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199 results on '"Moustakas, A. K."'

4. Oral Insulin Delay of Stage 3 Type 1 Diabetes Revisited in HLA DR4-DQ8 Participants in the TrialNet Oral Insulin Prevention Trial (TN07).

Author

Zhao, Lue Ping, Papadopoulos, George K., Skyler, Jay S., Parikh, Hemang M., Kwok, William W., Bondinas, George P., Moustakas, Antonis K., Wang, Ruihan, Pyo, Chul-Woo, Nelson, Wyatt C., Geraghty, Daniel E., and Lernmark, Åke

Subjects
TYPE 1 diabetes, HAPLOTYPES, REGRESSION analysis, INSULIN, AUTOANTIBODIES
Abstract

OBJECTIVE: To explore if oral insulin could delay onset of stage 3 type 1 diabetes (T1D) among patients with stage 1/2 who carry HLA DR4-DQ8 and/or have elevated levels of IA-2 autoantibodies (IA-2As). RESEARCH AND METHODS: Next-generation targeted sequencing technology was used to genotype eight HLA class II genes (DQA1 , DQB1 , DRB1 , DRB3 , DRB4 , DRB5 , DPA1 , and DPB1) in 546 participants in the TrialNet oral insulin preventative trial (TN07). Baseline levels of autoantibodies against insulin (IAA), GAD65 (GADA), and IA-2A were determined prior to treatment assignment. Available clinical and demographic covariables from TN07 were used in this post hoc analysis with the Cox regression model to quantify the preventive efficacy of oral insulin. RESULTS: Oral insulin reduced the frequency of T1D onset among participants with elevated IA-2A levels (HR 0.62; P = 0.012) but had no preventive effect among those with low IA-2A levels (HR 1.03; P = 0.91). High IA-2A levels were positively associated with the HLA DR4-DQ8 haplotype (OR 1.63; P = 6.37 × 10−6) and negatively associated with the HLA DR7– containing DRB1*07:01-DRB4*01:01-DQA1*02:01-DQB1*02:02 extended haplotype (OR 0.49; P = 0.037). Among DR4-DQ8 carriers, oral insulin delayed the progression toward stage 3 T1D onset (HR 0.59; P = 0.027), especially if participants also had high IA-2A level (HR 0.50; P = 0.028). CONCLUSIONS: These results suggest the presence of a T1D endotype characterized by HLA DR4-DQ8 and/or elevated IA-2A levels; for those patients with stage 1/2 disease with such an endotype, oral insulin delays the clinical T1D onset. [ABSTRACT FROM AUTHOR]

Published
2024
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5. HLA Class II (DR, DQ, DP) Genes Were Separately Associated With the Progression From Seroconversion to Onset of Type 1 Diabetes Among Participants in Two Diabetes Prevention Trials (DPT-1 and TN07)

Author

Zhao, Lue Ping, primary, Papadopoulos, George K., additional, Skyler, Jay S., additional, Pugliese, Alberto, additional, Parikh, Hemang M., additional, Kwok, William W., additional, Lybrand, Terry P., additional, Bondinas, George P., additional, Moustakas, Antonis K., additional, Wang, Ruihan, additional, Pyo, Chul-Woo, additional, Nelson, Wyatt C., additional, Geraghty, Daniel E., additional, and Lernmark, Åke, additional

Published
2024
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6. Novel emulsifiers from olive mill compost

Author

Koliastasi, Aikaterini, Kompothekra, Vasiliki, Giotis, Charilaos, Moustakas, Antonis K., Skotti, Efstathia P., Gerakis, Argyrios, Kalogianni, Eleni P., Georgiou, Despoina, and Ritzoulis, Christos

Published
2020
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11. Molecular basis for increased susceptibility of Indigenous North Americans to seropositive rheumatoid arthritis

Author

Scally, Stephen W, Law, Soi-Cheng, Ting, Yi Tian, Heemst, Jurgen van, Sokolove, Jeremy, Deutsch, Aaron J, Bridie Clemens, E, Moustakas, Antonis K, Papadopoulos, George K, Woude, Diane van der, Smolik, Irene, Hitchon, Carol A, Robinson, David B, Ferucci, Elizabeth D, Bernstein, Charles N, Meng, Xiaobo, Anaparti, Vidyanand, Huizinga, Tom, Kedzierska, Katherine, Reid, Hugh H, Raychaudhuri, Soumya, Toes, René E, Rossjohn, Jamie, El-Gabalawy, Hani, and Thomas, Ranjeny

Published
2017
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14. The soils

Author

Kosmas, C. S., Danalatos, N. G., Moustakas, N. K., Dumont, H. J., editor, Crivelli, Alain J., editor, and Catsadorakis, George, editor

Published
1997
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15. Association of HLA-DQ Heterodimer Residues −18β and β57 With Progression From Islet Autoimmunity to Diabetes in the Diabetes Prevention Trial–Type 1

Author

Zhao, Lue Ping, primary, Skyler, Jay, additional, Papadopoulos, George K., additional, Pugliese, Alberto, additional, Najera, James Antonio, additional, Bondinas, George P., additional, Moustakas, Antonis K., additional, Wang, Ruihan, additional, Pyo, Chul-Woo, additional, Nelson, Wyatt C., additional, Geraghty, Daniel E., additional, and Lernmark, Åke, additional

Published
2022
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16. Two residues (-18β and β57) in the HLA-DQ heterodimer were critically associated with progression from islet autoimmunity to diabetes in the DPT-1 trial.

Author

Zhao, Lue Ping, primary, Skyler, Jay, primary, Papadopoulos, George K., primary, Pugliese, Alberto, primary, Najera, James Antonio, primary, Bondinas, George P., primary, Moustakas, Antonis K., primary, Wang, Ruihan, primary, Pyo, Chul-Woo, primary, Nelson, Wyatt C., primary, Geraghty, Daniel E., primary, and Lernmark, Åke, primary

Published
2022
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22. The KAG motif of HLA-DRB1 (beta 71, beta 74, beta 86) predicts seroconversion and development of type 1 diabetes

Author

Zhao, Lue Ping, Papadopoulos, George K., Lybrand, Terry P., Moustakas, Antonis K., Bondinas, George P., Carlsson, Annelie, Larsson, Helena Elding, Ludvigsson, Johnny, Marcus, Claude, Persson, Martina, Samuelsson, Ulf, Wang, Ruihan, Pyo, Chul-Woo, Nelson, Wyatt C., Geraghty, Daniel E., Rich, Stephen S., Lernmark, Åke, Zhao, Lue Ping, Papadopoulos, George K., Lybrand, Terry P., Moustakas, Antonis K., Bondinas, George P., Carlsson, Annelie, Larsson, Helena Elding, Ludvigsson, Johnny, Marcus, Claude, Persson, Martina, Samuelsson, Ulf, Wang, Ruihan, Pyo, Chul-Woo, Nelson, Wyatt C., Geraghty, Daniel E., Rich, Stephen S., and Lernmark, Åke

Abstract

Background: HLA-DR4, a common antigen of HLA-DRB1, has multiple subtypes that are strongly associated with risk of type 1 diabetes (T1D); however, some are risk neutral or resistant. The pathobiological mechanism of HLA-DR4 subtypes remains to be elucidated. Methods: We used a population-based case-control study of T1D (962 patients and 636 controls) to decipher genetic associations of HLA-DR4 subtypes and specific residues with susceptibility to T1D. Using a birth cohort of 7865 children with periodically measured islet autoantibodies (GADA, IAA or IA-2A), we proposed to validate discovered genetic associations with a totally different study design and time-to-seroconversions prior to clinical onset of T1D. A novel analytic strategy hierarchically organized the HLA-DRB1 alleles by sequence similarity and identified critical amino acid residues by minimizing local genomic architecture and higher-order interactions. Findings: Three amino acid residues of HLA-DRB1 (beta 71, beta 74, beta 86) were found to be predictive of T1D risk in the population-based study. The " KAG" motif, corresponding to HLA-DRB1x04:01, was most strongly associated with T1D risk ([O]dds [R]atio=3.64, p = 3.19 x 10(-64)). Three less frequent motifs ("EAV", OR = 2.55, p = 0.025; "RAG", OR = 1.93, p = 0.043; and "RAV", OR = 1.56, p = 0.003) were associated with T1D risk, while two motifs ("REG" and "REV") were equally protective (OR = 0.11, p = 4.23 x 10(-4)). In an independent birth cohort of HLA-DR3 and HLA-DR4 subjects, those having the "KAG" motif had increased risk for time-to-seroconversion (Hazard Ratio = 1.74, p = 6.51 x 10(-14)) after adjusting potential confounders. Interpretations: DNA sequence variation in HLA-DRB1 at positions beta 71, beta 74, and beta 86 are non-conservative (beta 74 A -> E, beta 71 E vs K vs R and beta 86 G vs V). They result in substantial differences in peptide antigen anchor pocket preferences at p1, p4 and potentially neighboring regions such as pocket

Published
2021
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25. Extraction of surface‐active polymers from the compost of olive processing waste.

Author

Koliastasi, Aikaterini, Kompothekra, Vasiliki, Giotis, Charilaos, Moustakas, Antonios K., Skotti, Efstathia P., Gerakis, Argyrios, Kalogianni, Eleni P., Petridis, Dimitris, and Ritzoulis, Christos

Subjects
OLIVE oil, COMPOSTING, FOOD industrial waste, GEL permeation chromatography, POLYMERS, OIL-water interfaces, OLIVE industry, OLIVE
Abstract

Polysaccharides and proteins with potential use as emulsifiers and thickeners are extracted at pH 5, 7, and 9 from olive processing wastes, from the onset to the end of a full compost cycle (6 months). The aim is to monitor the temporal evolution of parameters which are related to the emulsifying ability, such as surface tension, macromolecular populations distribution, and chemical composition of the produced materials. The products are characterized using size exclusion chromatography (SEC–MALLS/UV), Fourier‐transform infra‐red spectroscopy (FTIR), and equilibrium surface tension. The initial extracts comprise of a large array of macromolecules; following 2 months of composting, the polysaccharides are considerably smaller than the ones at the onset of the composting. During the subsequent months, disintegration of the olive matrix enhances the extraction. At pH 7, a variety of proteins is produced as compared to the equivalent process at pH 5, which is attributed to the charge of proteins, while parts of the cellulosic matrix and some peptidic entities are only released from the humus at the end of the composting. At pH 9 the extraction of polysaccharides is enhanced due to the charged side chains and the elimination of positive charges. These are confirmed from FTIR. The oil (miglyol)–water interfacial tension is higher at the low‐pH extracts, leaving interesting room for adjusting the emulsification capacity (favored at low pH) and the extract composition (macromolecules favored at high pH). This makes for a promising source of valuable additives from the by‐products of the olive processing industry. Practical Applications: In this work, we reclaim surface‐active polysaccharides and proteins with potential use as emulsifiers and thickeners, from olive processing wastes, as these undergo a 6‐months composting cycle. The products are characterized for their composition and oil–water interface activity, a key parameter for their performance as emulsifiers. We highlight the evolution of the extracts composition and their properties as they are reclaimed at different stages of the composting process. This work can provide information on the valorization of highly polluting food processing waste as precursors of high added value food ingredients, with the relevant impact on the environment, the local economy, and the green labeling of foods. [ABSTRACT FROM AUTHOR]

Published
2022
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26. Association of HLA-DQ Heterodimer Residues -18β and β57 With Progression From Islet Autoimmunity to Diabetes in the Diabetes Prevention Trial-Type 1.

Author

Zhao, Lue Ping, Skyler, Jay, Papadopoulos, George K., Pugliese, Alberto, Najera, James Antonio, Bondinas, George P., Moustakas, Antonis K., Wang, Ruihan, Pyo, Chul-Woo, Nelson, Wyatt C., Geraghty, Daniel E., and Lernmark, Åke

Subjects
AUTOANTIBODIES, HLA-B27 antigen, TYPE 1 diabetes, ISLANDS of Langerhans, DISEASE susceptibility, HAPLOTYPES, IMMUNITY, RESEARCH funding, PEPTIDES
Abstract

Objective: The purpose was to test the hypothesis that the HLA-DQαβ heterodimer structure is related to the progression of islet autoimmunity from asymptomatic to symptomatic type 1 diabetes (T1D).Research Design and Methods: Next-generation targeted sequencing was used to genotype HLA-DQA1-B1 class II genes in 670 subjects in the Diabetes Prevention Trial-Type 1 (DPT-1). Coding sequences were translated into DQ α- and β-chain amino acid residues and used in hierarchically organized haplotype (HOH) association analysis to identify motifs associated with diabetes onset.Results: The opposite diabetes risks were confirmed for HLA DQA1*03:01-B1*03:02 (hazard ratio [HR] 1.36; P = 2.01 ∗ 10-3) and DQA1*03:03-B1*03:01 (HR 0.62; P = 0.037). The HOH analysis uncovered residue -18β in the signal peptide and β57 in the β-chain to form six motifs. DQ*VA was associated with faster (HR 1.49; P = 6.36 ∗ 10-4) and DQ*AD with slower (HR 0.64; P = 0.020) progression to diabetes onset. VA/VA, representing DQA1*03:01-B1*03:02 (DQ8/8), had a greater HR of 1.98 (P = 2.80 ∗ 10-3). The DQ*VA motif was associated with both islet cell antibodies (P = 0.023) and insulin autoantibodies (IAAs) (P = 3.34 ∗ 10-3), while the DQ*AD motif was associated with a decreased IAA frequency (P = 0.015). Subjects with DQ*VA and DQ*AD experienced, respectively, increasing and decreasing trends of HbA1c levels throughout the follow-up.Conclusions: HLA-DQ structural motifs appear to modulate progression from islet autoimmunity to diabetes among at-risk relatives with islet autoantibodies. Residue -18β within the signal peptide may be related to levels of protein synthesis and β57 to stability of the peptide-DQab trimolecular complex. [ABSTRACT FROM AUTHOR]

Published
2022
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28. The KAG Motif of HLA-DRB1 (β71, β74, β86) Predicts Seroconversion and Development of Type 1 Diabetes

Author

Zhao, Lue Ping, primary, Papadopoulos, George K, additional, Lybrand, Terry, additional, Moustakas, Antonis K., additional, Bondinas, George P., additional, Carlsson, Annelie, additional, Larsson, Helena Elding, additional, Ludvigsson, Johnny, additional, Marcus, Claude, additional, Persson, Martina, additional, Samuelsson, Ulf, additional, Wang, Ruihan, additional, Pyo, Chul-woo, additional, Nelson, Wyatt C., additional, Geraghty, Daniel E., additional, Rich, Stephen S., additional, Lernmark, Ake, additional, and Group, BDD Study, additional

Published
2021
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29. Next generation HLA sequence analysis uncovers seven HLA-DQ amino acid residues and six motifs resistant to childhood type 1 diabetes

Author

Admin, Ada, primary, Zhao, Lue Ping, primary, Papadopoulos, George K, primary, Kwok, William W., primary, Moustakas, Antonis K., primary, Bondinas, George P., primary, Carlsson, Annelie, primary, Larsson, Helena Elding, primary, Ludvigsson, Johnny, primary, Marcus, Claude, primary, Samuelsson, Ulf, primary, Wang, Ruihan, primary, Pyo, Chul-Woo, primary, Nelson, Wyatt C., primary, Geraghty, Daniel E., primary, and Lernmark, Åke, primary

Published
2020
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30. Next-Generation HLA Sequence Analysis Uncovers Seven HLA-DQ Amino Acid Residues and Six Motifs Resistant to Childhood Type 1 Diabetes

Author

Zhao, Lue Ping, primary, Papadopoulos, George K., additional, Kwok, William W., additional, Moustakas, Antonis K., additional, Bondinas, George P., additional, Carlsson, Annelie, additional, Elding Larsson, Helena, additional, Ludvigsson, Johnny, additional, Marcus, Claude, additional, Samuelsson, Ulf, additional, Wang, Ruihan, additional, Pyo, Chul-Woo, additional, Nelson, Wyatt C., additional, Geraghty, Daniel E., additional, and Lernmark, Åke, additional

Published
2020
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31. Motifs of three HLA-DQ amino acid residues (α44, β57, β135) capture full association with the risk of type 1 diabetes in DQ2 and DQ8 children

Author

Admin, Ada, primary, Zhao, Lue Ping, primary, Papadopoulos, George K, primary, Kwok, William W., primary, Moustakas, Antonis K., primary, Bondinas, George P., primary, Larsson, Helena Elding, primary, Ludvigsson, Johnny, primary, Marcus, Claude, primary, Samuelsson, Ulf, primary, Wang, Ruihan, primary, Pyo, Chul-Woo, primary, Nelson, Wyatt C., primary, Geraghty, Daniel E., primary, and Lernmark, Åke, primary

Published
2020
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32. Motifs of Three HLA-DQ Amino Acid Residues (α44, β57, β135) Capture Full Association With the Risk of Type 1 Diabetes in DQ2 and DQ8 Children

Author

Zhao, Lue Ping, primary, Papadopoulos, George K., additional, Kwok, William W., additional, Moustakas, Antonis K., additional, Bondinas, George P., additional, Larsson, Helena Elding, additional, Ludvigsson, Johnny, additional, Marcus, Claude, additional, Samuelsson, Ulf, additional, Wang, Ruihan, additional, Pyo, Chul-Woo, additional, Nelson, Wyatt C., additional, Geraghty, Daniel E., additional, and Lernmark, Åke, additional

Published
2020
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35. Next-Generation HLA Sequence Analysis Uncovers Seven HLA-DQ Amino Acid Residues and Six Motifs Resistant to Childhood Type 1 Diabetes

Author

Zhao, Lue Ping, Papadopoulos, George K., Kwok, William W., Moustakas, Antonis K., Bondinas, George P., Carlsson, Annelie, Elding Larsson, Helena, Ludvigsson, Johnny, Marcus, Claude, Samuelsson, Ulf, Wang, Ruihan, Pyo, Chul-Woo, Nelson, Wyatt C., Geraghty, Daniel E., Lernmark, Ake, Zhao, Lue Ping, Papadopoulos, George K., Kwok, William W., Moustakas, Antonis K., Bondinas, George P., Carlsson, Annelie, Elding Larsson, Helena, Ludvigsson, Johnny, Marcus, Claude, Samuelsson, Ulf, Wang, Ruihan, Pyo, Chul-Woo, Nelson, Wyatt C., Geraghty, Daniel E., and Lernmark, Ake

Abstract

HLA-DQA1 and -DQB1 genes have significant and potentially causal associations with autoimmune type 1 diabetes (T1D). To follow up on the earlier analysis on high-risk HLA-DQ2.5 and DQ8.1, the current analysis uncovers seven residues (alpha a1, alpha 157, alpha 196, beta 9, beta 30, beta 57, and beta 70) that are resistant to T1D among subjects with DQ4-, 5-, 6-, and7-resistant DQ haplotypes. These 7 residues form 13 common motifs: 6 motifs are significantly resistant, 6 motifs have modest or no associations (Pvalues >0.05), and 1 motif has 7 copies observed among control subjects only. The motifs "DAAFYDG," "DAAYHDG," and "DAAYYDR" have significant resistance to T1D (odds ratios [ORs] 0.03, 0.25, and 0.18;P= 6.11 x 10(-24), 3.54 x 10(-15), and 1.03 x 10(-21), respectively). Remarkably, a change of a single residue from the motif "DAAYHDG" to "DAAYHSG" (D to S at beta 57) alters the resistance potential, from resistant motif (OR 0.15;P= 3.54 x 10(-15)) to a neutral motif (P= 0.183), the change of which was significant (FisherPvalue = 0.0065). The extended set of linked residues associated with T1D resistance and unique to each cluster of HLA-DQ haplotypes represents facets of all known features and functions of these molecules: antigenic peptide binding, peptide-MHC class II complex stability, beta 167-169 RGD loop, T-cell receptor binding, formation of homodimer of alpha-beta heterodimers, and cholesterol binding in the cell membrane rafts. Identification of these residues is a novel understanding of resistant DQ associations with T1D. Our analyses endow potential molecular approaches to identify immunological mechanisms that control disease susceptibility or resistance to provide novel targets for immunotherapeutic strategies., Funding Agencies|National Institutes of Health/National Institute of Diabetes and Digestive and Kidney DiseasesUnited States Department of Health & Human ServicesNational Institutes of Health (NIH) - USANIH National Institute of Diabetes & Digestive & Kidney Diseases (NIDDK) [1R56 DK117276, DK63861, DK26190]; European Foundation for the Study of Diabetes Clinical Research Grants Programme 2013; Swedish Child Diabetes Foundation (Barndiabetesfonden); Swedish Research CouncilSwedish Research Council; Linne grant; Skane County Council for Research and Development; Swedish Association of Local Authorities and Regions

Published
2020
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36. Motifs of Three HLA-DQ Amino Acid Residues (alpha 44, beta 57, beta 135) Capture Full Association With the Risk of Type 1 Diabetes in DQ2 and DQ8 Children

Author

Zhao, Lue Ping, Papadopoulos, George K., Kwok, William W., Moustakas, Antonis K., Bondinas, George P., Larsson, Helena Elding, Ludvigsson, Johnny, Marcus, Claude, Samuelsson, Ulf, Wang, Ruihan, Pyo, Chul-Woo, Nelson, Wyatt C., Geraghty, Daniel E., Lernmark, Ake, Zhao, Lue Ping, Papadopoulos, George K., Kwok, William W., Moustakas, Antonis K., Bondinas, George P., Larsson, Helena Elding, Ludvigsson, Johnny, Marcus, Claude, Samuelsson, Ulf, Wang, Ruihan, Pyo, Chul-Woo, Nelson, Wyatt C., Geraghty, Daniel E., and Lernmark, Ake

Abstract

HLA-DQA1 and -DQB1 are strongly associated with type 1 diabetes (T1D), and DQ8.1 and DQ2.5 are major risk haplotypes. Next-generation targeted sequencing of HLA-DQA1 and -DQB1 in Swedish newly diagnosed 1- to 18 year-old patients (n= 962) and control subjects (n= 636) was used to construct abbreviated DQ haplotypes, converted into amino acid (AA) residues, and assessed for their associations with T1D. A hierarchically organized haplotype (HOH) association analysis allowed 45 unique DQ haplotypes to be categorized into seven clusters. The DQ8/9 cluster included two DQ8.1 risk and the DQ9 resistant haplotypes, and the DQ2 cluster included the DQ2.5 risk and DQ2.2 resistant haplotypes. Within each cluster, HOH found residues alpha 44Q (odds ratio [OR] 3.29,P= 2.38 * 10(-85)) and beta 57A (OR 3.44,P= 3.80 * 10(-84)) to be associated with T1D in the DQ8/9 cluster representing all ten residues (alpha 22, alpha 23, alpha 44, alpha 49, alpha 51, alpha 53, alpha 54, alpha 73, alpha 184, beta 57) due to complete linkage disequilibrium (LD) of alpha 44 with eight such residues. Within the DQ2 cluster and due to LD, HOH analysis found alpha 44C and beta 135D to share the risk for T1D (OR 2.10,P= 1.96 * 10(-20)). The motif "QAD" of alpha 44, beta 57, and beta 135 captured the T1D risk association of DQ8.1 (OR 3.44,P= 3.80 * 10(-84)), and the corresponding motif "CAD" captured the risk association of DQ2.5 (OR 2.10,P= 1.96 * 10(-20)). Two risk associations were related to GAD65 autoantibody (GADA) and IA-2 autoantibody (IA-2A) but in opposite directions. CAD was positively associated with GADA (OR 1.56,P= 6.35 * 10(-8)) but negatively with IA-2A (OR 0.59,P= 6.55 * 10(-11)). QAD was negatively associated with GADA (OR 0.88;P= 3.70 * 10(-3)) but positively with IA-2A (OR 1.64;P= 2.40 * 10(-14)), despite a single difference at alpha 44. The residues are found in and around anchor pockets 1 and 9, as potential T-cell receptor contacts, in the areas for CD4 binding and putative homodi, Funding Agencies|National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK), National Institutes of HealthUnited States Department of Health & Human ServicesNational Institutes of Health (NIH) - USANIH National Institute of Diabetes & Digestive & Kidney Diseases (NIDDK) [1R01DK117276]; European Foundation for the Study of Diabetes; Swedish Child Diabetes Foundation (Barndiabetesfonden); NIDDK, National Institutes of HealthUnited States Department of Health & Human ServicesNational Institutes of Health (NIH) - USANIH National Institute of Diabetes & Digestive & Kidney Diseases (NIDDK) [DK63861, DK26190]; Swedish Research CouncilSwedish Research Council; Skane County Council for Research and Development; Swedish Association of Local Authorities and Regions (SKL)

Published
2020
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39. A modified flow cytometry method for objective estimation of human CD4 + regulatory T cells (CD4 + Tregs) in peripheral blood, via CD4/CD25/CD45RO/FoxP3 labeling

Author

Petsiou, Asimina, primary, Paschou, Stavroula A., additional, Vartholomatos, Georgios, additional, Chatzigianni, Katerina, additional, Kolaitis, Nikolaos, additional, Giotaki, Eleni, additional, Bondinas, George P., additional, Moustakas, Antonis K., additional, Karamoutsios, Achilleas, additional, Zervou, Eleftheria, additional, Tigas, Stelios, additional, Tsatsoulis, Agathocles, additional, and Papadopoulos, George K., additional

Published
2019
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40. Discriminative T cell recognition of cross-reactive islet-antigens is associated with HLA-DQ8 transdimer–mediated autoimmune diabetes

Author

Chow, I-Ting, primary, Gates, Theresa J., additional, Papadopoulos, George K., additional, Moustakas, Antonis K., additional, Kolawole, Elizabeth M., additional, Notturno, Richard J., additional, McGinty, John W., additional, Torres-Chinn, Nadia, additional, James, Eddie A., additional, Greenbaum, Carla, additional, Nepom, Gerald T., additional, Evavold, Brian D., additional, and Kwok, William W., additional

Published
2019
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41. Emulsifiers from Partially Composted Olive Waste

Author

Koliastasi, Aikaterini, primary, Kompothekra, Vasiliki, additional, Giotis, Charilaos, additional, Moustakas, Antonis K., additional, Skotti, Efstathia P., additional, Gerakis, Argyrios, additional, Kalogianni, Eleni, additional, and Ritzoulis, Christos, additional

Published
2019
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44. Eleven Amino Acids of HLA-DRB1 and Fifteen Amino Acids of HLA-DRB3, 4, and 5 Include Potentially Causal Residues Responsible for the Risk of Childhood Type 1 Diabetes

Author

Zhao, Lue Ping, primary, Papadopoulos, George K., additional, Kwok, William W., additional, Xu, Bryan, additional, Kong, Matthew, additional, Moustakas, Antonis K., additional, Bondinas, George P., additional, Carlsson, Annelie, additional, Elding-Larsson, Helena, additional, Ludvigsson, Johnny, additional, Marcus, Claude, additional, Persson, Martina, additional, Samuelsson, Ulf, additional, Wang, Ruihan, additional, Pyo, Chul-Woo, additional, Nelson, Wyatt C., additional, Geraghty, Daniel E., additional, and Lernmark, Åke, additional

Published
2019
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46. Eleven Amino Acids of HLA-DRB1 and Fifteen Amino Acids of HLA-DRB3, 4, and 5 Include Potentially Causal Residues Responsible for the Risk of Childhood Type 1 Diabetes

Author

Zhao, Lue Ping, Papadopoulos, George K., Kwok, William W., Xu, Bryan, Kong, Matthew, Moustakas, Antonis K., Bondinas, George P., Carlsson, Annelie, Elding-Larsson, Helena, Ludvigsson, Johnny, Marcus, Claude, Persson, Martina, Samuelsson, Ulf, Wang, Ruihan, Pyo, Chul-Woo, Nelson, Wyatt C., Geraghty, Daniel E., Lernmark, Ake, Zhao, Lue Ping, Papadopoulos, George K., Kwok, William W., Xu, Bryan, Kong, Matthew, Moustakas, Antonis K., Bondinas, George P., Carlsson, Annelie, Elding-Larsson, Helena, Ludvigsson, Johnny, Marcus, Claude, Persson, Martina, Samuelsson, Ulf, Wang, Ruihan, Pyo, Chul-Woo, Nelson, Wyatt C., Geraghty, Daniel E., and Lernmark, Ake

Abstract

Next-generation targeted sequencing of HLA-DRB1 and HLA-DRB3, -DRB4, and -DRB5 (abbreviated as DRB345) provides high resolution of functional variant positions to investigate their associations with type 1 diabetes risk and with autoantibodies against insulin (IAA), GAD65 (GADA), IA-2 (IA-2A), and ZnT8 (ZnT8A). To overcome exceptional DR sequence complexity as a result of high polymorphisms and extended linkage disequilibrium among the DR loci, we applied a novel recursive organizer (ROR) to discover disease-associated amino acid residues. ROR distills disease-associated DR sequences and identifies 11 residues of DRB1, sequences of which retain all significant associations observed by DR genes. Furthermore, all 11 residues locate under/adjoining the peptide-binding groove of DRB1, suggesting a plausible functional mechanism through peptide binding. The 15 residues of DRB345, located respectively in the beta 49-55 homodimerization patch and on the face of the molecule shown to interact with and bind to the accessory molecule CD4, retain their significant disease associations. Further ROR analysis of DR associations with autoantibodies finds that DRB1 residues significantly associated with ZnT8A and DRB345 residues with GADA. The strongest association is between four residues (beta 14, beta 25, beta 71, and beta 73) and IA-2A, in which the sequence ERKA confers a risk association (odds ratio 2.15, P = 10(-18)), and another sequence, ERKG, confers a protective association (odds ratio 0.59, P = 10(-11)), despite a difference of only one amino acid. Because motifs of identified residues capture potentially causal DR associations with type 1 diabetes, this list of residuals is expected to include corresponding causal residues in this study population., Funding Agencies|National Institute of Diabetes and Digestive and Kidney Diseases [R56-DK-117276, R01-DK-117276, DK-63861, DK-26190]; European Foundation for the Study of Diabetes Clinical Research Grants Programme 2013; Swedish Child Diabetes Foundation (Barndiabetesfonden); Swedish Research Council; Skane County Council for Research and Development; Swedish Association of Local Authorities and Regions; Forskningsradet om Halsa, Arbetsliv och Valfard; European Union [MIS 91949]

Published
2019
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48. SEASONAL VARIATIONS IN LEAF NUTRIENT CONCENTRATIONS IN THREE FIG (FICUS CARICA L.) VARIETIES.

Author

Benou, Konstantina G., Ioannou, Dafni I., and Moustakas, Nicholas K.

Abstract

Leaves from three fig (Ficus carica L.) varieties (White, Black Royal and White Royal) were collected at different development stages of the tree, i.e. flowering, fruit development, fruit maturity, and postharvest, after which the variation of macro- (K, Na, Ca, Mg, N, P) and micronutrient (Fe, Mn, Cu, Zn, B) concentrations during the growing season were measured. The leaf concentrations of N, P, K, Ca and Mg during the studied period for the White variety ranged from 19 to 25, from 1.1 to 1.3, from 13 to 18, from 20 to 24 and from 2.7 to 2.9 g kg-1 (on dry weight basis DW), respectively. The corresponding values for the Black Royal variety ranged from 22 to 26, from 1.1 to 1.4, from 13 to 19, from 23 to 29 and from 2.5 to 3.4 g kg-1 (DW), respectively. The corresponding values for the White Royal variety ranged from 19 to 25, 0.9 to 1.2, 10 to 17, 26 to 30 and 4.3 to 4.5 g kg-1 (DW), respectively. The leaf content values of Fe, Zn, Cu, Mn, and B during the studied period for the White variety ranged from 107 to 147, from 42 to 35, from 10 to 9, from 52 to 61 and from 23 to 40 mg kg-1 (DW), respectively. The corresponding values for the Black Royal variety ranged from 77 to 155, from 38 to 41, from 8 to 9, from 52 to 66 and from 23 to 56 mg kg-1 (DW), respectively. The corresponding values for the White Royal variety ranged from 84 to 126, from 44 to 48, from 8 to 9, from 88 to 98 and from 23 to 47 mg kg-1 (DW), respectively. According to the results, the leaf nutritional content varies in the plant’s development stages and there were differences between the fig varieties in the nutrient content at different development stages, which indicated that different varieties of plants need different amounts of nutrients during the growing cycle. These results should be taken into consideration when elaborating a fertilization program. [ABSTRACT FROM AUTHOR]

Published
2020
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