Michael K., van der Heijden, Amber A., Mansour Aly, Dina, Kim, Min, Kuznetsov, Dmitry, Mehl, Florence, Klose, Christian, Simons, Kai, Pavo, Imre, Pullen, Timothy J., Suvitaival, Tommi, Wretlind, Asger, Rossing, Peter, Lyssenko, Valeriya, Legido Quigley, Cristina, Groop, Leif, Thorens, Bernard, Franks, Paul W., Ibberson, Mark, Rutter, Guy A., Beulens, Joline W.J., 't Hart, Leen M., Pearson, Ewan R., Slieker, Roderick C., Donnelly, Louise A., Fitipaldi, Hugo, Bouland, Gerard A., Giordano, Giuseppe N., Åkerlund, Mikael, Gerl, Mathias J., Ahlqvist, Emma, Ali, Ashfaq, Dragan, Iulian, Elders, Petra, Festa, Andreas, Hansen, Michael K., van der Heijden, Amber A., Mansour Aly, Dina, Kim, Min, Kuznetsov, Dmitry, Mehl, Florence, Klose, Christian, Simons, Kai, Pavo, Imre, Pullen, Timothy J., Suvitaival, Tommi, Wretlind, Asger, Rossing, Peter, Lyssenko, Valeriya, Legido Quigley, Cristina, Groop, Leif, Thorens, Bernard, Franks, Paul W., Ibberson, Mark, Rutter, Guy A., Beulens, Joline W.J., 't Hart, Leen M., and Pearson, Ewan R.

Abstract

Type 2 diabetes is a multifactorial disease with multiple underlying aetiologies. To address this heterogeneity, investigators of a previous study clustered people with diabetes according to five diabetes subtypes. The aim of the current study is to investigate the etiology of these clusters by comparing their molecular signatures. In three independent cohorts, in total 15,940 individuals were clustered based on five clinical characteristics. In a subset, genetic (N = 12,828), metabolomic (N = 2,945), lipidomic (N = 2,593), and proteomic (N = 1,170) data were obtained in plasma. For each data type, each cluster was compared with the other four clusters as the reference. The insulin-resistant cluster showed the most distinct molecular signature, with higher branched-chain amino acid, diacylglycerol, and triacylglycerol levels and aberrant protein levels in plasma were enriched for proteins in the intracellular PI3K/Akt pathway. The obese cluster showed higher levels of cytokines. The mild diabetes cluster with high HDL showed the most beneficial molecular profile with effects opposite of those seen in the insulin-resistant cluster. This study shows that clustering people with type 2 diabetes can identify underlying molecular mechanisms related to pancreatic islets, liver, and adipose tissue metabolism. This provides novel biological insights into the diverse aetiological processes that would not be evident when type 2 diabetes is viewed as a homogeneous disease.

Published
2021

17. Novel biomarkers for glycaemic deterioration in type 2 diabetes: an IMI RHAPSODY study

Author

Slieker, Roderick C, primary, Donnelly, Louise A, additional, Lopez-Noriega, Livia, additional, Muniangi-Muhitu, Hermine, additional, Akalestou, Elina, additional, Sheikh, Mahsa, additional, Georgiadou, Eleni, additional, Giordano, Giuseppe N., additional, Åkerlund, Mikael, additional, Ahlqvist, Emma, additional, Ali, Ashfaq, additional, Barovic, Marko, additional, Bouland, Gerard A, additional, Burdet, Frédéric, additional, Canouil, Mickaël, additional, Dragan, Iulian, additional, Elders, Petra JM, additional, Fernandez, Celine, additional, Festa, Andreas, additional, Fitipaldi, Hugo, additional, Froguel, Phillippe, additional, Gudmundsdottir, Valborg, additional, Gudnason, Vilmundur, additional, Gerl, Mathias J., additional, van der Heijden, Amber A, additional, Jennings, Lori L, additional, Hansen, Michael K., additional, Kim, Min, additional, Leclerc, Isabelle, additional, Klose, Christian, additional, Kuznetsov, Dmitry, additional, Aly, Dina Mansour, additional, Mehl, Florence, additional, Marek, Diana, additional, Melander, Olle, additional, Niknejad, Anne, additional, Ottosson, Filip, additional, Pavo, Imre, additional, Efanov, Alexander, additional, Duffin, Kevin, additional, Pullen, Timothy J., additional, Simons, Kai, additional, Solimena, Michele, additional, Suvitaival, Tommi, additional, Wretlind, Asger, additional, Rossing, Peter, additional, Lyssenko, Valeriya, additional, Quigley, Cristina Legido, additional, Groop, Leif, additional, Thorens, Bernard, additional, Franks, Paul W, additional, Ibberson, Mark, additional, Beulens, Joline WJ, additional, ’t Hart, Leen M, additional, Pearson, Ewan R, additional, and Rutter, Guy A, additional

Published
2021
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18. Replication and cross-validation of T2D subtypes based on clinical variables: an IMI-RHAPSODY study

Author

Slieker, Roderick C, primary, Donnelly, Louise A, additional, Fitipaldi, Hugo, additional, Bouland, Gerard A, additional, Giordano, Giuseppe N., additional, Åkerlund, Mikael, additional, Gerl, Mathias J., additional, Ahlqvist, Emma, additional, Ali, Ashfaq, additional, Dragan, Iulian, additional, Festa, Andreas, additional, Hansen, Michael K., additional, Aly, Dina Mansour, additional, Kim, Min, additional, Kuznetsov, Dmitry, additional, Mehl, Florence, additional, Klose, Christian, additional, Simons, Kai, additional, Pavo, Imre, additional, Pullen, Timothy J., additional, Suvitaival, Tommi, additional, Wretlind, Asger, additional, Rossing, Peter, additional, Lyssenko, Valeriya, additional, Quigley, Cristina Legido, additional, Groop, Leif, additional, Thorens, Bernard, additional, Franks, Paul W, additional, Ibberson, Mark, additional, Rutter, Guy A, additional, Beulens, Joline WJ, additional, ’t Hart, Leen M, additional, and Pearson, Ewan R, additional

Published
2020
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20. Genetic Discrimination Between LADA and Childhood-Onset Type 1 Diabetes Within the MHC

Author

Mishra, Rajashree, primary, Åkerlund, Mikael, additional, Cousminer, Diana L., additional, Ahlqvist, Emma, additional, Bradfield, Jonathan P., additional, Chesi, Alessandra, additional, Hodge, Kenyaita M., additional, Guy, Vanessa C., additional, Brillon, David J., additional, Pratley, Richard E., additional, Rickels, Michael R., additional, Vella, Adrian, additional, Ovalle, Fernando, additional, Harris, Ronald I., additional, Melander, Olle, additional, Varvel, Stephen, additional, Hakonarson, Hakon, additional, Froguel, Phillippe, additional, Lonsdale, John T., additional, Mauricio, Didac, additional, Schloot, Nanette C., additional, Khunti, Kamlesh, additional, Greenbaum, Carla J., additional, Yderstræde, Knud B., additional, Tuomi, Tiinamaija, additional, Voight, Benjamin F., additional, Schwartz, Stanley, additional, Boehm, Bernhard O., additional, Groop, Leif, additional, Leslie, Richard David, additional, and Grant, Struan F.A., additional

Published
2019
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21. Genome-wide association analyses highlight etiological differences underlying newly defined subtypes of diabetes

Author

Mansour Aly, Dina, Dwivedi, Om Prakash, Prasad, Rashmi B., Käräjämäki, Annemari, Hjort, Rebecka, Thangam, Manonanthini, Åkerlund, Mikael, Mahajan, Anubha, Udler, Miriam S., Florez, Jose C., McCarthy, Mark I., Brosnan, Julia, Melander, Olle, Carlsson, Sofia, Hansson, Ola, Tuomi, Tiinamaija, Groop, Leif, and Ahlqvist, Emma

Abstract

Type 2 diabetes has been reproducibly clustered into five subtypes with different disease progression and risk of complications; however, etiological differences are unknown. We used genome-wide association and genetic risk score (GRS) analysis to compare the underlying genetic drivers. Individuals from the Swedish ANDIS (All New Diabetics In Scania) study were compared to individuals without diabetes; the Finnish DIREVA (Diabetes register in Vasa) and Botnia studies were used for replication. We show that subtypes differ with regard to family history of diabetes and association with GRS for diabetes-related traits. The severe insulin-resistant subtype was uniquely associated with GRS for fasting insulin but not with variants in the TCF7L2locus or GRS reflecting insulin secretion. Further, an SNP (rs10824307) near LRMDAwas uniquely associated with mild obesity-related diabetes. Therefore, we conclude that the subtypes have partially distinct genetic backgrounds indicating etiological differences.

Published
2021
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22. Genetic Discrimination Between LADA and Childhood-Onset Type 1 Diabetes Within the MHC.

Author

Mishra, Rajashree, Åkerlund, Mikael, Cousminer, Diana L., Ahlqvist, Emma, Bradfield, Jonathan P., Chesi, Alessandra, Hodge, Kenyaita M., Guy, Vanessa C., Brillon, David J., Pratley, Richard E., Rickels, Michael R., Vella, Adrian, Ovalle, Fernando, Harris, Ronald I., Melander, Olle, Varvel, Stephen, Hakonarson, Hakon, Froguel, Phillippe, Lonsdale, John T., and Mauricio, Didac

Subjects
*TYPE 1 diabetes, *METABOLIC regulation
Abstract

Objective: The MHC region harbors the strongest loci for latent autoimmune diabetes in adults (LADA); however, the strength of association is likely attenuated compared with that for childhood-onset type 1 diabetes. In this study, we recapitulate independent effects in the MHC class I region in a population with type 1 diabetes and then determine whether such conditioning in LADA yields potential genetic discriminators between the two subtypes within this region.Research Design and Methods: Chromosome 6 was imputed using SNP2HLA, with conditional analysis performed in type 1 diabetes case subjects (n = 1,985) and control subjects (n = 2,219). The same approach was applied to a LADA cohort (n = 1,428) using population-based control subjects (n = 2,850) and in a separate replication cohort (656 type 1 diabetes case, 823 LADA case, and 3,218 control subjects).Results: The strongest associations in the MHC class II region (rs3957146, β [SE] = 1.44 [0.05]), as well as the independent effect of MHC class I genes, on type 1 diabetes risk, particularly HLA-B*39 (β [SE] = 1.36 [0.17]), were confirmed. The conditional analysis in LADA versus control subjects showed significant association in the MHC class II region (rs3957146, β [SE] = 1.14 [0.06]); however, we did not observe significant independent effects of MHC class I alleles in LADA.Conclusions: In LADA, the independent effects of MHC class I observed in type 1 diabetes were not observed after conditioning on the leading MHC class II associations, suggesting that the MHC class I association may be a genetic discriminator between LADA and childhood-onset type 1 diabetes. [ABSTRACT FROM AUTHOR]

Published
2020
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23. First Genome-Wide Association Study of Latent Autoimmune Diabetes in Adults Reveals Novel Insights Linking Immune and Metabolic Diabetes.

Author

Cousminer, Diana L., Ahlqvist, Emma, Mishra, Rajashree, Andersen, Mette K., Chesi, Alessandra, Hawa, Mohammad I., Davis, Asa, Hodge, Kenyaita M., Bradfield, Jonathan P., Zhou, Kaixin, Guy, Vanessa C., Åkerlund, Mikael, Wod, Mette, Fritsche, Lars G., Vestergaard, Henrik, Snyder, James, Højlund, Kurt, Linneberg, Allan, Käräjämäki, Annemari, and Brandslund, Ivan

Subjects
DIABETES complications, AUTOIMMUNE diseases, GENETIC correlations, GLYCOLYSIS, AUTOPHAGY, COMPARATIVE studies, IMMUNITY, INSULIN, TYPE 1 diabetes, RESEARCH methodology, MEDICAL cooperation, TYPE 2 diabetes, RESEARCH, RESEARCH funding, EVALUATION research, CASE-control method, GLUCOSE intolerance, HAPLOTYPES, SEQUENCE analysis
Abstract

Objective: Latent autoimmune diabetes in adults (LADA) shares clinical features with both type 1 and type 2 diabetes; however, there is ongoing debate regarding the precise definition of LADA. Understanding its genetic basis is one potential strategy to gain insight into appropriate classification of this diabetes subtype.Research Design and Methods: We performed the first genome-wide association study of LADA in case subjects of European ancestry versus population control subjects (n = 2,634 vs. 5,947) and compared against both case subjects with type 1 diabetes (n = 2,454 vs. 968) and type 2 diabetes (n = 2,779 vs. 10,396).Results: The leading genetic signals were principally shared with type 1 diabetes, although we observed positive genetic correlations genome-wide with both type 1 and type 2 diabetes. Additionally, we observed a novel independent signal at the known type 1 diabetes locus harboring PFKFB3, encoding a regulator of glycolysis and insulin signaling in type 2 diabetes and inflammation and autophagy in autoimmune disease, as well as an attenuation of key type 1-associated HLA haplotype frequencies in LADA, suggesting that these are factors that distinguish childhood-onset type 1 diabetes from adult autoimmune diabetes.Conclusions: Our results support the need for further investigations of the genetic factors that distinguish forms of autoimmune diabetes as well as more precise classification strategies. [ABSTRACT FROM AUTHOR]

Published
2018
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24. Gene expression studies of pregastrulation development: the basement membrane is essential for cell differentiation

Author

Åkerlund, Mikael

Subjects
muscular dystrophy, Basement membrane, laminin, stem cells, FGF, development, Cell and Molecular Biology
Abstract

Basement membranes (BMs) are sheet-like structures of extracellular matrix. They act as a supporting structure but can also significantly influence cellular behavior in development, tissue homeostasis and disease. Laminins, a major BM component, are multidomain proteins, consisting of three polypeptide chains (α, β and γ). During pregastrulation development, stem cells convert and epithelial tissues are formed. This process is faithfully mimicked in vitro by embryoid body (EB) cultures. Fibroblast growth factor (FGF) signaling is crucial when the step-like process of EB development is initiated with the formation of an endoderm. A subendodermal BM is formed, in which the globular domains LG4-5 of the laminin α1 chain (α1LG4-5) are responsible for the induction of the epiblast EBs derived form embryonic stem (ES) cells, modified to repress FGF receptor signaling, have been described before. However, a full-scale analysis of the transcriptome was missing. We therefore analysed these EBs at four time points during differentiation by the use of microarray technique. An extensive catalogue of affected genes was reported. A majority of the genes directed by FGF signalling were encoding BM and endodermal proteins. In addition, we also analysed the expression profile of wild type EBs. In both these studies, we found interesting genes not previously described in early development or identified as FGF targets. Hopefully, our gene catalogue will be a valuable source for the scientific community interested in FGF signaling, developmental biology and stem cell research. Furthermore, a gene expression study was set up to get a better insight of epiblast inducement by α1LG4-5. EBs derived form ES cells with a targeted deletion of the α1LG4-5 domains were analysed. To our surprise, we found several indications of an incomplete differentiation of the visceral endoderm. We therefore hypothesize a novel autocrine mechanism for α1LG4-5 in regulating the developing endoderm. We also suggest novel roles for laminin LG4-5 in the neuromuscular system. Using laminin α2 chain deficient mice overexpressing laminin α1 chain lacking the LG4-5 domains, we show that these domains, and consequently binding to the receptor dystroglycan are not crucial in diaphragm and heart, but essential in the peripheral nervous system.

Published
2009

25. Distinct roles for laminin globular domains in laminin alpha1 chain mediated rescue of murine laminin alpha2 chain deficiency.

Author

Gawlik, Kinga, Åkerlund, Mikael, Carmignac, Virginie, Elamaa, Harri, Durbeej-Hjalt, Madeleine, Gawlik, Kinga, Åkerlund, Mikael, Carmignac, Virginie, Elamaa, Harri, and Durbeej-Hjalt, Madeleine

Abstract

BACKGROUND: Laminin alpha2 chain mutations cause congenital muscular dystrophy with dysmyelination neuropathy (MDC1A). Previously, we demonstrated that laminin alpha1 chain ameliorates the disease in mice. Dystroglycan and integrins are major laminin receptors. Unlike laminin alpha2 chain, alpha1 chain binds the receptors by separate domains; laminin globular (LG) domains 4 and LG1-3, respectively. Thus, the laminin alpha1 chain is an excellent tool to distinguish between the roles of dystroglycan and integrins in the neuromuscular system. METHODOLOGY/PRINCIPAL FINDINGS: Here, we provide insights into the functions of laminin alpha1LG domains and the division of their roles in MDC1A pathogenesis and rescue. Overexpression of laminin alpha1 chain that lacks the dystroglycan binding LG4-5 domains in alpha2 chain deficient mice resulted in prolonged lifespan and improved health. Importantly, diaphragm and heart muscles were corrected, whereas limb muscles were dystrophic, indicating that different muscles have different requirements for LG4-5 domains. Furthermore, the regenerative capacity of the skeletal muscle did not depend on laminin alpha1LG4-5. However, this domain was crucial for preventing apoptosis in limb muscles, essential for myelination in peripheral nerve and important for basement membrane assembly. CONCLUSIONS/SIGNIFICANCE: These results show that laminin alpha1LG domains and consequently their receptors have disparate functions in the neuromuscular system. Understanding these interactions could contribute to design and optimization of future medical treatment for MDC1A patients.

Published
2010

26. Gene expression profiling of differentiating embryonic stem cells expressing dominant negative fibroblast growth factor receptor 2.

Author

Gustafsson, Renata, Åkerlund, Mikael, Hjalt, Tord, Durbeej-Hjalt, Madeleine, Ekblom, Peter, Gustafsson, Renata, Åkerlund, Mikael, Hjalt, Tord, Durbeej-Hjalt, Madeleine, and Ekblom, Peter

Abstract

Embryonic stein (ES) cells are derived from the inner cell mass of the blastocyst and can be cultured as three-dimensional embryoid bodies (EBs) in which embryonic pregastrulation stages are faithfully mimicked. Fibroblast growth factor receptors (mainly FGFR2) are involved in the first differentiation events during early mammalian embryogenesis. It has been demonstrated that the presence of FGFR2 is a prerequisite for laminin-111 and collagen type IV synthesis and subsequently basement membrane formation in EBs. To identify genes that are influenced by FGFR signalling, we performed global gene expression profiling of differentiating EBs expressing dominant negative FGFR2 (dnFGFR2), acquiring an extensive catalogue of down- and up-regulated genes. We show a strong down-regulation of endodermal and basement membrane related genes, which strengthen the view that the FGFR signalling pathway is a main stimulator of basement membrane synthesis in EBs. We further present down-regulation of genes previously not linked to FGFR signalling, and in addition an active transcription of some mesodermal related genes in differentiating dnFGFR2 EBs.

Published
2007

28. Genetic associations of neuropathic pain and sensory profile in a deeply phenotyped neuropathy cohort.

Author

Åkerlund M, Baskozos G, Li W, Themistocleous AC, Pascal MMV, Rayner NW, Attal N, Baron R, Baudic S, Bennedsgaard K, Bouhassira D, Comini M, Crombez G, Faber CG, Finnerup NB, Gierthmühlen J, Granovsky Y, Gylfadottir SS, Hébert HL, Jensen TS, John J, Kemp HI, Lauria G, Laycock H, Meng W, Nilsen KB, Palmer C, Rice ASC, Serra J, Smith BH, Tesfaye S, Topaz LS, Veluchamy A, Vollert J, Yarnitsky D, van Zuydam N, Zwart JA, McCarthy MI, Lyssenko V, and Bennett DL

Abstract

Abstract: We aimed to investigate the genetic associations of neuropathic pain in a deeply phenotyped cohort. Participants with neuropathic pain were cases and compared with those exposed to injury or disease but without neuropathic pain as control subjects. Diabetic polyneuropathy was the most common aetiology of neuropathic pain. A standardised quantitative sensory testing protocol was used to categorize participants based on sensory profile. We performed genome-wide association study, and in a subset of participants, we undertook whole-exome sequencing targeting analyses of 45 known pain-related genes. In the genome-wide association study of diabetic neuropathy (N = 1541), a top significant association was found at the KCNT2 locus linked with pain intensity (rs114159097, P = 3.55 × 10-8). Gene-based analysis revealed significant associations between LHX8 and TCF7L2 and neuropathic pain. Polygenic risk score for depression was associated with neuropathic pain in all participants. Polygenic risk score for C-reactive protein showed a positive association, while that for fasting insulin showed a negative association with neuropathic pain, in individuals with diabetic polyneuropathy. Gene burden analysis of candidate pain genes supported significant associations between rare variants in SCN9A and OPRM1 and neuropathic pain. Comparison of individuals with the "irritable" nociceptor profile to those with a "nonirritable" nociceptor profile identified a significantly associated variant (rs72669682, P = 4.39 × 10-8) within the ANK2 gene. Our study on a deeply phenotyped cohort with neuropathic pain has confirmed genetic associations with the known pain-related genes KCNT2, OPRM1, and SCN9A and identified novel associations with LHX8 and ANK2, genes not previously linked to pain and sensory profiles, respectively., (Copyright © 2024 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of the International Association for the Study of Pain.)

Published
2024
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29. Deficiency of Peptidylglycine-alpha-amidating Monooxygenase, a Cause of Sarcopenic Diabetes Mellitus.

Author

Giontella A, Åkerlund M, Bronton K, Fava C, Lotta LA, Baras A, Overton JD, Jones M, Bergmann A, Kaufmann P, Ilina Y, and Melander O

Abstract

Context: Peptidylglycine-α-amidating monooxygenase (PAM) is a critical enzyme in the endocrine system responsible for activation, by amidation, of bioactive peptides., Objective: To define the clinical phenotype of carriers of genetic mutations associated with impaired PAM-amidating activity (PAM-AMA)., Design: We used genetic and phenotypic data from cohort studies: the Malmö Diet and Cancer (MDC; 1991-1996; reexamination in 2002-2012), the Malmö Preventive Project (MPP; 2002-2006), and the UK Biobank (UKB; 2012)., Setting: Exome-wide association analysis was used to identify loss-of-function (LoF) variants associated with reduced PAM-AMA and subsequently used for association with the outcomes., Patients or Other Participants: This study included n∼4500 participants from a subcohort of the MDC (MDC-Cardiovascular cohort), n∼4500 from MPP, and n∼300,000 from UKB., Main Outcome Measures: Endocrine-metabolic traits suggested by prior literature, muscle mass, muscle function, and sarcopenia., Results: Two LoF variants in the PAM gene, Ser539Trp (minor allele frequency: 0.7%) and Asp563Gly (5%), independently contributed to a decrease of 2.33 [95% confidence interval (CI): 2.52/2.15; P = 2.5E-140] and 0.98 (1.04/0.92; P = 1.12E-225) SD units of PAM-AMA, respectively. The cumulative effect of the LoF was associated with diabetes, reduced insulin secretion, and higher levels of GH and IGF-1. Moreover, carriers had reduced muscle mass and function, followed by a higher risk of sarcopenia. Indeed, the Ser539Trp mutation increased the risk of sarcopenia by 30% (odds ratio 1.31; 95% CI: 1.16/1.47; P = 9.8E-06), independently of age and diabetes., Conclusion: PAM-AMA genetic deficiency results in a prediabetic sarcopenic phenotype. Early identification of PAM LoF carriers would allow targeted exercise interventions and calls for novel therapies that restore enzymatic activity., (© The Author(s) 2024. Published by Oxford University Press on behalf of the Endocrine Society.)

Published
2024
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