Your search keyword '"Amininejad, L"' showing total 40 results

1. SARS-CoV-2 antibody vaccine response in Inflammatory Bowel Disease patients with positive anti-nucleocapsid serology or history of COVID-19 infection.

Author

Hoyois, A., Gulkilik, C., Mekkaoui, L., Dahma, H., Wambacq, V., Minsart, C., Rosewick, N., Liefferinckx, C., Amininejad, L., Van Gossum, A., Cremer, A., Vandenberg, O., and Franchimont, D.

Published

2024

2. Incidence and Predictors of Success of Adalimumab Dose Escalation and De-escalation in Ulcerative Colitis: a Real-World Belgian Cohort Study

Author

Van de Vondel, Saartje, Baert, Filip, Reenaers, Christine, Vanden Branden, Stijn, Amininejad, Leila, Dewint, Pieter, Van Moerkercke, Wouter, Rahier, Jean-François, Hindryckx, Pieter, Bossuyt, Peter, Ferrante, Marc, Baert, F, De Wulf, D, Moortgat, L, De Cock, E, Decaestecker, L, D’Hondt, A, Van Moerkercke, W, Himpe, S, Dewint, P, Reenaers, C, Van Kemzeke, C, Louis, E, Rahier, J F, Amininejad, L, Franchimont, D, Wambacq, V, Bossuyt, P, Van de Schoot, I, Asnong, K, Vanden Branden, S, Sterckx, A, Hindryckx, P, De Vos, M, Ferrante, M, Noman, M, Vermeire, S, Van Assche, G, Franchimont, D, Rahier, J -F, Ferrante, M, and Vermeire, S

Published

2018

3. P560 Trough levels at induction: impact on long term response when re-initiating infliximab

Author

Liefferinckx, C., Minsart, C., Toubeau, J.-F., Cremer, A., Amininejad, L., Quertinmont, E., Devière, J., Gils, A., Van Gossum, A., and Franchimont, D.

Published

2017

4. P438 Adalimumab dose escalation and de-escalation in ulcerative colitis: incidence and predictors of success. A real life Belgian cohort study

Author

Van de Vondel, S., Baert, F., Reenaers, C., Bossuyt, P., Hindryckx, P., Vanden Branden, S., Amininejad, L., Dewint, P., Rahier, J.F., and Ferrante, M.

Published

2017

5. P346 Single-centre experience of ustekinumab: Therapeutic drug monitoring in Crohn’s disease patients

Author

Liefferinckx, C, primary, Fassin, M, additional, Thomas, D, additional, Minsart, C, additional, Cremer, A, additional, Amininejad, L, additional, Tafciu, V, additional, Wambacq, V, additional, Van Gossum, A, additional, and Franchimont, D, additional

Published

2020

6. P115 Real-world experience of peri-operative treatments on surgical complications after Ileo-caecal resection in Crohn’s disease

Author

Di Stefano, S, primary, Liefferinckx, C, additional, Cremer, A, additional, Amininejad, L, additional, Van Gossum, A, additional, Devière, J, additional, Van de Stadt, J, additional, Franchimont, D, additional, and Buggenhout, A, additional

Published

2020

7. DOP38 Prevalence of fatigue in a severe inflammatory bowel disease cohort highly exposed to biologics

Author

Liefferinckx, C, primary, El hamdi, M, additional, Fassin, M, additional, Cremer, A, additional, Minsart, C, additional, Amininejad, L, additional, Wambacq, V, additional, Van Gossum, A, additional, and Franchimont, D, additional

Published

2020

8. IBD risk loci are enriched in multigenic regulatory modules encompassing putative causative genes

Author

Momozawa, Y, Dmitrieva, J, Theatre, E, Deffontaine, V, Rahmouni, S, Charloteaux, B, Crins, F, Docampo, E, Elansary, M, Gori, AS, Lecut, C, Mariman, R, Mni, M, Oury, C, Altukhov, I, Alexeev, D, Aulchenko, Y, Amininejad, L, Bouma, G, Hoentjen, F, Lowenberg, M, Oldenburg, B, Pierik, MJ, de Jong, AE, van der Woude, C.J., Visschedijk, MC, Lathrop, M, Hugot, JP, Weersma, RK, Vos, M, Franchimont, D, Vermeire, S, Kubo, M, Louis, E, Georges, M, Abraham, C, Achkar, JP, Ahmad, T, Ananthakrishnan, AN, Andersen, V, Anderson, CA, Andrews, JM, Annese, V, Aumais, G, Baidoo, L, Baldassano, RN, Bampton, PA, Barclay, M, Barrett, JC, Bayless, TM, Bethge, J, Bitton, A, Boucher, G, Brand, S, Brandt, B, Brant, SR, Buning, C, Chew, A, Cho, JH, Cleynen, I, Cohain, A, Croft, A, Daly, MJ, D'Amato, M, Danese, S, Jong, D, Denapiene, G, Denson, LA, Devaney, KL, Dewit, O, D'Inca, R, Dubinsky, M, Duerr, RH, Edwards, C, Ellinghaus, D, Essers, J, Ferguson, LR, Festen, EA, Fleshner, P, Florin, T, Franke, A, Fransen, K, Gearry, R, Gieger, C, Glas, J, Goyette, P, Green, T, Griffiths, AM, Guthery, SL, Hakonarson, H, Halfvarson, J, Hanigan, K, Haritunians, T, de Hart, A, Hawkey, C, Hayward, NK, Hedl, M, Henderson, P, Hu, XH, Huang, HL, Hui, KY, Imielinski, M, Ippoliti, A, Jonaitis, L, Jostins, L, Karlsen, TH, Kennedy, NA, Khan, MA, Kiudelis, G, Krishnaprasad, K, Kugathasan, S, Kupcinskas, L, Latiano, A, Laukens, D, Lawrance, IC, Lee, JC, Lees, CW, Leja, M, van Limbergen, J, Lionetti, P, Liu, JZ, Mahy, G, Mansfield, J, Massey, D, Mathew, CG, McGovern, DPB, Milgrom, R, Mitrovic, M, Montgomery, GW, Mowat, C, Newman, W, Ng, A, Ng, SC, Ng, SME, Nikolaus, S, Ning, K, Nothen, M, Oikonomou, I, Palmieri, O, Parkes, M, Phillips, A, Ponsioen, CY, Potocnik, U, Prescott, NJ, Proctor, DD, Radford-Smith, G, Rahier, JF, Raychaudhuri, S, Regueiro, M, Rieder, F, Rioux, JD, Ripke, S, Roberts, R, Russell, RK, Sanderson, JD, Sans, M, Satsangi, J, Schadt, EE, Schreiber, S, Schulte, D, Schumm, LP, Scott, R, Seielstad, M, Sharma, Y, Silverberg, MS, Simms, LA, Skieceviciene, J, Spain, SL, Steinhart, AH, Stempak, JM, Stronati, L, Sventoraityte, J, Targan, SR, Taylor, KM, Velde, A, Torkvist, L, Tremelling, M, van Sommeren, S, Vasiliauskas, E, Verspaget, HW, Walters, T, Wang, K, Wang, MH, Wei, Z, Whiteman, D, Wijmenga, C, Wilson, DC, Winkelmann, J, Xavier, RJ, Zhang, B, Zhang, CK, Zhang, H, Zhang, W, Zhao, HY, Zhao, ZZ, Momozawa, Y, Dmitrieva, J, Theatre, E, Deffontaine, V, Rahmouni, S, Charloteaux, B, Crins, F, Docampo, E, Elansary, M, Gori, A, Lecut, C, Mariman, R, Mni, M, Oury, C, Altukhov, I, Alexeev, D, Aulchenko, Y, Amininejad, L, Bouma, G, Hoentjen, F, Lowenberg, M, Oldenburg, B, Pierik, Mj, vander Meulen-de Jong, Ae, van der Woude, Cj, Visschedijk, Mc, Lathrop, M, Hugot, Jp, Weersma, Rk, De Vos, M, Franchimont, D, Vermeire, S, Kubo, M, Louis, E, Georges, M, Abraham, C, Achkar, Jp, Ahmad, T, Ananthakrishnan, An, Andersen, V, Anderson, Ca, Andrews, Jm, Annese, V, Aumais, G, Baidoo, L, Baldassano, Rn, Bampton, Pa, Barclay, M, Barrett, Jc, Bayless, Tm, Bethge, J, Bitton, A, Boucher, G, Brand, S, Brandt, B, Brant, Sr, Buning, C, Chew, A, Cho, Jh, Cleynen, I, Cohain, A, Croft, A, Daly, Mj, D'Amato, M, Danese, S, De Jong, D, Denapiene, G, Denson, La, Devaney, Kl, Dewit, O, D'Inca, R, Dubinsky, M, Duerr, Rh, Edwards, C, Ellinghaus, D, Essers, J, Ferguson, Lr, Festen, Ea, Fleshner, P, Florin, T, Franke, A, Fransen, K, Gearry, R, Gieger, C, Glas, J, Goyette, P, Green, T, Griffiths, Am, Guthery, Sl, Hakonarson, H, Halfvarson, J, Hanigan, K, Haritunians, T, Hart, A, Hawkey, C, Hayward, Nk, Hedl, M, Henderson, P, Hu, Xh, Huang, Hl, Hui, Ky, Imielinski, M, Ippoliti, A, Jonaitis, L, Jostins, L, Karlsen, Th, Kennedy, Na, Khan, Ma, Kiudelis, G, Krishnaprasad, K, Kugathasan, S, Kupcinskas, L, Latiano, A, Laukens, D, Lawrance, Ic, Lee, Jc, Lees, Cw, Leja, M, Van Limbergen, J, Lionetti, P, Liu, Jz, Mahy, G, Mansfield, J, Massey, D, Mathew, Cg, Mcgovern, Dpb, Milgrom, R, Mitrovic, M, Montgomery, Gw, Mowat, C, Newman, W, Ng, A, Ng, Sc, Ng, Sme, Nikolaus, S, Ning, K, Nothen, M, Oikonomou, I, Palmieri, O, Parkes, M, Phillips, A, Ponsioen, Cy, Potocnik, U, Prescott, Nj, Proctor, Dd, Radford-Smith, G, Rahier, Jf, Raychaudhuri, S, Regueiro, M, Rieder, F, Rioux, Jd, Ripke, S, Roberts, R, Russell, Rk, Sanderson, Jd, Sans, M, Satsangi, J, Schadt, Ee, Schreiber, S, Schulte, D, Schumm, Lp, Scott, R, Seielstad, M, Sharma, Y, Silverberg, M, Simms, La, Skieceviciene, J, Spain, Sl, Steinhart, Ah, Stempak, Jm, Stronati, L, Sventoraityte, J, Targan, Sr, Taylor, Km, ter Velde, A, Torkvist, L, Tremelling, M, van Sommeren, S, Vasiliauskas, E, Verspaget, Hw, Walters, T, Wang, K, Wang, Mh, Wei, Z, Whiteman, D, Wijmenga, C, Wilson, Dc, Winkelmann, J, Xavier, Rj, Zhang, B, Zhang, Ck, Zhang, H, Zhang, W, Zhao, Hy, Zhao, Zz, Gastroenterology & Hepatology, UCL - SSS/IREC/GAEN - Pôle d'Hépato-gastro-entérologie, and UCL - (MGD) Service de gastro-entérologie

Subjects

Adult, Male, Multifactorial Inheritance, QUANTITATIVE TRAIT LOCUS, Genotype, SEQUENCING DATA, Quantitative Trait Loci, SUSCEPTIBILITY, Polymorphism, Single Nucleotide, Article, Cohort Studies, CODING VARIANTS, Crohn Disease, 80 and over, Journal Article, Medicine and Health Sciences, LOCUS, Humans, Genetic Predisposition to Disease, Polymorphism, GENOME-WIDE ASSOCIATION, Genetic Association Studies, Aged, Aged, 80 and over, Science & Technology, Female, Gene Expression Profiling, Inflammatory Bowel Diseases, Middle Aged, Sequence Analysis, DNA, COMPLEX TRAITS, Biology and Life Sciences, Single Nucleotide, DNA, CROHNS-DISEASE, Multidisciplinary Sciences, QUANTITATIVE TRAIT, RARE VARIANTS, Science & Technology - Other Topics, LOW-FREQUENCY, Sequence Analysis, INFLAMMATORY-BOWEL-DISEASE

Abstract

GWAS have identified >200 risk loci for Inflammatory Bowel Disease (IBD). The majority of disease associations are known to be driven by regulatory variants. To identify the putative causative genes that are perturbed by these variants, we generate a large transcriptome data set (nine disease-relevant cell types) and identify 23,650 cis-eQTL. We show that these are determined by ∼9720 regulatory modules, of which ∼3000 operate in multiple tissues and ∼970 on multiple genes. We identify regulatory modules that drive the disease association for 63 of the 200 risk loci, and show that these are enriched in multigenic modules. Based on these analyses, we resequence 45 of the corresponding 100 candidate genes in 6600 Crohn disease (CD) cases and 5500 controls, and show with burden tests that they include likely causative genes. Our analyses indicate that ≥10-fold larger sample sizes will be required to demonstrate the causality of individual genes using this approach., Most of the more than 200 known genetic risk loci for inflammatory bowel disease (IBD) reside in regulatory regions. Here, the authors provide eQTL datasets for six circulating immune cell types and ileal, colonic and rectal biopsies to map regulatory modules and identify potential causative genes for IBD.

Published

2018

9. IBD risk loci are enriched in multigenic regulatory modules encompassing putative causative genes

Author

Momozawa, Y., Dmitrieva, J., Theatre, E., Deffontaine, V., Rahmouni, S., Charloteaux, B., Crins, F., Docampo, E., Elansary, M., Gori, A.S., Lecut, C., Mariman, R., Mni, M., Oury, C., Altukhov, I., Alexeev, D., Aulchenko, Y., Amininejad, L., Bouma, G., Hoentjen, F., Lowenberg, M., Oldenburg, B., Pierik, M.J., vander Meulen-de Jong, A.E., Woude, C.J. van der, Visschedijk, M.C., Lathrop, M., Hugot, J.P., Weersma, R.K., Vos, M. de, Franchimont, D., Vermeire, S., Kubo, M., Louis, E., Georges, M., Abraham, C., Achkar, J.P., Ahmad, T., Ananthakrishnan, A.N., Andersen, V., Anderson, C.A., Andrews, J.M., Annese, V., Aumais, G., Baidoo, L., Baldassano, R.N., Bampton, P.A., Barclay, M., Barrett, J.C., Bayless, T.M., Bethge, J., Bitton, A., Boucher, G., Brand, S., Brandt, B., Brant, S.R., Buning, C., Chew, A., Cho, J.H., Cleynen, I., Cohain, A., Croft, A., Daly, M.J., D'Amato, M., Danese, S., Jong, D. de, Denapiene, G., Denson, L.A., Devaney, K.L., Dewit, O., D'Inca, R., Dubinsky, M., Duerr, R.H., Edwards, C., Ellinghaus, D., Essers, J., Ferguson, L.R., Festen, E.A., Fleshner, P., Florin, T., Franke, A., Fransen, K., Gearry, R., Gieger, C., Glas, J., Goyette, P., Green, T., Griffiths, A.M., Guthery, S.L., Hakonarson, H., Halfvarson, J., Hanigan, K., Haritunians, T., Hart, A., Hawkey, C., Hayward, N.K., Hedl, M., Henderson, P., Hu, X.H., Huang, H.L., Hui, K.Y., Imielinski, M., Ippoliti, A., Jonaitis, L., Jostins, L., Karlsen, T.H., Kennedy, N.A., Khan, M.A., Kiudelis, G., Krishnaprasad, K., Kugathasan, S., Kupcinskas, L., Latiano, A., Laukens, D., Lawrance, I.C., Lee, J.C., Lees, C.W., Leja, M., Limbergen, J. van, Lionetti, P., Liu, J.Z., Mahy, G., Mansfield, J., Massey, D., Mathew, C.G., McGovern, D.P.B., Milgrom, R., Mitrovic, M., Montgomery, G.W., Mowat, C., Newman, W., Ng, A., Ng, S.C., Ng, S.M.E., Nikolaus, S., Ning, K., Nothen, M., Oikonomou, I., Palmieri, O., Parkes, M., Phillips, A., Ponsioen, C.Y., Potocnik, U., Prescott, N.J., Proctor, D.D., Radford-Smith, G., Rahier, J.F., Raychaudhuri, S., Regueiro, M., Rieder, F., Rioux, J.D., Ripke, S., Roberts, R., Russell, R.K., Sanderson, J.D., Sans, M., Satsangi, J., Schadt, E.E., Schreiber, S., Schulte, D., Schumm, L.P., Scott, R., Seielstad, M., Sharma, Y., Silverberg, M.S., Simms, L.A., Skieceviciene, J., Spain, S.L., Steinhart, A.H., Stempak, J.M., Stronati, L., Sventoraityte, J., Targan, S.R., Taylor, K.M., Velde, A. ter, Torkvist, L., Tremelling, M., Sommeren, S. van, Vasiliauskas, E., Verspaget, H.W., Walters, T., Wang, K., Wang, M.H., Wei, Z., Whiteman, D., Wijmenga, C., Wilson, D.C., Winkelmann, J., Xavier, R.J., Zhang, B., Zhang, C.K., Zhang, H., Zhang, W., Zhao, H.Y., Zhao, Z.Z., and Int IBD Genetics Consortium

Published

2018

10. SUN-PO224: Prevalence of Malnutrition in a Cohort of Crohn’s Disease Patients According to the New GLIM Criteria

Author

Brouyère, E., primary, Amininejad, L., additional, Cremer, A., additional, Liefferinckx, C., additional, Minsart, C., additional, Devière, J., additional, Franchimont, D., additional, and Van Gossum, A., additional

Published

2019

11. IBD risk loci are enriched in multigenic regulatory modules encompassing putative causative genes

Author

Momozawa, Y. (Yukihide), Dmitrieva, J. (Julia), Théâtre, E. (Emilie), Deffontaine, V. (Valérie), Rahmouni, S. (Souad), Charloteaux, B. (Benoît), Crins, F. (François), Docampo, E. (Elisa), Elansary, M. (Mahmoud), Gori, A.-S. (Ann-Stephan), Lecut, C. (Christelle), Mariman, R. (Rob), Mni, M. (Myriam), Oury, C. (Cécile), Altukhov, I. (Ilya), Alexeev, D. (Dmitry), Aulchenko, Y.S. (Yurii), Amininejad, L. (Leila), Bouma, G. (Gerd), Hoentjen, F., Löwenberg, M., Oldenburg, B. (Bas), Pierik, M. (Marieke), Vander Meulen-De Jong, A.E. (Andrea E.), Woude, C.J. (Janneke) van der, Visschedijk, M. (Marijn), Lathrop, M. (Mark), Hugot, J.P. (J.), Weersma, R.K. (Rinse), De Vos, M. (Martine), Franchimont, D. (Denis), Vermeire, S. (Séverine), Kubo, M. (Michiaki), Louis, E. (Edouard), Georges, M. (Michel), Abraham, C. (Clara), Achkar, J.-P. (Jean-Paul), Ahmad, T. (Tariq), Ananthakrishnan, A.N. (Ashwin N.), Andersen, V. (Vibeke), Anderson, C.A. (Carl A.), Andrews, J.M. (Jane M.), Annese, V. (Vito), Aumais, G. (Guy), Baidoo, L. (Leonard), Baldassano, R.N. (Robert), Bampton, P.A. (Peter A.), Barclay, M. (Murray), Barrett, J.C. (Jeffrey), Bayless, T.M. (Theodore M.), Bethge, J. (Johannes), Bitton, A., Boucher, G. (Gabrielle), Brand, S. (Stephan), Brandt, B. (Berenice), Brant, S.R. (Steven R.), Büning, C. (Carsten), Chew, A. (Angela), Cho, J.H. (Judy H.), Cleynen, I. (Isabelle), Cohain, A. (Ariella), Croft, A. (Anthony), Daly, M.J. (Mark J.), D'Amato, M. (Mauro), Danese, S. (Silvio), De Jong, D.J. (Dirk J.), Denapiene, G. (Goda), Denson, L.A. (Lee A.), Devaney, K.L. (Kathy L.), Dewit, O. (Olivier), D'Inca, R. (Renata), Dubinsky, M. (Marla), Duerr, R.H. (Richard), Edwards, C. (Cathryn), Ellinghaus, D. (David), Essers, J.B. (Jonah), Ferguson, L.R. (Lynnette R.), Festen, E.A.M. (Eleonora), Fleshner, P. (Philip), Florin, T. (Tim), Franke, A. (Andre), Fransen, K. (Karin), Gearry, R. (Richard), Gieger, C. (Christian), Glas, J. (Jürgen), Goyette, P. (Philippe), Green, T. (Todd), Griffiths, A.M. (Anne), Guthery, S.L. (Stephen L.), Hakonarson, H. (Hakon), Halfvarson, J. (Jonas), Hanigan, K. (Katherine), Haritunians, T. (Talin), Hart, A. (Ailsa), Hawkey, S., Hayward, N.K. (Nicholas K.), Hedl, M. (Matija), Henderson, P. (Paul), Hu, X. (Xinli), Huang, H. (Hailiang), Hui, K.Y. (Ken Y.), Imielinski, M. (Marcin), Ippoliti, A. (Andrew), Jonaitis, L. (Laimas), Jostins, L. (Luke), Karlsen, T.H. (Tom), Kennedy, N.A. (Nicholas A.), Khan, M.A. (Mohammed Azam), Kiudelis, G. (Gediminas), Krishnaprasad, K. (Krupa), Kugathasan, S. (Subra), Kupcinskas, L. (Limas), Latiano, A. (Anna), Laukens, D. (Debby), Lawrance, I.C. (Ian C.), Lee, J.C. (James C.), Lees, C.W. (Charlie), Leja, M. (Marcis), Van Limbergen, J. (Johan), Lionetti, P. (Paolo), Liu, J.Z. (Jimmy Z.), Mahy, G. (Gillian), Mansfield, J. (John), Massey, D. (Dunecan), Mathew, J. (Joseph), McGovern, D.P.B. (Dermot P.B.), Milgrom, R. (Raquel), Mitrovic, M. (Mitja), Montgomery, G.W. (Grant W.), Mowat, C. (Craig), Newman, W.G. (William G.), Ng, A. (Aylwin), Ng, S.C. (Siew C.), Ng, S.M.E. (Sok Meng Evelyn), Nikolaus, S. (Susanna), Ning, K. (Kaida), Nöthen, M.M. (Markus), Oikonomou, I. (Ioannis), Palmieri, O. (Orazio), Parkes, M. (Miles), Phillips, A. (Anne), Ponsioen, C.Y. (Cyril), Potocnik, U. (Uros), Prescott, N.J. (Natalie J.), Proctor, D.D. (Deborah D.), Radford-Smith, G. (Graham), Rahier, J.F. (J.), Raychaudhuri, S. (Soumya), Regueiro, M. (Miguel), Rieder, F. (Florian), Rioux, J.D. (John), Ripke, S. (Stephan), Roberts, R. (Rebecca), Russell, R.K. (Richard), Sanderson, J.D. (Jeremy), Sans, S. (Susana), Satsangi, J. (Jack), Schadt, E.E. (Eric), Schreiber, S. (Stefan), Schulte, D. (Dominik), Schumm, L.P. (L. Philip), Scott, R. (Regan), Seielstad, M. (Mark), Sharma, Y. (Yashoda), Silverberg, M. (Mark), Simms, L.A. (Lisa A.), Skieceviciene, J. (Jurgita), Spain, S.L. (Sarah L.), Steinhart, A.H. (A. Hillary), Stempak, J.M. (Joanne M.), Stronati, L. (Laura), Sventoraityte, J. (Jurgita), Targan, S.R. (Stephan R.), Taylor, K.M. (Kirstin M.), Ter Velde, A. (Anje), Torkvist, L. (Leif), Tremelling, M. (Mark), Van Sommeren, S. (Suzanne), Vasiliauskas, E. (Eric), Verspaget, H.W., Walters, T. (Thomas), Wang, K. (Kai), Wang, M.-H. (Ming-Hsi), Wei, Z. (Zhi), Whiteman, D.C. (David C.), Wijmenga, C. (Cisca), Wilson, D.C. (David C.), Winkelmann, B., Xavier, R.J. (Ramnik J.), Zhang, B. (Bin), Zhang, C.K. (Clarence K.), Zhang, H. (Hu), Zhang, W. (Wei), Zhao, H. (Hongyu), Zhao, Z.Z. (Zhen Z.), Momozawa, Y. (Yukihide), Dmitrieva, J. (Julia), Théâtre, E. (Emilie), Deffontaine, V. (Valérie), Rahmouni, S. (Souad), Charloteaux, B. (Benoît), Crins, F. (François), Docampo, E. (Elisa), Elansary, M. (Mahmoud), Gori, A.-S. (Ann-Stephan), Lecut, C. (Christelle), Mariman, R. (Rob), Mni, M. (Myriam), Oury, C. (Cécile), Altukhov, I. (Ilya), Alexeev, D. (Dmitry), Aulchenko, Y.S. (Yurii), Amininejad, L. (Leila), Bouma, G. (Gerd), Hoentjen, F., Löwenberg, M., Oldenburg, B. (Bas), Pierik, M. (Marieke), Vander Meulen-De Jong, A.E. (Andrea E.), Woude, C.J. (Janneke) van der, Visschedijk, M. (Marijn), Lathrop, M. (Mark), Hugot, J.P. (J.), Weersma, R.K. (Rinse), De Vos, M. (Martine), Franchimont, D. (Denis), Vermeire, S. (Séverine), Kubo, M. (Michiaki), Louis, E. (Edouard), Georges, M. (Michel), Abraham, C. (Clara), Achkar, J.-P. (Jean-Paul), Ahmad, T. (Tariq), Ananthakrishnan, A.N. (Ashwin N.), Andersen, V. (Vibeke), Anderson, C.A. (Carl A.), Andrews, J.M. (Jane M.), Annese, V. (Vito), Aumais, G. (Guy), Baidoo, L. (Leonard), Baldassano, R.N. (Robert), Bampton, P.A. (Peter A.), Barclay, M. (Murray), Barrett, J.C. (Jeffrey), Bayless, T.M. (Theodore M.), Bethge, J. (Johannes), Bitton, A., Boucher, G. (Gabrielle), Brand, S. (Stephan), Brandt, B. (Berenice), Brant, S.R. (Steven R.), Büning, C. (Carsten), Chew, A. (Angela), Cho, J.H. (Judy H.), Cleynen, I. (Isabelle), Cohain, A. (Ariella), Croft, A. (Anthony), Daly, M.J. (Mark J.), D'Amato, M. (Mauro), Danese, S. (Silvio), De Jong, D.J. (Dirk J.), Denapiene, G. (Goda), Denson, L.A. (Lee A.), Devaney, K.L. (Kathy L.), Dewit, O. (Olivier), D'Inca, R. (Renata), Dubinsky, M. (Marla), Duerr, R.H. (Richard), Edwards, C. (Cathryn), Ellinghaus, D. (David), Essers, J.B. (Jonah), Ferguson, L.R. (Lynnette R.), Festen, E.A.M. (Eleonora), Fleshner, P. (Philip), Florin, T. (Tim), Franke, A. (Andre), Fransen, K. (Karin), Gearry, R. (Richard), Gieger, C. (Christian), Glas, J. (Jürgen), Goyette, P. (Philippe), Green, T. (Todd), Griffiths, A.M. (Anne), Guthery, S.L. (Stephen L.), Hakonarson, H. (Hakon), Halfvarson, J. (Jonas), Hanigan, K. (Katherine), Haritunians, T. (Talin), Hart, A. (Ailsa), Hawkey, S., Hayward, N.K. (Nicholas K.), Hedl, M. (Matija), Henderson, P. (Paul), Hu, X. (Xinli), Huang, H. (Hailiang), Hui, K.Y. (Ken Y.), Imielinski, M. (Marcin), Ippoliti, A. (Andrew), Jonaitis, L. (Laimas), Jostins, L. (Luke), Karlsen, T.H. (Tom), Kennedy, N.A. (Nicholas A.), Khan, M.A. (Mohammed Azam), Kiudelis, G. (Gediminas), Krishnaprasad, K. (Krupa), Kugathasan, S. (Subra), Kupcinskas, L. (Limas), Latiano, A. (Anna), Laukens, D. (Debby), Lawrance, I.C. (Ian C.), Lee, J.C. (James C.), Lees, C.W. (Charlie), Leja, M. (Marcis), Van Limbergen, J. (Johan), Lionetti, P. (Paolo), Liu, J.Z. (Jimmy Z.), Mahy, G. (Gillian), Mansfield, J. (John), Massey, D. (Dunecan), Mathew, J. (Joseph), McGovern, D.P.B. (Dermot P.B.), Milgrom, R. (Raquel), Mitrovic, M. (Mitja), Montgomery, G.W. (Grant W.), Mowat, C. (Craig), Newman, W.G. (William G.), Ng, A. (Aylwin), Ng, S.C. (Siew C.), Ng, S.M.E. (Sok Meng Evelyn), Nikolaus, S. (Susanna), Ning, K. (Kaida), Nöthen, M.M. (Markus), Oikonomou, I. (Ioannis), Palmieri, O. (Orazio), Parkes, M. (Miles), Phillips, A. (Anne), Ponsioen, C.Y. (Cyril), Potocnik, U. (Uros), Prescott, N.J. (Natalie J.), Proctor, D.D. (Deborah D.), Radford-Smith, G. (Graham), Rahier, J.F. (J.), Raychaudhuri, S. (Soumya), Regueiro, M. (Miguel), Rieder, F. (Florian), Rioux, J.D. (John), Ripke, S. (Stephan), Roberts, R. (Rebecca), Russell, R.K. (Richard), Sanderson, J.D. (Jeremy), Sans, S. (Susana), Satsangi, J. (Jack), Schadt, E.E. (Eric), Schreiber, S. (Stefan), Schulte, D. (Dominik), Schumm, L.P. (L. Philip), Scott, R. (Regan), Seielstad, M. (Mark), Sharma, Y. (Yashoda), Silverberg, M. (Mark), Simms, L.A. (Lisa A.), Skieceviciene, J. (Jurgita), Spain, S.L. (Sarah L.), Steinhart, A.H. (A. Hillary), Stempak, J.M. (Joanne M.), Stronati, L. (Laura), Sventoraityte, J. (Jurgita), Targan, S.R. (Stephan R.), Taylor, K.M. (Kirstin M.), Ter Velde, A. (Anje), Torkvist, L. (Leif), Tremelling, M. (Mark), Van Sommeren, S. (Suzanne), Vasiliauskas, E. (Eric), Verspaget, H.W., Walters, T. (Thomas), Wang, K. (Kai), Wang, M.-H. (Ming-Hsi), Wei, Z. (Zhi), Whiteman, D.C. (David C.), Wijmenga, C. (Cisca), Wilson, D.C. (David C.), Winkelmann, B., Xavier, R.J. (Ramnik J.), Zhang, B. (Bin), Zhang, C.K. (Clarence K.), Zhang, H. (Hu), Zhang, W. (Wei), Zhao, H. (Hongyu), and Zhao, Z.Z. (Zhen Z.)

Abstract

GWAS have identified >200 risk loci for Inflammatory Bowel Disease (IBD). The majority of disease associations are known to be driven by regulatory variants. To identify the putative causative genes that are perturbed by these variants, we generate a large transcriptome data set (nine disease-relevant cell types) and identify 23,650 cis-eQTL. We show that these are determined by ∼9720 regulatory modules, of which ∼3000 operate in multiple tissues and ∼970 on multiple genes. We identify regulatory modules that drive the disease association for 63 of the 200 risk loci, and show that these are enriched in multigenic modules. Based on these analyses, we resequence 45 of the corresponding 100 candidate genes in 6600 Crohn disease (CD) cases and 5500 controls, and show with burden tests that they include likely causative genes. Our analyses indicate that ≥10-fold larger sample sizes will be required to demonstrate the causality of individual genes using this approach.

Published

2018

12. P753 Vedolizumab trough levels during induction in IBD patients: A longitudinal observational retrospective study

Author

Liefferinckx, C, primary, Cremer, A, additional, Minsart, C, additional, Gils, A, additional, Amininejad, L, additional, Tafciu, V, additional, Quertinmont, E, additional, Devière, J, additional, Van Gossum, A, additional, and Franchimont, D, additional

Published

2018

13. Inherited determinants of Crohn's disease and ulcerative colitis phenotypes:a genetic association study

Author

Cleynen, Isabelle, Boucher, Gabrielle, Jostins, Luke, Schumm, L. Philip, Zeissig, Sebastian, Ahmad, Tariq, Andersen, Vibeke, Andrews, Jane M., Annese, Vito, Brand, Stephan, Brant, Steven R., Cho, Judy H., Daly, Mark J., Dubinsky, Marla, Duerr, Richard H., Ferguson, Lynnette R., Franke, Andre, Gearry, Richard B., Goyette, Philippe, Hakonarson, Hakon, Halfvarson, Jonas, Hov, Johannes R., Huang, Hailang, Kennedy, Nicholas A., Kupcinskas, Limas, Lawrance, Ian C., Lee, James C., Satsangi, Jack, Schreiber, Stephan, Théâtre, Emilie, Van Der Meulen De Jong, Andrea E, Weersma, Rinse K., Wilson, David C., Parkes, Miles, Vermeire, Severine, Rioux, John D., Mansfield, John, Silverberg, Mark S., Radford Smith, Graham, Mcgovern, Dermot P. B., Barrett, Jeffrey C., Lees, Charlie W, Abraham, C, Achkar, Jp, Ahmad, T, Amininejad, L, Ananthakrishnan, An, Andersen, V, Anderson, Ca, Andrews, Jm, Annese, V, Aumais, G, Baidoo, L, Baldassano, Rn, Bampton, Pa, Barclay, M, Barrett, Jc, Bayless, Tm, Bethge, J, Bis, Jc, Bitton, A, Boucher, G, Brand, S, Brandt, B, Brant, Sr, Büning, C, Chew, A, Cho, Jh, Cleynen, I, Cohain, A, Croft, A, Daly, Mj, D'Amato, M, Danese, S, De Jong, D, De Vos, M, Denapiene, G, Denson, La, Devaney, K, Dewit, O, D'Inca, R, Dubinsky, M, Duerr, Rh, Edwards, C, Ellinghaus, D, Essers, J, Ferguson, Lr, Festen, Ea, Fleshner, P, Florin, T, Franchimont, D, Franke, A, Fransen, K, Gearry, R, Georges, M, Gieger, C, Glas, J, Goyette, P, Green, T, Griffiths, Am, Guthery, Sl, Hakonarson, H, Halfvarson, J, Hanigan, K, Haritunians, T, Hart, A, Hawkey, C, Hayward, Nk, Hedl, M, Henderson, P, Hu, X, Huang, H, Hui, Ky, Imielinski, M, Ippoliti, A, Jonaitis, L, Jostins, L, Karlsen, Th, Kennedy, Na, Khan, Ma, Kiudelis, G, Krishnaprasad, K, Kugathasan, S, Kupcinskas, L, Latiano, A, Laukens, D, Lawrance, Ic, Lee, Jc, Lees, Cw, Leja, M, Van Limbergen, J, Lionetti, P, Liu, Jz, Louis, E, Mahy, G, Mansfield, J, Massey, D, Mathew, Cg, Mcgovern, Dp, Milgrom, R, Mitrovic, M, Montgomery, Gw, Mowat, C, Newman, W, Ng, A, Ng, Sc, Ng, Sm, Nikolaus, S, Ning, K, Nöthen, M, Oikonomou, I, Palmieri, O, Parkes, M, Phillips, A, Ponsioen, Cy, Potocnik, U, Prescott, Nj, Proctor, Dd, Radford Smith, G, Rahier, Jf, Raychaudhuri, S, Regueiro, M, Rieder, F, Rioux, Jd, Ripke, S, Roberts, R, Russell, Rk, Sanderson, Jd, Sans, M, Satsangi, J, Schadt, Ee, Schreiber, S, Schumm, Lp, Scott, R, Seielstad, M, Sharma, Y, Silverberg, Ms, Simms, La, Skieceviciene, J, Spain, Sl, Steinhart, A, Stempak, Jm, Stronati, Laura, Sventoraityte, J, Targan, Sr, Taylor, Km, ter Velde, A, Theatre, E, Torkvist, L, Tremelling, M, van der Meulen, A, van Sommeren, S, Vasiliauskas, E, Vermeire, S, Verspaget, Hw, Walters, T, Wang, K, Wang, Mh, Weersma, Rk, Wei, Z, Whiteman, D, Wijmenga, C, Wilson, Dc, Winkelmann, J, Xavier, Rj, Zeissig, S, Zhang, B, Zhang, Ck, Zhang, H, Zhang, W, Zhao, H, Zhao, Zz, UCL - SSS/IREC/GAEN - Pôle d'Hépato-gastro-entérologie, UCL - (MGD) Service de gastro-entérologie, and Groningen Institute for Gastro Intestinal Genetics and Immunology (3GI)

Subjects

Male, 0301 basic medicine, CLINICAL-COURSE, Nod2 Signaling Adaptor Protein, Disease, SUSCEPTIBILITY, Inflammatory bowel disease, Major Histocompatibility Complex, 0302 clinical medicine, Crohn Disease, Maintenance therapy, NOD2, Medicine and Health Sciences, POPULATION, Immunoassay, RISK, Medicine(all), education.field_of_study, Crohn's disease, Hepatocyte Growth Factor, Medicine (all), INDUCTION, Articles, General Medicine, PRIMARY SCLEROSING CHOLANGITIS, Ulcerative colitis, 3. Good health, Phenotype, Female, 030211 gastroenterology & hepatology, Adult, medicine.medical_specialty, MAINTENANCE THERAPY, Genotype, Population, Polymorphism, Single Nucleotide, Risk Assessment, CLASSIFICATION, Primary sclerosing cholangitis, Young Adult, 03 medical and health sciences, inflammatory bowel disease, Proto-Oncogene Proteins, Internal medicine, medicine, Humans, Genetic Predisposition to Disease, education, Alleles, Genetic Association Studies, business.industry, medicine.disease, digestive system diseases, 030104 developmental biology, Immunology, Colitis, Ulcerative, business, FOLLOW-UP, HLA-DRB1 Chains, INFLAMMATORY-BOWEL-DISEASE

Abstract

Background: Crohn's disease and ulcerative colitis are the two major forms of inflammatory bowel disease; treatment strategies have historically been determined by this binary categorisation. Genetic studies have identified 163 susceptibility loci for inflammatory bowel disease, mostly shared between Crohn's disease and ulcerative colitis. We undertook the largest genotype association study, to date, in widely used clinical subphenotypes of inflammatory bowel disease with the goal of further understanding the biological relations between diseases.Methods: This study included patients from 49 centres in 16 countries in Europe, North America, and Australasia. We applied the Montreal classification system of inflammatory bowel disease subphenotypes to 34 819 patients (19 713 with Crohn's disease, 14 683 with ulcerative colitis) genotyped on the Immunochip array. We tested for genotype–phenotype associations across 156 154 genetic variants. We generated genetic risk scores by combining information from all known inflammatory bowel disease associations to summarise the total load of genetic risk for a particular phenotype. We used these risk scores to test the hypothesis that colonic Crohn's disease, ileal Crohn's disease, and ulcerative colitis are all genetically distinct from each other, and to attempt to identify patients with a mismatch between clinical diagnosis and genetic risk profile.Findings: After quality control, the primary analysis included 29 838 patients (16 902 with Crohn's disease, 12 597 with ulcerative colitis). Three loci (NOD2, MHC, and MST1 3p21) were associated with subphenotypes of inflammatory bowel disease, mainly disease location (essentially fixed over time; median follow-up of 10·5 years). Little or no genetic association with disease behaviour (which changed dramatically over time) remained after conditioning on disease location and age at onset. The genetic risk score representing all known risk alleles for inflammatory bowel disease showed strong association with disease subphenotype (p=1·65 × 10−78), even after exclusion of NOD2, MHC, and 3p21 (p=9·23 × 10−18). Predictive models based on the genetic risk score strongly distinguished colonic from ileal Crohn's disease. Our genetic risk score could also identify a small number of patients with discrepant genetic risk profiles who were significantly more likely to have a revised diagnosis after follow-up (p=6·8 × 10−4).Interpretation: Our data support a continuum of disorders within inflammatory bowel disease, much better explained by three groups (ileal Crohn's disease, colonic Crohn's disease, and ulcerative colitis) than by Crohn's disease and ulcerative colitis as currently defined. Disease location is an intrinsic aspect of a patient's disease, in part genetically determined, and the major driver to changes in disease behaviour over time.Funding: International Inflammatory Bowel Disease Genetics Consortium members funding sources (see Acknowledgments for full list).

Published

2016

14. High-density mapping of the MHC identifies a shared role for HLA-DRB1∗01:03 in inflammatory bowel diseases and heterozygous advantage in ulcerative colitis

Author

Goyette, P, Boucher, G, Mallon, D, Ellinghaus, E, Jostins, L, Huang, H, Ripke, S, Gusareva, ES, Annese, V, Hauser, SL, Oksenberg, JR, Thomsen, I, Leslie, S, Daly, MJ, Van Steen, K, Duerr, RH, Barrett, JC, McGovern, DPB, Schumm, LP, Traherne, JA, Carrington, MN, Kosmoliaptsis, V, Karlsen, TH, Franke, A, Rioux, JD, Abraham, C, Achkar, JP, Ahmad, T, Amininejad, L, Ananthakrishnan, AN, Andersen, V, Anderson, CA, Andrews, JM, Aumais, G, Baidoo, L, Baldassano, RN, Balschun, T, Bampton, PA, Barclay, M, Bayless, TM, Bethge, J, Bis, JC, Bitton, A, Brand, S, Brant, SR, Buning, C, Chew, A, Cho, JH, Cleynen, I, Cohain, A, Croft, A, D'Amato, M, Danese, S, De Jong, D, De Vos, M, Denapiene, G, Denson, LA, Devaney, KL, Dewit, O, D'Inca, R, Dubinsky, M, Edwards, C, Ellinghaus, D, Essers, J, Ferguson, LR, Festen, EA, Fleshner, P, Florin, T, Franchimont, D, Fransen, K, Gearry, R, Georges, M, Gieger, C, and Glas, J

Subjects

digestive system diseases

Abstract

© 2015 Nature America, Inc. All rights reserved. Genome-wide association studies of the related chronic inflammatory bowel diseases (IBD) known as Crohn's disease and ulcerative colitis have shown strong evidence of association to the major histocompatibility complex (MHC). This region encodes a large number of immunological candidates, including the antigen-presenting classical human leukocyte antigen (HLA) molecules. Studies in IBD have indicated that multiple independent associations exist at HLA and non-HLA genes, but they have lacked the statistical power to define the architecture of association and causal alleles. To address this, we performed high-density SNP typing of the MHC in >32,000 individuals with IBD, implicating multiple HLA alleles, with a primary role for HLA-DRB1∗01:03 in both Crohn's disease and ulcerative colitis. Noteworthy differences were observed between these diseases, including a predominant role for class II HLA variants and heterozygous advantage observed in ulcerative colitis, suggesting an important role of the adaptive immune response in the colonic environment in the pathogenesis of IBD.

Published

2015

15. Unsuspected malabsorption as a cause of severe acute hypocalcemia in a treated-autoimmune hypoparathyroidism (APS1)

Author

Wang, X., primary, Vokaer, B., additional, Amininejad, L., additional, Corvilain, B., additional, and Driessens, N., additional

Published

2016

16. Meta-analysis identifies 29 additional ulcerative colitis risk loci, increasing the number of confirmed associations to 47

Author

Anderson, C.A. Boucher, G. Lees, C.W. Franke, A. D'Amato, M. Taylor, K.D. Lee, J.C. Goyette, P. Imielinski, M. Latiano, A. Lagacé, C. Scott, R. Amininejad, L. Bumpstead, S. Baidoo, L. Baldassano, R.N. Barclay, M. Bayless, T.M. Brand, S. Büning, C. Colombel, J.-F. Denson, L.A. De Vos, M. Dubinsky, M. Edwards, C. Ellinghaus, D. Fehrmann, R.S.N. Floyd, J.A.B. Florin, T. Franchimont, D. Franke, L. Georges, M. Glas, J. Glazer, N.L. Guthery, S.L. Haritunians, T. Hayward, N.K. Hugot, J.-P. Jobin, G. Laukens, D. Lawrance, I. Lémann, M. Levine, A. Libioulle, C. Louis, E. McGovern, D.P. Milla, M. Montgomery, G.W. Morley, K.I. Mowat, C. Ng, A. Newman, W. Ophoff, R.A. Papi, L. Palmieri, O. Peyrin-Biroulet, L. Panés, J. Phillips, A. Prescott, N.J. Proctor, D.D. Roberts, R. Russell, R. Rutgeerts, P. Sanderson, J. Sans, M. Schumm, P. Seibold, F. Sharma, Y. Simms, L.A. Seielstad, M. Steinhart, A.H. Targan, S.R. Van Den Berg, L.H. Vatn, M. Verspaget, H. Walters, T. Wijmenga, C. Wilson, D.C. Westra, H.-J. Xavier, R.J. Zhao, Z.Z. Ponsioen, C.Y. Andersen, V. Torkvist, L. Gazouli, M. Anagnou, N.P. Karlsen, T.H. Kupcinskas, L. Sventoraityte, J. Mansfield, J.C. Kugathasan, S. Silverberg, M.S. Halfvarson, J. Rotter, J.I. Mathew, C.G. Griffiths, A.M. Gearry, R. Ahmad, T. Brant, S.R. Chamaillard, M. Satsangi, J. Cho, J.H. Schreiber, S. Daly, M.J. Barrett, J.C. Parkes, M. Annese, V. Hakonarson, H. Radford-Smith, G. Duerr, R.H. Vermeire, S. Weersma, R.K. Rioux, J.D.

Abstract

Genome-wide association studies and candidate gene studies in ulcerative colitis have identified 18 susceptibility loci. We conducted a meta-analysis of six ulcerative colitis genome-wide association study datasets, comprising 6,687 cases and 19,718 controls, and followed up the top association signals in 9,628 cases and 12,917 controls. We identified 29 additional risk loci (P < 5 × 10-8), increasing the number of ulcerative colitis-associated loci to 47. After annotating associated regions using GRAIL, expression quantitative trait loci data and correlations with non-synonymous SNPs, we identified many candidate genes that provide potentially important insights into disease pathogenesis, including IL1R2, IL8RA-IL8RB, IL7R, IL12B, DAP, PRDM1, JAK2, IRF5, GNA12 and LSP1. The total number of confirmed inflammatory bowel disease risk loci is now 99, including a minimum of 28 shared association signals between Crohn's disease and ulcerative colitis. © 2011 Nature America, Inc. All rights reserved.

Published

2011

17. P277 Assessment of the performance of the colonic PillCam PCC2 in Crohn's patients

Author

Van Gossum, A., primary, Franchimont, D., additional, Amininejad, L., additional, and D'Haens, G., additional

Published

2014

18. Host-microbe interactions have shaped the genetic architecture of inflammatory bowel disease.

Author

Jostins, L., Ripke, S., Weersma, R.K., Duerr, R.H., McGovern, D.P., Hui, K.Y., Lee, J.C., Schumm, L.P., Sharma, Y., Anderson, C.A., Essers, J., Mitrovic, M., Ning, K., Cleynen, I., Theatre, E., Spain, S.L., Raychaudhuri, S., Goyette, P., Wei, Z., Abraham, C., Achkar, J.P., Ahmad, T., Amininejad, L., Ananthakrishnan, A.N., Andersen, V., Andrews, J.M., Baidoo, L., Balschun, T., Bampton, P.A., Bitton, A., Boucher, G., Brand, S., Buning, C., Cohain, A., Cichon, S., D'Amato, M., Jong, D.J. de, Devaney, K.L., Dubinsky, M.C., Edwards, C., Ellinghaus, D., Ferguson, L.R., Franchimont, D., Fransen, K., Gearry, R.B., Georges, M., Gieger, C., Glas, J., Haritunians, T., Hart, A., Hawkey, C.J., Hedl, M., Hu, X., Karlsen, T.H., Kupcinskas, L., Kugathasan, S., Latiano, A., Laukens, D., Lawrance, I.C., Lees, C.W., Louis, E., Mahy, G., Mansfield, J., Morgan, A.R., Mowat, C., Newman, W.G., Palmieri, O., Ponsioen, C.Y., Potocnik, U., Prescott, N.J., Regueiro, M., Rotter, J.I., Russell, R.K., Sanderson, J.D., Sans, M., Satsangi, J., Schreiber, S., Simms, L.A., Sventoraityte, J., Targan, S.R., Taylor, K.D., Tremelling, M., Verspaget, H.W., Vos, M de, Wijmenga, C., Winkelmann, J., Wilson, D.C., Xavier, R.J., Zeissig, S., Zhang, B., Zhang, C.K., Zhao, H., Silverberg, M.S., Annesse, V., Hakonarson, H., Brant, S.R., Radford-Smith, G., Mathew, C.G., Rioux, J.D., Schadt, E.E., Daly, M.J., Franke, A., Parkes, M., Vermeire, S., Barrett, J.C., Cho, J.H., Donnelly, J.P., et al., Jostins, L., Ripke, S., Weersma, R.K., Duerr, R.H., McGovern, D.P., Hui, K.Y., Lee, J.C., Schumm, L.P., Sharma, Y., Anderson, C.A., Essers, J., Mitrovic, M., Ning, K., Cleynen, I., Theatre, E., Spain, S.L., Raychaudhuri, S., Goyette, P., Wei, Z., Abraham, C., Achkar, J.P., Ahmad, T., Amininejad, L., Ananthakrishnan, A.N., Andersen, V., Andrews, J.M., Baidoo, L., Balschun, T., Bampton, P.A., Bitton, A., Boucher, G., Brand, S., Buning, C., Cohain, A., Cichon, S., D'Amato, M., Jong, D.J. de, Devaney, K.L., Dubinsky, M.C., Edwards, C., Ellinghaus, D., Ferguson, L.R., Franchimont, D., Fransen, K., Gearry, R.B., Georges, M., Gieger, C., Glas, J., Haritunians, T., Hart, A., Hawkey, C.J., Hedl, M., Hu, X., Karlsen, T.H., Kupcinskas, L., Kugathasan, S., Latiano, A., Laukens, D., Lawrance, I.C., Lees, C.W., Louis, E., Mahy, G., Mansfield, J., Morgan, A.R., Mowat, C., Newman, W.G., Palmieri, O., Ponsioen, C.Y., Potocnik, U., Prescott, N.J., Regueiro, M., Rotter, J.I., Russell, R.K., Sanderson, J.D., Sans, M., Satsangi, J., Schreiber, S., Simms, L.A., Sventoraityte, J., Targan, S.R., Taylor, K.D., Tremelling, M., Verspaget, H.W., Vos, M de, Wijmenga, C., Winkelmann, J., Wilson, D.C., Xavier, R.J., Zeissig, S., Zhang, B., Zhang, C.K., Zhao, H., Silverberg, M.S., Annesse, V., Hakonarson, H., Brant, S.R., Radford-Smith, G., Mathew, C.G., Rioux, J.D., Schadt, E.E., Daly, M.J., Franke, A., Parkes, M., Vermeire, S., Barrett, J.C., Cho, J.H., Donnelly, J.P., and et al.

Abstract

Item does not contain fulltext

Published

2012

19. Meta-analysis identifies 29 additional ulcerative colitis risk loci, increasing the number of confirmed associations to 47

Author

Anderson, CA, Boucher, G, Lees, CW, Franke, A, D'Amato, M, Taylor, KD, Lee, JC, Goyette, P, Imielinski, M, Latiano, A, Lagace, C, Scott, R, Amininejad, L, Bumpstead, S, Baidoo, L, Baldassano, RN, Barclay, M, Bayless, TM, Brand, S, Buening, C, Colombel, J-F, Denson, LA, De Vos, M, Dubinsky, M, Edwards, C, Ellinghaus, D, Fehrmann, RSN, Floyd, JAB, Florin, T, Franchimont, D, Franke, L, Georges, M, Glas, J, Glazer, NL, Guthery, SL, Haritunians, T, Hayward, NK, Hugot, J-P, Jobin, G, Laukens, D, Lawrance, I, Lemann, M, Levine, A, Libioulle, C, Louis, E, McGovern, DP, Milla, M, Montgomery, GW, Morley, KI, Mowat, C, Ng, A, Newman, W, Ophoff, RA, Papi, L, Palmieri, O, Peyrin-Biroulet, L, Panes, J, Phillips, A, Prescott, NJ, Proctor, DD, Roberts, R, Russell, R, Rutgeerts, P, Sanderson, J, Sans, M, Schumm, P, Seibold, F, Sharma, Y, Simms, LA, Seielstad, M, Steinhart, AH, Targan, SR, van den Berg, LH, Vatn, M, Verspaget, H, Walters, T, Wijmenga, C, Wilson, DC, Westra, H-J, Xavier, RJ, Zhao, ZZ, Ponsioen, CY, Andersen, V, Torkvist, L, Gazouli, M, Anagnou, NP, Karlsen, TH, Kupcinskas, L, Sventoraityte, J, Mansfield, JC, Kugathasan, S, Silverberg, MS, Halfvarson, J, Rotter, JI, Mathew, CG, Griffiths, AM, Gearry, R, Ahmad, T, Brant, SR, Chamaillard, M, Satsangi, J, Cho, JH, Schreiber, S, Daly, MJ, Barrett, JC, Parkes, M, Annese, V, Hakonarson, H, Radford-Smith, G, Duerr, RH, Vermeire, S, Weersma, RK, Rioux, JD, Anderson, CA, Boucher, G, Lees, CW, Franke, A, D'Amato, M, Taylor, KD, Lee, JC, Goyette, P, Imielinski, M, Latiano, A, Lagace, C, Scott, R, Amininejad, L, Bumpstead, S, Baidoo, L, Baldassano, RN, Barclay, M, Bayless, TM, Brand, S, Buening, C, Colombel, J-F, Denson, LA, De Vos, M, Dubinsky, M, Edwards, C, Ellinghaus, D, Fehrmann, RSN, Floyd, JAB, Florin, T, Franchimont, D, Franke, L, Georges, M, Glas, J, Glazer, NL, Guthery, SL, Haritunians, T, Hayward, NK, Hugot, J-P, Jobin, G, Laukens, D, Lawrance, I, Lemann, M, Levine, A, Libioulle, C, Louis, E, McGovern, DP, Milla, M, Montgomery, GW, Morley, KI, Mowat, C, Ng, A, Newman, W, Ophoff, RA, Papi, L, Palmieri, O, Peyrin-Biroulet, L, Panes, J, Phillips, A, Prescott, NJ, Proctor, DD, Roberts, R, Russell, R, Rutgeerts, P, Sanderson, J, Sans, M, Schumm, P, Seibold, F, Sharma, Y, Simms, LA, Seielstad, M, Steinhart, AH, Targan, SR, van den Berg, LH, Vatn, M, Verspaget, H, Walters, T, Wijmenga, C, Wilson, DC, Westra, H-J, Xavier, RJ, Zhao, ZZ, Ponsioen, CY, Andersen, V, Torkvist, L, Gazouli, M, Anagnou, NP, Karlsen, TH, Kupcinskas, L, Sventoraityte, J, Mansfield, JC, Kugathasan, S, Silverberg, MS, Halfvarson, J, Rotter, JI, Mathew, CG, Griffiths, AM, Gearry, R, Ahmad, T, Brant, SR, Chamaillard, M, Satsangi, J, Cho, JH, Schreiber, S, Daly, MJ, Barrett, JC, Parkes, M, Annese, V, Hakonarson, H, Radford-Smith, G, Duerr, RH, Vermeire, S, Weersma, RK, and Rioux, JD

Abstract

Genome-wide association studies and candidate gene studies in ulcerative colitis have identified 18 susceptibility loci. We conducted a meta-analysis of six ulcerative colitis genome-wide association study datasets, comprising 6,687 cases and 19,718 controls, and followed up the top association signals in 9,628 cases and 12,917 controls. We identified 29 additional risk loci (P < 5 × 10(-8)), increasing the number of ulcerative colitis-associated loci to 47. After annotating associated regions using GRAIL, expression quantitative trait loci data and correlations with non-synonymous SNPs, we identified many candidate genes that provide potentially important insights into disease pathogenesis, including IL1R2, IL8RA-IL8RB, IL7R, IL12B, DAP, PRDM1, JAK2, IRF5, GNA12 and LSP1. The total number of confirmed inflammatory bowel disease risk loci is now 99, including a minimum of 28 shared association signals between Crohn's disease and ulcerative colitis.

Published

2011

20. Second-generation colon capsule endoscopy compared with colonoscopy

Author

Spada, Cristiano, Hassan, Cesare, Munoz Navas, M, Neuhaus, H, Deviere, J, Fockens, P, Coron, E, Gay, G, Toth, E, Riccioni, Me, Carretero, C, Charton, Jp, Van Gossum, A, Wientjes, Ca, Sacher Huvelin, S, Delvaux, M, Nemeth, A, Petruzziello, Lucio, De Frias, Cp, Mayershofer, R, Amininejad, L, Aminejab, L, Dekker, E, Galmiche, J, Frederic, M, Johansson, Gw, Cesaro, Paola, Costamagna, Guido, Spada, Cristiano (ORCID:0000-0002-5692-0960), Costamagna, Guido (ORCID:0000-0002-8100-2731), Spada, Cristiano, Hassan, Cesare, Munoz Navas, M, Neuhaus, H, Deviere, J, Fockens, P, Coron, E, Gay, G, Toth, E, Riccioni, Me, Carretero, C, Charton, Jp, Van Gossum, A, Wientjes, Ca, Sacher Huvelin, S, Delvaux, M, Nemeth, A, Petruzziello, Lucio, De Frias, Cp, Mayershofer, R, Amininejad, L, Aminejab, L, Dekker, E, Galmiche, J, Frederic, M, Johansson, Gw, Cesaro, Paola, Costamagna, Guido, Spada, Cristiano (ORCID:0000-0002-5692-0960), and Costamagna, Guido (ORCID:0000-0002-8100-2731)

Abstract

Colon capsule endoscopy (CCE) represents a noninvasive technology that allows visualization of the colon without requiring sedation and air insufflation. A second-generation colon capsule endoscopy system (PillCam Colon 2) (CCE-2) was developed to increase sensitivity for colorectal polyp detection compared with the first-generation system.

Published

2011

21. PC.1.1: SECOND-GENERATION PILLCAM® COLON CAPSULE COMPARED WITH COLONOSCOPY

Author

Spada, C., primary, Hassan, C., additional, Munos-navaz, M.A., additional, Neuhaus, H., additional, Deviere, J.M., additional, Fockens, P., additional, Coron, E., additional, Gay, G., additional, Toth, E., additional, Riccioni, M.E., additional, Carretero, C., additional, Charton, J.P., additional, Van Gossum, A.M., additional, Wientjes, C., additional, Sacher-huvelin, S., additional, Delvaux, M., additional, Nemeth, A., additional, Cesaro, P., additional, De Frias, C. Prieto, additional, Mayershofer, R., additional, Amininejad, L., additional, Dekker, E., additional, Galmiche, J.P., additional, Frederic, M., additional, Johansson, G. Wurm, additional, Petruzziello, L., additional, and Costamagna, G., additional

Published

2011

22. Evaluation of the correlation of complete metabolic response with 18-FDG PET scan and complete pathologic response induced by neoadjuvant chemotherapy for colorectal liver metastases

Author

Covas, A., primary, Amininejad, L., additional, Lucidi, V., additional, Liberale, G., additional, Hendlisz, A., additional, Demetter, P., additional, Nagy, N., additional, Goldman, S., additional, Donckier, V., additional, and Van Laethem, J., additional

Published

2008

23. Belgian Recommendations for the management of anemia in patients with inflammatory bowel disease.

Author

Hindryckx, P., Amininejad, L., Van de Vijver, E., and Bossuyt, P.

Published

2014

24. Clinical and scientific aspects related to biosimilars in Inflammatory Bowel Diseases (IBD): Position document of the Belgian IBD Research & Development Group (BIRD)

Author

Vermeire, S., Louis, E., Dewit, O., Franchimont, D., Moreels, T., Ferrante, M., Rahier, J. -F, Hootegem, P., Vos, M., Mana, F., Baert, F., Belgian Ibd Research And Development (Bird) Group, Amininejad, L., Patrick Bontems, Bossuy, T. P., Buy Dens, P., Caenepeel, P., Cajot, O., Claessens, C., Coche, J. -C, Coenegrachts, J. -L, Colard, A., Maeyer, M., Reuck, M., Suray, N., Vroey, B., Degreef, E., Delen, S., Denis, M. -A, Dewit, S., D’heygere, F., Dutre, J., Fiasse, R., Fontaine, F., Hindryckx, P., Humblet, E., Ilegems, S., Lambrecht, G., Lammens, P., Macken, E., Maisin, J. -M, Mokaddem, F., Muls, V., Ngassa, M., Noman, M., Peeters, H., Potvin, P., Reenaers, C., Schapira, M., Schoofs, N., Sermeus, A., Smets, F., Staessen, D., Strubbe, B., Terriere, L., Thienpont, C., Vafa, H., Assche, G., Biervliet, S., Mierop, F., Gossum, A., Hoo Tegem, P., Kemseke, C., Moerkerke, W., Dermeulen, L., Dervoort, J., Poucke, H., and Veereman, G.

25. Belgian Recommendations for the management of anemia in patients with inflammatory bowel disease

Author

Hindryckx, P., Amininejad, L., Vijver, E., peter bossuyt, and Belgian Grp IBD Res Dev BIRD

Subjects

Human medicine, digestive system diseases

Abstract

Anemia is the most common extraintestinal manifestation of inflammatory bowel disease (IBD) which, in most cases, results from an absolute or functional iron deficiency. Although anemia and iron deficiency may have a dramatic impact on the quality of life of IBD patients, they are underdiagnosed and undertreated. This paper provides evidence-based consensus guidelines and practical treatment algorithms that are directly applicable to the Belgian situation. In this way, the Belgian IBD research and development Group (BIRD) aims to increase awareness and knowledge among gastroenterologists in order to improve the management of anemia and iron deficiency in their IBD patients.

26. Predictive models assessing the response to ustekinumab highlight the value of therapeutic drug monitoring in Crohn's disease.

Author

Liefferinckx C, Hubert A, Thomas D, Bottieau J, Minsart C, Cremer A, Amininejad L, Vallée F, Toubeau JF, and Franchimont D

Subjects

Humans, Retrospective Studies, Drug Monitoring, ROC Curve, Remission Induction, Treatment Outcome, Ustekinumab therapeutic use, Crohn Disease drug therapy

Abstract

Background: Despite the therapeutic efficacy of Ustekinumab (UST) in Crohn's disease (CD), loss of response (LOR) is observed over time. This study aims to evaluate the impact of the UST pharmacokinetics (PK) at induction on clinical and endoscopic outcomes, as well as to find predictive markers of UST response., Methods: This retrospective study included 80 CD patients. Pharmacokinetics data (trough levels (TLs)) combined with clinical and biological parameters were fed into tailored logistic regression and tree-based ensemble techniques to predict clinical and endoscopic outcomes at one year of follow-up., Results: TLs at week 16 were significantly lower among patients with moderate to severe endoscopic activity during the follow-up (p = 0.04). The best model to predict endoscopic outcome was obtained at week 16 by Random Forest with an area under the receiver operating characteristic curve of 0.92 ± 0.08, sensitivity 91% and specificity 75%, with key inputs such as lymphocyte and monocyte counts at week 8, and UST TLs and CRP at week 16., Conclusions: This real-world study confirms the relationship between early UST TLs and both clinical and endoscopic outcomes. Models were developed for the task of predicting clinical and endoscopic remission in CD patients treated with UST, highlighting the clinical relevance of UST TLs at week 16., (Copyright © 2022 Editrice Gastroenterologica Italiana S.r.l. Published by Elsevier Ltd. All rights reserved.)

Published

2023

27. Variability of Faecal Calprotectin in Inflammatory Bowel Disease Patients: An Observational Case-control Study.

Author

Cremer A, Ku J, Amininejad L, Bouvry MR, Brohet F, Liefferinckx C, Devière J, van Gossum A, Smet J, Stordeur P, and Franchimont D

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Biomarkers analysis, C-Reactive Protein analysis, Case-Control Studies, Female, Humans, Male, Middle Aged, Specimen Handling, Young Adult, Feces chemistry, Inflammatory Bowel Diseases metabolism, Leukocyte L1 Antigen Complex analysis

Abstract

Background and Aims: Several factors have been reported to affect faecal calprotectin [FC] values, and significant variation in FC concentrations has been observed in inflammatory bowel disease [IBD] patients. We aimed to evaluate FC variability in IBD patients, and to assess the robustness of a single stool punch., Methods: This is a single-centre observational case-control study. Disease activity was assessed using endoscopic and clinical activity scores, as well as C-reactive protein levels. Stool samples were collected twice within a 1 to 6 days interval, and FC was measured on punches and homogenates by fluorometric enzyme immunocapture assay., Results: In all, 260 stool samples were collected from 120 patients. Intrastool variability was low, with an intraclass correlation coefficient for single measures between three punches from a single stool sample of 0.91, and median coefficient of variation [CV] of 17%. CV of two stool samples a few days apart [intra-individual variability] were significantly higher [p <0.01] with median CV of 36%. FC standard deviations correlated with mean FC levels either for intrastool or for intra-individual variability, with a Spearman's coefficient of rank correlation of 0.85 and 0.78, respectively [p <0.01]. Disease type, location, activity, and FC levels did not influence variability., Conclusions: A single stool punch is reliable for FC measurement, considering that intrastool variability is low. Intra-individual variability a few days apart is significantly higher. Therefore, decision-making strategies based on single measurements should consider this variability, to determine the minimum optimal variation to be achieved, rather than a cut-off, especially in high FC levels., (Copyright © 2019 European Crohn’s and Colitis Organisation (ECCO). Published by Oxford University Press. All rights reserved. For permissions, please email: journals.permissions@oup.com.)

Published

2019

28. Early vedolizumab trough levels at induction in inflammatory bowel disease patients with treatment failure during maintenance.

Author

Liefferinckx C, Minsart C, Cremer A, Amininejad L, Tafciu V, Quertinmont E, Tops S, Devière J, Gils A, van Gossum A, and Franchimont D

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Antibodies, Antineutrophil Cytoplasmic blood, Antibodies, Monoclonal, Humanized therapeutic use, Biomarkers blood, Colitis, Ulcerative blood, Colitis, Ulcerative drug therapy, Crohn Disease blood, Crohn Disease drug therapy, Female, Follow-Up Studies, Gastrointestinal Agents therapeutic use, Humans, Induction Chemotherapy methods, Inflammatory Bowel Diseases drug therapy, Maintenance Chemotherapy methods, Male, Middle Aged, Retrospective Studies, Risk Factors, Treatment Failure, Tumor Necrosis Factor-alpha antagonists & inhibitors, Young Adult, Antibodies, Monoclonal, Humanized blood, Gastrointestinal Agents blood, Inflammatory Bowel Diseases blood

Abstract

Background: Vedolizumab (VDZ) is effective as an induction and maintenance treatment for Crohn's disease and ulcerative colitis, but, as observed with antitumour necrosis factor-α (anti-TNFα) agents, some patients are nonetheless experiencing loss of response., Objective: The aim of this study was to investigate the impact of the pharmacokinetics of VDZ during induction on long-term treatment response., Patients and Methods: This study focused on a single cohort of 103 inflammatory bowel disease patients treated with VDZ. VDZ trough levels (TLs) were measured by enzyme-linked immunosorbent assay (n=536 samples), and thereafter correlated to clinical, biological, endoscopic and serological data. For patients exposed previously to infliximab, antibodies to infliximab were measured at baseline. On the basis of the outcome at the end of follow-up, patients were then categorized into long-term response, optimized and treatment failure groups., Results: During VDZ induction, at week 6, inflammatory bowel disease patients with long-term response had higher TLs compared with patients in the treatment failure group (33 vs. 24 µg/ml, P=0.02). A cut-off TL of 28 µg/ml predicted a sustained response in the follow-up with an area under curve of 0.723 (95% confidence interval=0.567-0.878, P=0.02). Patients with mucosal healing in maintenance had higher TLs at week 6 (41.65 µg/ml) compared with patients with mild (26 µg/ml) or severe endoscopic activity (20.8 µg/ml), P=0.009. Positive perinuclear antineutrophil cytoplasmic antibody serology was associated with lower TLs. Patients previously exposed to anti-TNFα had lower TLs than naive patients (22.5 vs. 36 µg/ml, P=0.03) without any impact of detectable antibodies to infliximab. Finally, the presence of an immunomodulator at induction did not impact on VDZ TLs at induction., Conclusion: We confirmed that a drug exposure-efficacy association was found early on at induction. This study emphasizes that previous exposure to anti-TNFα and positive perinuclear antineutrophil cytoplasmic antibody serology are important factors influencing VDZ TLs at induction.

Published

2019

29. IBD risk loci are enriched in multigenic regulatory modules encompassing putative causative genes.

Author

Momozawa Y, Dmitrieva J, Théâtre E, Deffontaine V, Rahmouni S, Charloteaux B, Crins F, Docampo E, Elansary M, Gori AS, Lecut C, Mariman R, Mni M, Oury C, Altukhov I, Alexeev D, Aulchenko Y, Amininejad L, Bouma G, Hoentjen F, Löwenberg M, Oldenburg B, Pierik MJ, Vander Meulen-de Jong AE, Janneke van der Woude C, Visschedijk MC, Lathrop M, Hugot JP, Weersma RK, De Vos M, Franchimont D, Vermeire S, Kubo M, Louis E, and Georges M

Subjects

Adult, Aged, Aged, 80 and over, Cohort Studies, Crohn Disease genetics, Female, Gene Expression Profiling, Genetic Association Studies, Genetic Predisposition to Disease, Genotype, Humans, Male, Middle Aged, Polymorphism, Single Nucleotide, Quantitative Trait Loci, Sequence Analysis, DNA, Inflammatory Bowel Diseases genetics, Multifactorial Inheritance

Abstract

GWAS have identified >200 risk loci for Inflammatory Bowel Disease (IBD). The majority of disease associations are known to be driven by regulatory variants. To identify the putative causative genes that are perturbed by these variants, we generate a large transcriptome data set (nine disease-relevant cell types) and identify 23,650 cis-eQTL. We show that these are determined by ∼9720 regulatory modules, of which ∼3000 operate in multiple tissues and ∼970 on multiple genes. We identify regulatory modules that drive the disease association for 63 of the 200 risk loci, and show that these are enriched in multigenic modules. Based on these analyses, we resequence 45 of the corresponding 100 candidate genes in 6600 Crohn disease (CD) cases and 5500 controls, and show with burden tests that they include likely causative genes. Our analyses indicate that ≥10-fold larger sample sizes will be required to demonstrate the causality of individual genes using this approach.

Published

2018

30. Analysis of Genes Associated With Monogenic Primary Immunodeficiency Identifies Rare Variants in XIAP in Patients With Crohn's Disease.

Author

Amininejad L, Charloteaux B, Theatre E, Liefferinckx C, Dmitrieva J, Hayard P, Muls V, Maisin JM, Schapira M, Ghislain JM, Closset P, Talib M, Abramowicz M, Momozawa Y, Deffontaine V, Crins F, Mni M, Karim L, Cambisano N, Ornemese S, Zucchi A, Minsart C, Deviere J, Hugot JP, De Vos M, Louis E, Vermeire S, Van Gossum A, Coppieters W, Twizere JC, Georges M, and Franchimont D

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Belgium, Cells, Cultured, Child, Child, Preschool, Crohn Disease blood, Crohn Disease immunology, Female, Fluorescent Antibody Technique, France, High-Throughput Nucleotide Sequencing, Humans, Immunologic Deficiency Syndromes blood, Immunologic Deficiency Syndromes immunology, Interleukin-10 genetics, Male, Middle Aged, Monocytes, Mutation, Missense, Nod2 Signaling Adaptor Protein metabolism, Primary Cell Culture, Sequence Analysis, DNA, Signal Transduction genetics, Young Adult, Crohn Disease genetics, Immunologic Deficiency Syndromes genetics, X-Linked Inhibitor of Apoptosis Protein genetics

Abstract

Background & Aims: A few rare monogenic primary immunodeficiencies (PIDs) are characterized by chronic intestinal inflammation that resembles Crohn's disease (CD). We investigated whether 23 genes associated with 10 of these monogenic disorders contain common, low-frequency, or rare variants that increase risk for CD., Methods: Common and low frequency variants in 1 Mb loci centered on the candidate genes were analyzed using meta-data corresponding to genotypes of approximately 17,000 patients with CD or without CD (controls) in Europe. The contribution of rare variants was assessed by high-throughput sequencing of 4750 individuals, including 660 early-onset and/or familial cases among the 2390 patients with CD. Variants were expressed from vectors in SW480 or HeLa cells and functions of their products were analyzed in immunofluorescence, luciferase, immunoprecipitation, and immunoblot assays., Results: We reproduced the association of the interleukin 10 locus with CD (P = .007), although none of the significantly associated variants modified the coding sequence of interleukin 10. We found XIAP to be significantly enriched for rare coding mutations in patients with CD vs controls (P = .02). We identified 4 previously unreported missense variants associated with CD. Variants in XIAP cause the PID X-linked lymphoproliferative disease type 2, yet none of the carriers of these variants had all the clinical features of X-linked lymphoproliferative disease type 2. Identified XIAP variants S123N, R233Q, and P257A were associated with an impaired activation of NOD2 signaling after muramyl dipeptide stimulation., Conclusions: In a systematic analysis of variants in 23 PID-associated genes, we confirmed the association of variants in XIAP with CD. Further screenings for CD-associated variants and analyses of their functions could increase our understanding of the relationship between PID-associated genes and CD pathogenesis., (Copyright © 2018 AGA Institute. Published by Elsevier Inc. All rights reserved.)

Published

2018

31. Infliximab Trough Levels at Induction to Predict Treatment Failure During Maintenance.

Author

Liefferinckx C, Minsart C, Toubeau JF, Cremer A, Amininejad L, Quertinmont E, Devière J, Gils A, van Gossum A, and Franchimont D

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Female, Follow-Up Studies, Gastrointestinal Agents immunology, Gastrointestinal Agents therapeutic use, Humans, Inflammatory Bowel Diseases pathology, Infliximab immunology, Infliximab therapeutic use, Longitudinal Studies, Maintenance Chemotherapy, Male, Middle Aged, Prospective Studies, Retrospective Studies, Treatment Failure, Tumor Necrosis Factor-alpha antagonists & inhibitors, Young Adult, Gastrointestinal Agents blood, Inflammatory Bowel Diseases blood, Inflammatory Bowel Diseases drug therapy, Infliximab blood

Abstract

Background: Infliximab (IFX) is indicated for the treatment of inflammatory bowel diseases (IBD). Nevertheless, loss of response (LOR) to IFX is reported in up to 10% to 30% of patients within the first year of treatment. Our objective was to evaluate the impact of the pharmacokinetics of IFX at induction on treatment failure., Methods: This is a longitudinal cohort study on 269 patients with IBD treated with IFX in a single center. A total of 2331 blood samples were prospectively collected from 2007 until March 2015 with a retrospective analysis of clinical data. IFX trough levels (TLs) were measured by enzyme-linked immunosorbent assay. Antibodies to IFX were measured by drug-sensitive bridging assay., Results: During follow-up, patients were defined according to treatment outcome. At week 6, median IFX TL in patients requiring a switch to another treatment due to LOR (LOR switched group) (2.32 μg/mL [0.12-19.93 μg/mL]) was lower than in patients with long-term response (long-term responders) (8.66 μg/mL [0.12-12.09 μg/mL], P = 0.007) and in patients responding to optimization (LOR optimized group) (7.28 μg/mL [0.17-14.91 μg/mL], P = 0.021). At week 2, median IFX TL was lower in the LOR switched group (5.7 μg/mL [0.15-12.09 μg/mL]) compared with the long-term responders (11.92 μg/mL [0.14-19.93 μg/mL], P = 0.041) but no significant difference was reached with the LOR optimized group (11.91 μg/mL [0.23-12.09 μg/mL], P = 0.065). In the LOR switched group, median IFX TL at induction (weeks 2 and 6) was significantly lower when patients had been previously exposed to anti-tumor necrosis factor compared with naive patients (0.91 μg/mL [0.12-4.4 μg/mL] versus 6.6 μg/mL [0.15-19.93 μg/mL], P = 0.044)., Conclusions: This study suggests that patients who do not respond to any optimization strategy have lower IFX TLs during induction at week 6. IFX TLs measured early on at induction might predict treatment failure to IFX during maintenance.

Published

2017

32. Genome-Wide Copy Number Variation Scan Identifies Complement Component C4 as Novel Susceptibility Gene for Crohn's Disease.

Author

Cleynen I, Konings P, Robberecht C, Laukens D, Amininejad L, Théâtre E, Machiels K, Arijs I, Rutgeerts P, Louis E, Franchimont D, De Vos M, Van Steen K, Georges M, Moreau Y, Vermeesch J, and Vermeire S

Subjects

Adolescent, Adult, Alleles, Case-Control Studies, Chromosomes, Artificial, Bacterial, Comparative Genomic Hybridization, Complement C4 metabolism, Female, Follow-Up Studies, Genetic Variation genetics, Genotype, Humans, Major Histocompatibility Complex genetics, Male, Middle Aged, Polymorphism, Single Nucleotide genetics, Real-Time Polymerase Chain Reaction, Young Adult, Complement C4 genetics, Crohn Disease genetics, DNA Copy Number Variations genetics, Disease Susceptibility, Genome, Human

Abstract

Background: The genetic component of Crohn's disease (CD) is well known, with 140 susceptibility loci identified so far. In addition to single nucleotide polymorphisms typically studied in genome-wide scans, copy number variation is responsible for a large proportion of human genetic variation., Methods: We performed a genome-wide search for copy number variants associated with CD using array comparative genomic hybridization. One of the found regions was validated independently through real-time PCR. Serum levels of the found gene were measured in patients and control subjects., Results: We found copy number differences for the C4S and C4L gene variants of complement component C4 in the central major histocompatibility complex region on chromosome 6p21. Specifically, we saw that CD patients tend to have lower C4L and higher C4S copies than control subjects (P = 5.00 × 10 and P = 9.11 × 10), which was independent of known associated classical HLA I and II alleles (P = 7.68 × 10 and P = 6.29 × 10). Although C4 serum levels were not different between patients and control subjects, the relationship between C4 copy number and serum level was different for patients and control subjects with higher copy numbers leading to higher serum concentrations in control subjects, compared with CD patients (P < 0.001)., Conclusions: C4 is part of the classical activation pathway of the complement system, which is important for (auto)immunity. Low C4L or high C4S copy number, and corresponding effects on C4 serum level, could lead to an exaggerated response against infections, possibly leading to (auto)immune disease.

Published

2016

33. Safety and Feasibility of Using the Second-Generation Pillcam Colon Capsule to Assess Active Colonic Crohn's Disease.

Author

D'Haens G, Löwenberg M, Samaan MA, Franchimont D, Ponsioen C, van den Brink GR, Fockens P, Bossuyt P, Amininejad L, Rajamannar G, Lensink EM, and Van Gossum AM

Subjects

Adolescent, Adult, Capsule Endoscopes adverse effects, Female, Humans, Male, Middle Aged, Pilot Projects, Prospective Studies, Young Adult, Capsule Endoscopy adverse effects, Capsule Endoscopy methods, Colon pathology, Crohn Disease diagnosis, Crohn Disease pathology

Abstract

Background & Aims: The second-generation Pillcam Colon Capsule Endoscope (PCCE-2; Given Imaging Ltd, Yoqneam, Israel) is an ingestible capsule for visualization of the colon. We performed a multicenter pilot study to assess its safety and feasibility in evaluating the severity of Crohn's disease (CD)., Methods: In a prospective study, 40 patients with active colonic CD underwent PCCE-2 and optical colonoscopy procedures. Using both techniques, we generated values for the Crohn's Disease Endoscopic Index of Severity (CDEIS), the Simple Endoscopic Score for CD, and global evaluation of lesion severity. In the first stage of the study, we calculated the correlation between PCCE-2 and optical colonoscopy scores. In the second stage, we performed interobserver agreement analysis for a random subset of 20 PCCE-2 recordings, graded in duplicate by 2 independent readers., Results: There was substantial agreement between PCCE-2 and optical colonoscopy in the measurement of the CDEIS (intraclass correlation coefficient [ICC], 0.65; 95% confidence interval [CI], 0.43-0.80). There was substantial interobserver agreement between 2 independent PCCE-2 readers for the CDEIS (ICC, 0.67; 95% CI, 0.35-0.86) and the Simple Endoscopic Score for CD (ICC, 0.66; 95% CI, 0.32-0.85). However, the PCCE-2 scoring systematically underestimated the severity of disease compared with optical colonoscopy; based on our results, PCCE-2 detected colonic ulcerations with 86% sensitivity and 40% specificity. No adverse events were observed and PCCE-2 was better tolerated than colonoscopy., Conclusions: PCCE-2 is feasible, safe, and well tolerated for the assessment of mucosal CD activity in selected populations. Larger studies are needed to assess its operating characteristics further. European clinical trials database number: 2014-003854-15., (Copyright © 2015 AGA Institute. Published by Elsevier Inc. All rights reserved.)

Published

2015

34. Host-microbe interactions have shaped the genetic architecture of inflammatory bowel disease.

Author

Jostins L, Ripke S, Weersma RK, Duerr RH, McGovern DP, Hui KY, Lee JC, Schumm LP, Sharma Y, Anderson CA, Essers J, Mitrovic M, Ning K, Cleynen I, Theatre E, Spain SL, Raychaudhuri S, Goyette P, Wei Z, Abraham C, Achkar JP, Ahmad T, Amininejad L, Ananthakrishnan AN, Andersen V, Andrews JM, Baidoo L, Balschun T, Bampton PA, Bitton A, Boucher G, Brand S, Büning C, Cohain A, Cichon S, D'Amato M, De Jong D, Devaney KL, Dubinsky M, Edwards C, Ellinghaus D, Ferguson LR, Franchimont D, Fransen K, Gearry R, Georges M, Gieger C, Glas J, Haritunians T, Hart A, Hawkey C, Hedl M, Hu X, Karlsen TH, Kupcinskas L, Kugathasan S, Latiano A, Laukens D, Lawrance IC, Lees CW, Louis E, Mahy G, Mansfield J, Morgan AR, Mowat C, Newman W, Palmieri O, Ponsioen CY, Potocnik U, Prescott NJ, Regueiro M, Rotter JI, Russell RK, Sanderson JD, Sans M, Satsangi J, Schreiber S, Simms LA, Sventoraityte J, Targan SR, Taylor KD, Tremelling M, Verspaget HW, De Vos M, Wijmenga C, Wilson DC, Winkelmann J, Xavier RJ, Zeissig S, Zhang B, Zhang CK, Zhao H, Silverberg MS, Annese V, Hakonarson H, Brant SR, Radford-Smith G, Mathew CG, Rioux JD, Schadt EE, Daly MJ, Franke A, Parkes M, Vermeire S, Barrett JC, and Cho JH

Subjects

Colitis, Ulcerative genetics, Colitis, Ulcerative immunology, Colitis, Ulcerative microbiology, Colitis, Ulcerative physiopathology, Crohn Disease genetics, Crohn Disease immunology, Crohn Disease microbiology, Crohn Disease physiopathology, Genome, Human genetics, Haplotypes genetics, Humans, Inflammatory Bowel Diseases immunology, Inflammatory Bowel Diseases physiopathology, Mycobacterium pathogenicity, Mycobacterium Infections genetics, Mycobacterium Infections microbiology, Mycobacterium tuberculosis immunology, Mycobacterium tuberculosis pathogenicity, Phenotype, Polymorphism, Single Nucleotide genetics, Reproducibility of Results, Genetic Predisposition to Disease genetics, Genome-Wide Association Study, Host-Pathogen Interactions genetics, Host-Pathogen Interactions immunology, Inflammatory Bowel Diseases genetics, Inflammatory Bowel Diseases microbiology, Mycobacterium immunology

Abstract

Crohn's disease and ulcerative colitis, the two common forms of inflammatory bowel disease (IBD), affect over 2.5 million people of European ancestry, with rising prevalence in other populations. Genome-wide association studies and subsequent meta-analyses of these two diseases as separate phenotypes have implicated previously unsuspected mechanisms, such as autophagy, in their pathogenesis and showed that some IBD loci are shared with other inflammatory diseases. Here we expand on the knowledge of relevant pathways by undertaking a meta-analysis of Crohn's disease and ulcerative colitis genome-wide association scans, followed by extensive validation of significant findings, with a combined total of more than 75,000 cases and controls. We identify 71 new associations, for a total of 163 IBD loci, that meet genome-wide significance thresholds. Most loci contribute to both phenotypes, and both directional (consistently favouring one allele over the course of human history) and balancing (favouring the retention of both alleles within populations) selection effects are evident. Many IBD loci are also implicated in other immune-mediated disorders, most notably with ankylosing spondylitis and psoriasis. We also observe considerable overlap between susceptibility loci for IBD and mycobacterial infection. Gene co-expression network analysis emphasizes this relationship, with pathways shared between host responses to mycobacteria and those predisposing to IBD.

Published

2012

35. Effect of the intake of resveratrol, resveratrol phosphate, and catechin-rich grape seed extract on markers of oxidative stress and gene expression in adult obese subjects.

Author

De Groote D, Van Belleghem K, Devière J, Van Brussel W, Mukaneza A, and Amininejad L

Subjects

Adult, Antioxidants administration & dosage, Biomarkers blood, Dietary Supplements, Female, Gene Expression, Humans, Male, Microarray Analysis, Middle Aged, Obesity blood, Resveratrol, Catechin administration & dosage, Grape Seed Extract pharmacology, Obesity physiopathology, Organophosphates administration & dosage, Oxidative Stress drug effects, Stilbenes administration & dosage

Abstract

Background: The preventive effect of resveratrol (RES) on the development of human diseases has been verified by numerous epidemiological studies. Resveratrol triphosphate (RTP) is a stable derivative of RES in which phosphate groups protect the phenolic groups., Aims: This study compared the effect of RTP on biochemical and molecular markers of oxidative stress to equimolar doses (0.66 mmol) of RES and catechin-rich grape seed extract (CGSE) in a model of oxidative and metabolic stress associated with obesity in humans., Methods: Thirty-two obese subjects (BMI between 30 and 40) were enrolled. They all received 1 capsule of placebo/day for 28 days before being randomly devised into three arms receiving 1 capsule/day of RES, CGSE, or RTP during the following consecutive 28 days. Blood samples were collected at baseline, after the end of placebo intake, and after the end of the investigational product intake. Biochemical parameters of oxidative stress and blood expression of 200 redox-related genes were determined at each time point., Results: RTP and CGSE showed better antioxidant activities compared to RES and induced important modulations of gene expression., Conclusion: The results suggest that RTP and CGSE could contribute to a significant reduction of oxidative stress in obese subjects., (Copyright © 2012 S. Karger AG, Basel.)

Published

2012

36. Common polymorphism in the PNPLA3/adiponutrin gene confers higher risk of cirrhosis and liver damage in alcoholic liver disease.

Author

Trépo E, Gustot T, Degré D, Lemmers A, Verset L, Demetter P, Ouziel R, Quertinmont E, Vercruysse V, Amininejad L, Deltenre P, Le Moine O, Devière J, Franchimont D, and Moreno C

Subjects

Adult, Aged, Fatty Liver, Alcoholic ethnology, Fatty Liver, Alcoholic genetics, Female, Genetic Predisposition to Disease ethnology, Genetic Predisposition to Disease genetics, Genotype, Humans, Liver Cirrhosis ethnology, Liver Cirrhosis genetics, Male, Middle Aged, Phenotype, Predictive Value of Tests, Risk Factors, Lipase genetics, Liver Cirrhosis, Alcoholic ethnology, Liver Cirrhosis, Alcoholic genetics, Membrane Proteins genetics, Polymorphism, Genetic, White People statistics & numerical data

Abstract

Background & Aims: A recent genome-wide association study identified genetic polymorphism (rs738409 C>G) in the PNPLA3/adiponutrin gene associated with liver steatosis. This variant has also been linked to increased risk of alcoholic liver disease (ALD) and cirrhosis in Mestizo Mexicans with excessive alcohol intake. Our aim was to study the influence of this polymorphism on European Caucasian patients with histologically suggestive ALD., Methods: Three-hundred-and-twenty-eight healthy controls and 330 ALD patients, among whom 265 had cirrhosis, were genotyped for the rs738409 polymorphism. We studied the impact of rs738409 on clinical and biological parameters, together with histological staging of steatosis and fibrosis. PNPLA3 messenger RNA (mRNA) levels were measured by quantitative real-time PCR according to the patient's phenotype., Results: The G-allele was significantly more frequent in ALD patients than in controls (odds ratio [OR] = 1.54, 95% confidence interval [CI] = 1.12-2.11 p = 0.008) and was, among ALD patients, significantly associated with steatosis (p = 0.048), fibrosis (p = 0.001), and greater risk of cirrhosis (p = 0.001). In multivariate analysis, rs738409 remained the strongest independent factor associated with risk of cirrhosis (OR = 2.08; 95% CI = 1.15-3.77; p = 0.02). Furthermore, the PNPLA3 mRNA liver expression level was significantly lower in patients with more advanced fibrosis (p = 0.03) and negatively correlated with the hepatic venous pressure gradient (r = -0.41, p = 0.006)., Conclusions: In European Caucasians, the rs738409 variant is associated with increased risk of ALD, liver damage, and cirrhosis. Further prospective studies are required to confirm these results and to evaluate the potential of PNPLA3 as both a predictor and a therapeutic target in ALD., (Copyright © 2011 European Association for the Study of the Liver. Published by Elsevier B.V. All rights reserved.)

Published

2011

37. Second-generation colon capsule endoscopy compared with colonoscopy.

Author

Spada C, Hassan C, Munoz-Navas M, Neuhaus H, Deviere J, Fockens P, Coron E, Gay G, Toth E, Riccioni ME, Carretero C, Charton JP, Van Gossum A, Wientjes CA, Sacher-Huvelin S, Delvaux M, Nemeth A, Petruzziello L, de Frias CP, Mayershofer R, Amininejad L, Dekker E, Galmiche JP, Frederic M, Johansson GW, Cesaro P, and Costamagna G

Subjects

Aged, Colonic Polyps pathology, Female, Humans, Male, Middle Aged, Prospective Studies, Sensitivity and Specificity, Adenoma diagnosis, Capsule Endoscopy adverse effects, Colonic Polyps diagnosis, Colonoscopy adverse effects, Colorectal Neoplasms diagnosis

Abstract

Background: Colon capsule endoscopy (CCE) represents a noninvasive technology that allows visualization of the colon without requiring sedation and air insufflation. A second-generation colon capsule endoscopy system (PillCam Colon 2) (CCE-2) was developed to increase sensitivity for colorectal polyp detection compared with the first-generation system., Objective: To assess the feasibility, accuracy, and safety of CCE-2 in a head-to-head comparison with colonoscopy., Design and Setting: Prospective, multicenter trial including 8 European sites., Patients: This study involved 117 patients (mean age 60 years). Data from 109 patients were analyzed., Intervention: CCE-2 was prospectively compared with conventional colonoscopy as the criterion standard for the detection of colorectal polyps that are ≥6 mm or masses in a cohort of patients at average or increased risk of colorectal neoplasia. Colonoscopy was independently performed within 10 hours after capsule ingestion or on the next day., Main Outcome Measurements: CCE-2 sensitivity and specificity for detecting patients with polyps ≥6 mm and ≥10 mm were assessed. Capsule-positive but colonoscopy-negative cases were counted as false positive. Capsule excretion rate, level of bowel preparation, and rate of adverse events also were assessed., Results: Per-patient CCE-2 sensitivity for polyps ≥6 mm and ≥10 mm was 84% and 88%, with specificities of 64% and 95%, respectively. All 3 invasive carcinomas were detected by CCE-2. The capsule excretion rate was 88% within 10 hours. Overall colon cleanliness for CCE-2 was adequate in 81% of patients., Limitations: Not unblinding the CCE-2 results at colonoscopy; heterogenous patient population; nonconsecutive patients., Conclusion: In this European, multicenter study, CCE-2 appeared to have a high sensitivity for the detection of clinically relevant polypoid lesions, and it might be considered an adequate tool for colorectal imaging., (Copyright © 2011 American Society for Gastrointestinal Endoscopy. Published by Mosby, Inc. All rights reserved.)

Published

2011

38. Impact of patatin-like phospholipase-3 (rs738409 C>G) polymorphism on fibrosis progression and steatosis in chronic hepatitis C.

Author

Trépo E, Pradat P, Potthoff A, Momozawa Y, Quertinmont E, Gustot T, Lemmers A, Berthillon P, Amininejad L, Chevallier M, Schlué J, Kreipe H, Devière J, Manns M, Trépo C, Sninsky J, Wedemeyer H, Franchimont D, and Moreno C

Subjects

Adult, Aged, Antiviral Agents therapeutic use, Belgium, Cross-Sectional Studies, Fatty Liver pathology, Fatty Liver physiopathology, Female, France, Genetic Predisposition to Disease genetics, Germany, Hepatitis C, Chronic drug therapy, Hepatitis C, Chronic physiopathology, Humans, Interferons, Liver Cirrhosis genetics, Liver Cirrhosis pathology, Liver Cirrhosis physiopathology, Longitudinal Studies, Male, Middle Aged, Treatment Outcome, White People genetics, Disease Progression, Fatty Liver genetics, Hepatitis C, Chronic genetics, Interleukins therapeutic use, Lipase genetics, Membrane Proteins genetics, Polymorphism, Single Nucleotide genetics

Abstract

Unlabelled: Only 20% of patients with chronic hepatitis C (CHC) will develop cirrhosis, and fibrosis progression remains highly unpredictable. A recent genome-wide association study identified a genetic variant in the patatin-like phospholipase-3 (PNPLA3) gene (rs738409 C>G) associated with steatosis that was further demonstrated to influence severity of fibrosis in nonalcoholic fatty liver disease. The aim of this study was to assess the impact of this polymorphism on histological liver damage and response to antiviral therapy in CHC. We recruited 537 Caucasian CHC patients from three European centers (Brussels, Belgium [n = 229]; Hannover, Germany [n = 171]; Lyon, France [n = 137]); these patients were centrally genotyped for the PNPLA3 (rs738409 C>G) polymorphism. We studied the influence of rs738409 and other variants in the PNPLA3 region on steatosis and fibrosis assessed both in a cross-sectional and longitudinal manner. Seven other variants previously associated with fibrosis progression were included. Finally, we explored the impact of rs738409 on response to standard antiviral therapy using the interferon lambda 3 (IL28B) [rs12979860 C>T] variant both as a comparator and as a positive control. After adjustment for age, sex, body mass index, alcohol consumption, and diabetes, rs738409 mutant G allele homozygote carriers remained at higher risk for steatosis (odds ratio [OR] 2.55, 95% confidence interval [CI] 1.08-6.03, P = 0.034), fibrosis (OR 3.13, 95% CI 1.50-6.51, P = 0.002), and fibrosis progression (OR 2.64, 95% CI 1.22-5.67, P = 0.013). Conversely, rs738409 was not independently associated with treatment failure (OR 1.07, 95% CI 0.46-2.49, P = 0.875) and did not influence clinical or biological variables., Conclusion: The PNPLA3 (rs738409 C>G) polymorphism favors steatosis and fibrosis progression in CHC. This polymorphism may represent a valuable genetic predictor and a potential therapeutic target in CHC liver damage., (Copyright © 2011 American Association for the Study of Liver Diseases.)

Published

2011

39. Meta-analysis identifies 29 additional ulcerative colitis risk loci, increasing the number of confirmed associations to 47.

Author

Anderson CA, Boucher G, Lees CW, Franke A, D'Amato M, Taylor KD, Lee JC, Goyette P, Imielinski M, Latiano A, Lagacé C, Scott R, Amininejad L, Bumpstead S, Baidoo L, Baldassano RN, Barclay M, Bayless TM, Brand S, Büning C, Colombel JF, Denson LA, De Vos M, Dubinsky M, Edwards C, Ellinghaus D, Fehrmann RS, Floyd JA, Florin T, Franchimont D, Franke L, Georges M, Glas J, Glazer NL, Guthery SL, Haritunians T, Hayward NK, Hugot JP, Jobin G, Laukens D, Lawrance I, Lémann M, Levine A, Libioulle C, Louis E, McGovern DP, Milla M, Montgomery GW, Morley KI, Mowat C, Ng A, Newman W, Ophoff RA, Papi L, Palmieri O, Peyrin-Biroulet L, Panés J, Phillips A, Prescott NJ, Proctor DD, Roberts R, Russell R, Rutgeerts P, Sanderson J, Sans M, Schumm P, Seibold F, Sharma Y, Simms LA, Seielstad M, Steinhart AH, Targan SR, van den Berg LH, Vatn M, Verspaget H, Walters T, Wijmenga C, Wilson DC, Westra HJ, Xavier RJ, Zhao ZZ, Ponsioen CY, Andersen V, Torkvist L, Gazouli M, Anagnou NP, Karlsen TH, Kupcinskas L, Sventoraityte J, Mansfield JC, Kugathasan S, Silverberg MS, Halfvarson J, Rotter JI, Mathew CG, Griffiths AM, Gearry R, Ahmad T, Brant SR, Chamaillard M, Satsangi J, Cho JH, Schreiber S, Daly MJ, Barrett JC, Parkes M, Annese V, Hakonarson H, Radford-Smith G, Duerr RH, Vermeire S, Weersma RK, and Rioux JD

Subjects

Crohn Disease genetics, Genome-Wide Association Study, Humans, Risk, Colitis, Ulcerative genetics

Abstract

Genome-wide association studies and candidate gene studies in ulcerative colitis have identified 18 susceptibility loci. We conducted a meta-analysis of six ulcerative colitis genome-wide association study datasets, comprising 6,687 cases and 19,718 controls, and followed up the top association signals in 9,628 cases and 12,917 controls. We identified 29 additional risk loci (P < 5 × 10(-8)), increasing the number of ulcerative colitis-associated loci to 47. After annotating associated regions using GRAIL, expression quantitative trait loci data and correlations with non-synonymous SNPs, we identified many candidate genes that provide potentially important insights into disease pathogenesis, including IL1R2, IL8RA-IL8RB, IL7R, IL12B, DAP, PRDM1, JAK2, IRF5, GNA12 and LSP1. The total number of confirmed inflammatory bowel disease risk loci is now 99, including a minimum of 28 shared association signals between Crohn's disease and ulcerative colitis.

Published

2011

40. Resequencing of positional candidates identifies low frequency IL23R coding variants protecting against inflammatory bowel disease.

Author

Momozawa Y, Mni M, Nakamura K, Coppieters W, Almer S, Amininejad L, Cleynen I, Colombel JF, de Rijk P, Dewit O, Finkel Y, Gassull MA, Goossens D, Laukens D, Lémann M, Libioulle C, O'Morain C, Reenaers C, Rutgeerts P, Tysk C, Zelenika D, Lathrop M, Del-Favero J, Hugot JP, de Vos M, Franchimont D, Vermeire S, Louis E, and Georges M

Subjects

Case-Control Studies, Crohn Disease genetics, Genetic Predisposition to Disease, Genome-Wide Association Study, Humans, Nod2 Signaling Adaptor Protein genetics, Phenotype, Polymorphism, Single Nucleotide, Sequence Analysis, DNA, Genetic Variation, Inflammatory Bowel Diseases genetics, Receptors, Interleukin genetics

Abstract

Genome-wide association studies (GWAS) have identified dozens of risk loci for many complex disorders, including Crohn's disease. However, common disease-associated SNPs explain at most ∼20% of the genetic variance for Crohn's disease. Several factors may account for this unexplained heritability, including rare risk variants not adequately tagged thus far in GWAS. That rare susceptibility variants indeed contribute to variation in multifactorial phenotypes has been demonstrated for colorectal cancer, plasma high-density lipoprotein cholesterol levels, blood pressure, type 1 diabetes, hypertriglyceridemia and, in the case of Crohn's disease, for NOD2 (refs. 14,15). Here we describe the use of high-throughput resequencing of DNA pools to search for rare coding variants influencing susceptibility to Crohn's disease in 63 GWAS-identified positional candidate genes. We identify low frequency coding variants conferring protection against inflammatory bowel disease in IL23R, but we conclude that rare coding variants in positional candidates do not make a large contribution to inherited predisposition to Crohn's disease.

Published

2011