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1. The metabolic consequences of 'yo-yo' dieting are markedly influenced by genetic diversity.

Author

Thillainadesan, S, Lambert, A, Cooke, KC, Stöckli, J, Yau, B, Masson, SWC, Howell, A, Potter, M, Fuller, OK, Jiang, YL, Kebede, MA, Morahan, G, James, DE, Madsen, S, Hocking, SL, Thillainadesan, S, Lambert, A, Cooke, KC, Stöckli, J, Yau, B, Masson, SWC, Howell, A, Potter, M, Fuller, OK, Jiang, YL, Kebede, MA, Morahan, G, James, DE, Madsen, S, and Hocking, SL

Abstract

BACKGROUND: Weight loss can improve the metabolic complications of obesity. However, it is unclear whether insulin resistance persists despite weight loss and whether any protective benefits are preserved following weight regain (weight cycling). The impact of genetic background on weight cycling is undocumented. We aimed to investigate the effects of weight loss and weight cycling on metabolic outcomes and sought to clarify the role of genetics in this relationship. METHOD: Both C57BL/6 J and genetically heterogeneous Diversity Outbred Australia (DOz) mice were alternately fed high fat Western-style diet (WD) and a chow diet at 8-week intervals. Metabolic measures including body composition, glucose tolerance, pancreatic beta cell activity, liver lipid levels and adipose tissue insulin sensitivity were determined. RESULTS: After diet switch from WD (8-week) to chow (8-week), C57BL/6 J mice displayed a rapid normalisation of body weight, adiposity, hyperinsulinemia, liver lipid levels and glucose uptake into adipose tissue comparable to chow-fed controls. In response to the same dietary intervention, genetically diverse DOz mice conversely maintained significantly higher fat mass and insulin levels compared to chow-fed controls and exhibited much more profound interindividual variability than C57BL/6 J mice. Weight cycled (WC) animals were re-exposed to WD (8-week) and compared to age-matched controls fed 8-week WD for the first time (LOb). In C57BL/6 J but not DOz mice, WC animals had significantly higher blood insulin levels than LOb controls. All WC animals exhibited significantly greater beta cell activity than LOb controls despite similar fat mass, glucose tolerance, liver lipid levels and insulin-stimulated glucose uptake in adipose tissue. CONCLUSION: Following weight loss, metabolic outcomes return to baseline in C57BL/6 J mice with obesity. However, genetic diversity significantly impacts this response. A period of weight loss does not provide lasting benef

Published
2024

2. Environmental Determinants of Islet Autoimmunity (ENDIA) longitudinal prospective pregnancy to childhood cohort study of Australian children at risk of type 1 diabetes: parental demographics and birth information

Author

Thomson, RL, Oakey, H, Haynes, A, Craig, ME, Harrison, LC, Wentworth, JM, Anderson, A, Ashwood, P, Barry, S, Brittain, B, Brown, JD, Colman, PG, Davis, EA, Hamilton-Williams, E, Huynh, D, Huynh, T, Kim, K-W, McGorm, KJ, Morahan, G, Rawlinson, W, Sinnott, RO, Soldatos, G, Tye-Din, JA, Vuillermin, PJ, Penno, MAS, Couper, JJ, Thomson, RL, Oakey, H, Haynes, A, Craig, ME, Harrison, LC, Wentworth, JM, Anderson, A, Ashwood, P, Barry, S, Brittain, B, Brown, JD, Colman, PG, Davis, EA, Hamilton-Williams, E, Huynh, D, Huynh, T, Kim, K-W, McGorm, KJ, Morahan, G, Rawlinson, W, Sinnott, RO, Soldatos, G, Tye-Din, JA, Vuillermin, PJ, Penno, MAS, and Couper, JJ

Abstract

INTRODUCTION: The Environmental Determinants of Islet Autoimmunity (ENDIA) Study is an ongoing Australian prospective cohort study investigating how modifiable prenatal and early-life exposures drive the development of islet autoimmunity and type 1 diabetes (T1D) in children. In this profile, we describe the cohort's parental demographics, maternal and neonatal outcomes and human leukocyte antigen (HLA) genotypes. RESEARCH DESIGN AND METHODS: Inclusion criteria were an unborn child, or infant aged less than 6 months, with a first-degree relative (FDR) with T1D. The primary outcome was persistent islet autoimmunity, with children followed until a T1D diagnosis or 10 years of age. Demographic data were collected at enrollment. Lifestyle, clinical and anthropometric data were collected at each visit during pregnancy and clinical pregnancy and birth data were verified against medical case notes. Data were compared between mothers with and without T1D. HLA genotyping was performed on the ENDIA child and all available FDRs. RESULTS: The final cohort comprised 1473 infants born to 1214 gestational mothers across 1453 pregnancies, with 80% enrolled during pregnancy. The distribution of familial T1D probands was 62% maternal, 28% paternal and 11% sibling. The frequency of high-risk HLA genotypes was highest in T1D probands, followed by ENDIA infants, and lowest among unaffected family members. Mothers with T1D had higher rates of pregnancy complications and perinatal intervention, and larger babies of shorter gestation. Parent demographics were comparable to the Australian population for age, parity and obesity. A greater percentage of ENDIA parents were Australian born, lived in a major city and had higher socioeconomic advantage and education. CONCLUSIONS: This comprehensive profile provides the context for understanding ENDIA's scope, methodology, unique strengths and limitations. Now fully recruited, ENDIA will provide unique insights into the roles of early-life factors

Published
2024

3. PB0861 Endoplasmic Reticulum (ER) Stress is Increased in Diabetic Platelets and Contributes to Platelet Hyperactivity

Author

Kong, Y., primary, Rehan, R., additional, Ghani, F., additional, Fenwick, J., additional, Robertshaw, D., additional, Trang, V., additional, Madsen, S., additional, Potter, M., additional, Cooke, K., additional, Stoeckli, J., additional, Morahan, G., additional, Cartland, S., additional, Kavurma, M., additional, Cielesh, M., additional, Zhang, Y., additional, Yang, J., additional, James, D., additional, Weaver, J., additional, Larance, M., additional, and Passam, F., additional

Published
2023
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7. Women with type 1 diabetes exhibit a progressive increase in gut Saccharomyces cerevisiae in pregnancy associated with evidence of gut inflammation

Author

Bandala-Sanchez, E, Roth-Schulze, AJ, Oakey, H, Penno, MAS, Bediaga, NG, Naselli, G, Ngui, KM, Smith, AD, Huang, D, Zozaya-Valdes, E, Thomson, RL, Brown, JD, Vuillermin, Peter, Barry, SC, Craig, ME, Rawlinson, WD, Davis, EA, Harris, M, Soldatos, G, Colman, PG, Wentworth, JM, Haynes, A, Morahan, G, Sinnott, RO, Papenfuss, AT, Couper, JJ, Harrison, LC, Bandala-Sanchez, E, Roth-Schulze, AJ, Oakey, H, Penno, MAS, Bediaga, NG, Naselli, G, Ngui, KM, Smith, AD, Huang, D, Zozaya-Valdes, E, Thomson, RL, Brown, JD, Vuillermin, Peter, Barry, SC, Craig, ME, Rawlinson, WD, Davis, EA, Harris, M, Soldatos, G, Colman, PG, Wentworth, JM, Haynes, A, Morahan, G, Sinnott, RO, Papenfuss, AT, Couper, JJ, and Harrison, LC

Published
2022

8. Children at onset of type 1 diabetes show altered N-glycosylation of plasma proteins and IgG

Author

Rudman, N, Kifer, D, Kaur, S, Simunovic, V, Cvetko, A, Pociot, F, Morahan, G, Gornik, O, Rudman, N, Kifer, D, Kaur, S, Simunovic, V, Cvetko, A, Pociot, F, Morahan, G, and Gornik, O

Abstract

AIMS/HYPOTHESIS: Individual variation in plasma N-glycosylation has mainly been studied in the context of diabetes complications, and its role in type 1 diabetes onset is largely unknown. Our aims were to undertake a detailed characterisation of the plasma and IgG N-glycomes in patients with recent onset type 1 diabetes, and to evaluate their discriminative potential in risk assessment. METHODS: In the first part of the study, plasma and IgG N-glycans were chromatographically analysed in a study population from the DanDiabKids registry, comprising 1917 children and adolescents (0.6-19.1 years) who were newly diagnosed with type 1 diabetes. A follow-up study compared the results for 188 of these participants with those for their 244 unaffected siblings. Correlation of N-glycan abundance with the levels and number of various autoantibodies (against IA-2, GAD, ZnT8R, ZnT8W), as well as with sex and age at diagnosis, were estimated by using general linear modelling. A disease predictive model was built using logistic mixed-model elastic net regression, and evaluated using a 10-fold cross-validation. RESULTS: Our study showed that onset of type 1 diabetes was associated with an increase in the proportion of plasma and IgG high-mannose and bisecting GlcNAc structures, a decrease in monogalactosylation, and an increase in IgG disialylation. ZnT8R autoantibody levels were associated with higher IgG digalactosylated glycan with bisecting GlcNAc. Finally, an increase in the number of autoantibodies (which is a better predictor of progression to overt diabetes than the level of any individual antibody) was accompanied by a decrease in the proportions of some of the highly branched plasma N-glycans. Models including age, sex and N-glycans yielded notable discriminative power between children with type 1 diabetes and their healthy siblings, with AUCs of 0.915 and 0.869 for addition of plasma and IgG N-glycans, respectively. CONCLUSIONS/INTERPRETATION: We defined N-glycan changes

Published
2022

10. High-Throughput Human Complement C3 N-Glycoprofiling Identifies Markers of Early Onset Type 1 Diabetes Mellitus in Children.

Author

Šoić, D, Keser, T, Štambuk, J, Kifer, D, Pociot, F, Lauc, G, Morahan, G, Novokmet, M, Gornik, O, Šoić, D, Keser, T, Štambuk, J, Kifer, D, Pociot, F, Lauc, G, Morahan, G, Novokmet, M, and Gornik, O

Abstract

Recently, it was shown that children at the onset of type 1 diabetes (T1D) have a higher proportion of oligomannose glycans in their total plasma protein N-glycome compared to their healthy siblings. The most abundant complement component, glycoprotein C3, contains two N-glycosylation sites occupied exclusively by this type of glycans. Furthermore, complement system, as well as C3, was previously associated with T1D. It is also known that changes in glycosylation can modulate inflammatory responses, so our aim was to characterize the glycosylation profile of C3 in T1D. For this purpose, we developed a novel high-throughput workflow for human C3 concanavalin A lectin affinity enrichment and subsequent LC-MS glycopeptide analysis which enables protein-specific N-glycosylation profiling. From the Danish Childhood Diabetes Register, plasma samples of 61 children/adolescents newly diagnosed with T1D and 84 of their unaffected siblings were C3 N-glycoprofiled. Significant changes of C3 N-glycan profiles were found. T1D was associated with an increase in the proportion of unprocessed glycan structures with more mannose units. A regression model including C3 N-glycans showed notable discriminative power between children with early onset T1D and their healthy siblings with area under curve of 0.879. This study confirmed our previous findings of plasma high-mannose glycan changes in a cohort of recent onset T1D cases, suggesting the involvement of C3 N-glycome in T1D development. Our C3 glycan-based discriminative model could be valuable in assessment of T1D risk in children.

Published
2022

15. Evaluation of protocol amendments to the Environmental Determinants of Islet Autoimmunity (ENDIA) study during the COVID-19 pandemic.

Author

Penno M.A.S., Anderson A.J., Thomson R.L., McGorm K., Barry S.C., Colman P.G., Craig M.E., Davis E.A., Harris M., Haynes A., Morahan G., Oakey H., Rawlinson W.D., Sinnott R.O., Soldatos G., Vuillermin P.J., Wentworth J.M., Harrison L.C., Couper J.J., Penno M.A.S., Anderson A.J., Thomson R.L., McGorm K., Barry S.C., Colman P.G., Craig M.E., Davis E.A., Harris M., Haynes A., Morahan G., Oakey H., Rawlinson W.D., Sinnott R.O., Soldatos G., Vuillermin P.J., Wentworth J.M., Harrison L.C., and Couper J.J.

Published
2021

16. Type 1 diabetes in pregnancy is associated with distinct changes in the composition and function of the gut microbiome.

Author

Roth-Schulze A.J., Penno M.A.S., Ngui K.M., Oakey H., Bandala-Sanchez E., Smith A.D., Allnutt T.R., Thomson R.L., Vuillermin P.J., Craig M.E., Rawlinson W.D., Davis E.A., Harris M., Soldatos G., Colman P.G., Wentworth J.M., Haynes A., Barry S.C., Sinnott R.O., Morahan G., Bediaga N.G., Smyth G.K., Papenfuss A.T., Couper J.J., Harrison L.C., Roth-Schulze A.J., Penno M.A.S., Ngui K.M., Oakey H., Bandala-Sanchez E., Smith A.D., Allnutt T.R., Thomson R.L., Vuillermin P.J., Craig M.E., Rawlinson W.D., Davis E.A., Harris M., Soldatos G., Colman P.G., Wentworth J.M., Haynes A., Barry S.C., Sinnott R.O., Morahan G., Bediaga N.G., Smyth G.K., Papenfuss A.T., Couper J.J., and Harrison L.C.

Abstract

Background: The gut microbiome changes in response to a range of environmental conditions, life events and disease states. Pregnancy is a natural life event that involves major physiological adaptation yet studies of the microbiome in pregnancy are limited and their findings inconsistent. Pregnancy with type 1 diabetes (T1D) is associated with increased maternal and fetal risks but the gut microbiome in this context has not been characterized. By whole metagenome sequencing (WMS), we defined the taxonomic composition and function of the gut bacterial microbiome across 70 pregnancies, 36 in women with T1D. Result(s): Women with and without T1D exhibited compositional and functional changes in the gut microbiome across pregnancy. Profiles in women with T1D were distinct, with an increase in bacteria that produce lipopolysaccharides and a decrease in those that produce short-chain fatty acids, especially in the third trimester. In addition, women with T1D had elevated concentrations of fecal calprotectin, a marker of intestinal inflammation, and serum intestinal fatty acid-binding protein (I-FABP), a marker of intestinal epithelial damage. Conclusion(s): Women with T1D exhibit a shift towards a more pro-inflammatory gut microbiome during pregnancy, associated with evidence of intestinal inflammation. These changes could contribute to the increased risk of pregnancy complications in women with T1D and are potentially modifiable by dietary means. [MediaObject not available: see fulltext.]Copyright © 2021, The Author(s).

Published
2021

17. Type 1 diabetes in pregnancy is associated with distinct changes in the composition and function of the gut microbiome

Author

Roth-Schulze, AJ, Penno, MAS, Ngui, KM, Oakey, H, Bandala-Sanchez, E, Smith, AD, Allnutt, TR, Thomson, RL, Vuillermin, Peter, Craig, ME, Rawlinson, WD, Davis, EA, Harris, M, Soldatos, G, Colman, PG, Wentworth, JM, Haynes, A, Barry, SC, Sinnott, RO, Morahan, G, Bediaga, NG, Smyth, GK, Papenfuss, AT, Couper, JJ, Harrison, LC, Roth-Schulze, AJ, Penno, MAS, Ngui, KM, Oakey, H, Bandala-Sanchez, E, Smith, AD, Allnutt, TR, Thomson, RL, Vuillermin, Peter, Craig, ME, Rawlinson, WD, Davis, EA, Harris, M, Soldatos, G, Colman, PG, Wentworth, JM, Haynes, A, Barry, SC, Sinnott, RO, Morahan, G, Bediaga, NG, Smyth, GK, Papenfuss, AT, Couper, JJ, and Harrison, LC

Published
2021

18. Novel spontaneous myelodysplastic syndrome mouse model.

Author

Li, W, Cao, L, Li, M, Yang, X, Zhang, W, Song, Z, Wang, X, Zhang, L, Morahan, G, Qin, C, Gao, R, Li, W, Cao, L, Li, M, Yang, X, Zhang, W, Song, Z, Wang, X, Zhang, L, Morahan, G, Qin, C, and Gao, R

Abstract

BACKGROUND: Myelodysplastic syndrome (MDS) is a group of disorders involving hemopoietic dysfunction leading to leukemia. Although recently progress has been made in identifying underlying genetic mutations, many questions still remain. Animal models of MDS have been produced by introduction of specific mutations. However, there is no spontaneous mouse model of MDS, and an animal model to simulate natural MDS pathogenesis is urgently needed. METHODS: In characterizing the genetically diverse mouse strains of the Collaborative Cross (CC) we observed that one, designated JUN, had abnormal hematological traits. This strain was thus further analyzed for phenotypic and pathological identification, comparing the changes in each cell population in peripheral blood and in bone marrow. RESULTS: In a specific-pathogen free environment, mice of the JUN strain are relatively thin, with healthy appearance. However, in a conventional environment, they become lethargic, develop wrinkled yellow hair, have loose and light stools, and are prone to infections. We found that the mice were cytopenic, which was due to abnormal differentiation of multipotent bone marrow progenitor cells. These are common characteristics of MDS. CONCLUSIONS: A mouse strain, JUN, was found displaying spontaneous myelodysplastic syndrome. This strain has the advantage over existing models in that it develops MDS spontaneously and is more similar to human MDS than genetically modified mouse models. JUN mice will be an important tool for pathogenesis research of MDS and for evaluation of new drugs and treatments.

Published
2021

19. Identification of Genetic Variants Associated with Sex-Specific Lung-Cancer Risk.

Author

Shi, X, Young, S, Morahan, G, Shi, X, Young, S, and Morahan, G

Abstract

BACKGROUND: The incidence of lung cancer differs between men and women, suggesting the potential role of sex-specific influences in susceptibility to this cancer. While behavioural differences may account for some of the risk, another possibility is that X chromosome susceptibility genes may have an effect. Little is known about genetic variants on the X chromosome that contribute to sex-specific lung-cancer risk, so we investigated this in a previously characterized cohort. METHODS: We conducted a genetic association reanalysis of 518 lung cancer patients and 844 controls to test for lung cancer susceptibility variants on the X chromosome. Annotated gene expression, co-expression analysis, pathway, and immune infiltration analyses were also performed. RESULTS: 24 SNPs were identified as significantly associated with male, but not female, lung cancer cases. These resided in blocks near the annotated genes DMD, PTCHD1-AS, and AL008633.1. Of these, DMD was differentially expressed in lung cancer cases curated in The Cancer Genome Atlas. A functional enrichment and a KEGG pathway analysis of co-expressed genes revealed that differences in immune function could play a role in sex-specific susceptibility. CONCLUSIONS: Our analyses identified potential genetic variants associated with sex-specific lung cancer risk. Integrating GWAS and RNA-sequencing data revealed potential targets for lung cancer prevention.

Published
2021

20. The first comprehensive database of germline pathogenic variants in East Asian cancer patients.

Author

Shi, X, Li, R, Zhai, J, Chen, AM, Huang, K, Zheng, Z, Chen, Z, Dong, X, Liu, X, Lu, D, Feng, S, Diao, D, Ren, P, Liu, Z, Morahan, G, Cai, K, Shi, X, Li, R, Zhai, J, Chen, AM, Huang, K, Zheng, Z, Chen, Z, Dong, X, Liu, X, Lu, D, Feng, S, Diao, D, Ren, P, Liu, Z, Morahan, G, and Cai, K

Abstract

UNLABELLED: Pathogenic germline variants in cancer-associated genes are risk factors for cancer predisposition. However, systematic mining and summarizing of cancer pathogenic or likely pathogenic variants has not been performed for people of East Asian descent. This study aimed to investigate publicly available data to identify germline variants in East Asian cancer cohorts and compare them to variants in Caucasian cancer cohorts. Based on the data we retrieved, we built a comprehensive database, named COGVIC (Catalog of Germline Variants in Cancer). A total of 233 variants in the East Asian population were identified. The majority (87%) of genes with cancer-associated variants were not shared between the East Asian and Caucasian cohorts. This included pathogenic variants in BRCA2. Our study summarized the prevalence of germline variants in East Asian cancer cohorts and provides an easy-to-use online tool to explore germline mutations related to cancer susceptibility. DATABASE URL: http://www.cogvic.vip/.

Published
2021

21. How to Better Understand the Influence of Host Genetics on Developing an Effective Immune Response to Thoracic Cancers.

Author

Behrouzfar, K, Burton, K, Mutsaers, SE, Morahan, G, Lake, RA, Fisher, SA, Behrouzfar, K, Burton, K, Mutsaers, SE, Morahan, G, Lake, RA, and Fisher, SA

Abstract

Thoracic cancers pose a significant global health burden. Immune checkpoint blockade therapies have improved treatment outcomes, but durable responses remain limited. Understanding how the host immune system interacts with a developing tumor is essential for the rational development of improved treatments for thoracic malignancies. Recent technical advances have improved our understanding of the mutational burden of cancer cells and changes in cancer-specific gene expression, providing a detailed understanding of the complex biology underpinning tumor-host interactions. While there has been much focus on the genetic alterations associated with cancer cells and how they may impact treatment outcomes, how host genetics affects cancer development is also critical and will greatly determine treatment response. Genome-wide association studies (GWAS) have identified genetic variants associated with cancer predisposition. This approach has successfully identified host genetic risk factors associated with common thoracic cancers like lung cancer, but is less effective for rare cancers like malignant mesothelioma. To assess how host genetics impacts rare thoracic cancers, we used the Collaborative Cross (CC); a powerful murine genetic resource designed to maximize genetic diversity and rapidly identify genes associated with any biological trait. We are using the CC in conjunction with our asbestos-induced MexTAg mouse model, to identify host genes associated with mesothelioma development. Once genes that moderate tumor development and progression are known, human homologues can be identified and human datasets interrogated to validate their association with disease outcome. Furthermore, our CC-MexTAg animal model enables in-depth study of the tumor microenvironment, allowing the correlation of immune cell infiltration and gene expression signatures with disease development. This strategy provides a detailed picture of the underlying biological pathways associated with mesoth

Published
2021

22. Evaluation of protocol amendments to the Environmental Determinants of Islet Autoimmunity (ENDIA) study during the COVID-19 pandemic

Author

Penno, MAS, Anderson, AJ, Thomson, RL, McGorm, K, Barry, SC, Colman, PG, Craig, ME, Davis, EA, Harris, M, Haynes, A, Morahan, G, Oakey, H, Rawlinson, WD, Sinnott, RO, Soldatos, G, Vuillermin, PJ, Wentworth, JM, Harrison, LC, Couper, JJ, Penno, MAS, Anderson, AJ, Thomson, RL, McGorm, K, Barry, SC, Colman, PG, Craig, ME, Davis, EA, Harris, M, Haynes, A, Morahan, G, Oakey, H, Rawlinson, WD, Sinnott, RO, Soldatos, G, Vuillermin, PJ, Wentworth, JM, Harrison, LC, and Couper, JJ

Published
2021

23. Confirmation of novel type 1 diabetes risk loci in families

Author

Cooper, J. D., Howson, J. M. M., Smyth, D., Walker, N. M., Stevens, H., Yang, J. H. M., She, J.-X., Eisenbarth, G. S., Rewers, M., Todd, J. A., Akolkar, B., Concannon, P., Erlich, H. A., Julier, C., Morahan, G., Nerup, J., Nierras, C., Pociot, F., Rich, S. S., and the Type 1 Diabetes Genetics Consortium

Published
2012
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38. Changes in pancreatic exocrine function in young at-risk children followed to islet autoimmunity and type 1 diabetes in the ENDIA study.

Author

Harris M., Thomson R.L., Vuillermin P.J., Wentworth J.M., Harrison L.C., Couper J.J., Soldatos G., Penno M.A.S., Oakey H., Augustine P., Taranto M., Barry S.C., Colman P.G., Craig M.E., Davis E.A., Giles L.C., Haynes A., McGorm K., Morahan G., Morbey C., Rawlinson W.D., Sinnott R.O., Harris M., Thomson R.L., Vuillermin P.J., Wentworth J.M., Harrison L.C., Couper J.J., Soldatos G., Penno M.A.S., Oakey H., Augustine P., Taranto M., Barry S.C., Colman P.G., Craig M.E., Davis E.A., Giles L.C., Haynes A., McGorm K., Morahan G., Morbey C., Rawlinson W.D., and Sinnott R.O.

Abstract

Backgrounds: We aimed to monitor pancreatic exocrine function longitudinally in relation to the development of islet autoimmunity (IA) and type 1 diabetes (T1D) in at-risk children with a first-degree relative with T1D, who were followed prospectively in the Environmental Determinants of Islet Autoimmunity (ENDIA) study. Method(s): Fecal elastase-1 (FE-1) concentration was measured longitudinally in 85 ENDIA children from median age 1.0 (IQR 0.7,1.3) year. Twenty-eight of 85 children (progressors) developed persistent islet autoantibodies at median age of 1.5 (IQR 1.1,2.5) years, of whom 11 went on to develop clinical diabetes. The other 57 islet autoantibody-negative children (non-progressors) followed similarly were age and gender-matched with the progressors. An adjusted linear mixed model compared FE-1 concentrations in progressors and non-progressors. Result(s): Baseline FE-1 did not differ between progressors and non-progressors, or by HLA DR type or proband status. FE-1 decreased over time in progressors in comparison to non-progressors (Wald statistic 5.46, P =.02); in some progressors the fall in FE-1 preceded the onset of IA. Conclusion(s): Pancreatic exocrine function decreases in the majority of young at-risk children who progress to IA and T1D.Copyright © 2020 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd

Published
2020

39. Micro-CT scan with virtual dissection of left ventricle is a non-destructive, reproducible alternative to dissection and weighing for left ventricular size.

Author

Doost, A, Rangel, A, Nguyen, Q, Morahan, G, Arnolda, L, Doost, A, Rangel, A, Nguyen, Q, Morahan, G, and Arnolda, L

Abstract

Micro-CT scan images enhanced by iodine staining provide high-resolution visualisation of soft tissues in laboratory mice. We have compared Micro-CT scan-derived left ventricular (LV) mass with dissection and weighing. Ex-vivo micro-CT scan images of the mouse hearts were obtained following staining by iodine. The LV was segmented and its volume was assessed using a semi-automated method by Drishti software. The left ventricle was then dissected in the laboratory and its actual weight was measured and compared against the estimated results. LV mass was calculated multiplying its estimated volume and myocardial specific gravity. Thirty-five iodine-stained post-natal mouse hearts were studied. Mice were of either sex and 68 to 352 days old (median age 202 days with interquartile range 103 to 245 days) at the time of sacrifice. Samples were from 20 genetically diverse strains. Median mouse body weight was 29 g with interquartile range 24 to 34 g. Left Ventricular weights ranged from 40.0 to 116.7 mg. The segmented LV mass estimated from micro-CT scan and directly measured dissected LV mass were strongly correlated (R2 = 0. 97). Segmented LV mass derived from Micro-CT images was very similar to the physically dissected LV mass (mean difference = 0.09 mg; 95% confidence interval - 3.29 mg to 3.1 mg). Micro-CT scanning provides a non-destructive, efficient and accurate visualisation tool for anatomical analysis of animal heart models of human cardiovascular conditions. Iodine-stained soft tissue imaging empowers researchers to perform qualitative and quantitative assessment of the cardiac structures with preservation of the samples for future histological analysis.

Published
2020

40. Mapping of Diabetes Susceptibility Loci in a Domestic Cat Breed with an Unusually High Incidence of Diabetes Mellitus.

Author

Balmer, L, O'Leary, CA, Menotti-Raymond, M, David, V, O'Brien, S, Penglis, B, Hendrickson, S, Reeves-Johnson, M, Gottlieb, S, Fleeman, L, Vankan, D, Rand, J, Morahan, G, Balmer, L, O'Leary, CA, Menotti-Raymond, M, David, V, O'Brien, S, Penglis, B, Hendrickson, S, Reeves-Johnson, M, Gottlieb, S, Fleeman, L, Vankan, D, Rand, J, and Morahan, G

Abstract

Genetic variants that are associated with susceptibility to type 2 diabetes (T2D) are important for identification of individuals at risk and can provide insights into the molecular basis of disease. Analysis of T2D in domestic animals provides both the opportunity to improve veterinary management and breeding programs as well as to identify novel T2D risk genes. Australian-bred Burmese (ABB) cats have a 4-fold increased incidence of type 2 diabetes (T2D) compared to Burmese cats bred in the United States. This is likely attributable to a genetic founder effect. We investigated this by performing a genome-wide association scan on ABB cats. Four SNPs were associated with the ABB T2D phenotype with p values <0.005. All exons and splice junctions of candidate genes near significant single-nucleotide polymorphisms (SNPs) were sequenced, including the genes DGKG, IFG2BP2, SLC8A1, E2F6, ETV5, TRA2B and LIPH. Six candidate polymorphisms were followed up in a larger cohort of ABB cats with or without T2D and also in Burmese cats bred in America, which exhibit low T2D incidence. The original SNPs were confirmed in this cohort as associated with the T2D phenotype, although no novel coding SNPs in any of the seven candidate genes showed association with T2D. The identification of genetic markers associated with T2D susceptibility in ABB cats will enable preventative health strategies and guide breeding programs to reduce the prevalence of T2D in these cats.

Published
2020

41. Changes in pancreatic exocrine function in young at-risk children followed to islet autoimmunity and type 1 diabetes in the ENDIA study

Author

Penno, MAS, Oakey, H, Augustine, P, Taranto, M, Barry, SC, Colman, PG, Craig, ME, Davis, EA, Giles, LC, Harris, M, Haynes, A, McGorm, K, Morahan, G, Morbey, C, Rawlinson, WD, Sinnott, RO, Soldatos, G, Thomson, RL, Vuillermin, PJ, Wentworth, JM, Harrison, LC, Couper, JJ, Penno, MAS, Oakey, H, Augustine, P, Taranto, M, Barry, SC, Colman, PG, Craig, ME, Davis, EA, Giles, LC, Harris, M, Haynes, A, McGorm, K, Morahan, G, Morbey, C, Rawlinson, WD, Sinnott, RO, Soldatos, G, Thomson, RL, Vuillermin, PJ, Wentworth, JM, Harrison, LC, and Couper, JJ

Abstract

BACKGROUNDS: We aimed to monitor pancreatic exocrine function longitudinally in relation to the development of islet autoimmunity (IA) and type 1 diabetes (T1D) in at-risk children with a first-degree relative with T1D, who were followed prospectively in the Environmental Determinants of Islet Autoimmunity (ENDIA) study. METHODS: Fecal elastase-1 (FE-1) concentration was measured longitudinally in 85 ENDIA children from median age 1.0 (IQR 0.7,1.3) year. Twenty-eight of 85 children (progressors) developed persistent islet autoantibodies at median age of 1.5 (IQR 1.1,2.5) years, of whom 11 went on to develop clinical diabetes. The other 57 islet autoantibody-negative children (non-progressors) followed similarly were age and gender-matched with the progressors. An adjusted linear mixed model compared FE-1 concentrations in progressors and non-progressors. RESULTS: Baseline FE-1 did not differ between progressors and non-progressors, or by HLA DR type or proband status. FE-1 decreased over time in progressors in comparison to non-progressors (Wald statistic 5.46, P = .02); in some progressors the fall in FE-1 preceded the onset of IA. CONCLUSIONS: Pancreatic exocrine function decreases in the majority of young at-risk children who progress to IA and T1D.

Published
2020

42. Higher frequency of vertebrate-infecting viruses in the gut of infants born to mothers with type 1 diabetes

Author

Kim, KW, Allen, DW, Briese, T, Couper, JJ, Barry, SC, Colman, PG, Cotterill, AM, Davis, EA, Giles, LC, Harrison, LC, Harris, M, Haynes, A, Horton, JL, Isaacs, SR, Jain, K, Lipkin, WI, McGorm, K, Morahan, G, Morbey, C, Pang, ICN, Papenfuss, AT, Penno, MAS, Sinnott, RO, Soldatos, G, Thomson, RL, Vuillermin, P, Wentworth, JM, Wilkins, MR, Rawlinson, WD, Craig, ME, Kim, KW, Allen, DW, Briese, T, Couper, JJ, Barry, SC, Colman, PG, Cotterill, AM, Davis, EA, Giles, LC, Harrison, LC, Harris, M, Haynes, A, Horton, JL, Isaacs, SR, Jain, K, Lipkin, WI, McGorm, K, Morahan, G, Morbey, C, Pang, ICN, Papenfuss, AT, Penno, MAS, Sinnott, RO, Soldatos, G, Thomson, RL, Vuillermin, P, Wentworth, JM, Wilkins, MR, Rawlinson, WD, and Craig, ME

Abstract

Background: Microbial exposures in utero and early life shape the infant microbiome, which can profoundly impact on health. Compared to the bacterial microbiome, very little is known about the virome. We set out to characterize longitudinal changes in the gut virome of healthy infants born to mothers with or without type 1 diabetes using comprehensive virome capture sequencing. Methods: Healthy infants were selected from Environmental Determinants of Islet Autoimmunity (ENDIA), a prospective cohort of Australian children with a first‐degree relative with type 1 diabetes, followed from pregnancy. Fecal specimens were collected three‐monthly in the first year of life. Results: Among 25 infants (44% born to mothers with type 1 diabetes) at least one virus was detected in 65% (65/100) of samples and 96% (24/25) of infants during the first year of life. In total, 26 genera of viruses were identified and >150 viruses were differentially abundant between the gut of infants with a mother with type 1 diabetes vs without. Positivity for any virus was associated with maternal type 1 diabetes and older infant age. Enterovirus was associated with older infant age and maternal smoking. Conclusions: We demonstrate a distinct gut virome profile in infants of mothers with type 1 diabetes, which may influence health outcomes later in life. Higher prevalence and greater number of viruses observed compared to previous studies suggests significant underrepresentation in existing virome datasets, arising most likely from less sensitive techniques used in data acquisition.

Published
2020

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