OBJECTIVE: Clinical heterogeneity, a hallmark of systemic autoimmune diseases, impedes early diagnosis and effective treatment, issues that may be addressed if patients could be classified into groups defined by molecular pattern. This study was undertaken to identify molecular clusters for reclassifying systemic autoimmune diseases independently of clinical diagnosis. METHODS: Unsupervised clustering of integrated whole blood transcriptome and methylome cross-sectional data on 955 patients with 7 systemic autoimmune diseases and 267 healthy controls was undertaken. In addition, an inception cohort was prospectively followed up for 6 or 14 months to validate the results and analyze whether or not cluster assignment changed over time. RESULTS: Four clusters were identified and validated. Three were pathologic, representing "inflammatory," "lymphoid," and "interferon" patterns. Each included all diagnoses and was defined by genetic, clinical, serologic, and cellular features. A fourth cluster with no specific molecular pattern was associated with low disease activity and included healthy controls. A longitudinal and independent inception cohort showed a relapse-remission pattern, where patients remained in their pathologic cluster, moving only to the healthy one, thus showing that the molecular clusters remained stable over time and that single pathogenic molecular signatures characterized each individual patient. CONCLUSION: Patients with systemic autoimmune diseases can be jointly stratified into 3 stable disease clusters with specific molecular patterns differentiating different molecular disease mechanisms. These results have important implications for future clinical trials and the study of nonresponse to therapy, marking a paradigm shift in our view of systemic autoimmune diseases.
OBJECTIVE: Clinical heterogeneity, a hallmark of systemic autoimmune diseases, impedes early diagnosis and effective treatment, issues that may be addressed if patients could be classified into groups defined by molecular pattern. This study was undertaken to identify molecular clusters for reclassifying systemic autoimmune diseases independently of clinical diagnosis. METHODS: Unsupervised clustering of integrated whole blood transcriptome and methylome cross-sectional data on 955 patients with 7 systemic autoimmune diseases and 267 healthy controls was undertaken. In addition, an inception cohort was prospectively followed up for 6 or 14 months to validate the results and analyze whether or not cluster assignment changed over time. RESULTS: Four clusters were identified and validated. Three were pathologic, representing "inflammatory," "lymphoid," and "interferon" patterns. Each included all diagnoses and was defined by genetic, clinical, serologic, and cellular features. A fourth cluster with no specific molecular pattern was associated with low disease activity and included healthy controls. A longitudinal and independent inception cohort showed a relapse-remission pattern, where patients remained in their pathologic cluster, moving only to the healthy one, thus showing that the molecular clusters remained stable over time and that single pathogenic molecular signatures characterized each individual patient. CONCLUSION:Patients with systemic autoimmune diseases can be jointly stratified into 3 stable disease clusters with specific molecular patterns differentiating different molecular disease mechanisms. These results have important implications for future clinical trials and the study of nonresponse to therapy, marking a paradigm shift in our view of systemic autoimmune diseases.
Authors: My Kieu Ha; Esther Bartholomeus; Luc Van Os; Julie Dandelooy; Julie Leysen; Olivier Aerts; Vasiliki Siozopoulou; Eline De Smet; Jan Gielen; Khadija Guerti; Michel De Maeseneer; Nele Herregods; Bouchra Lechkar; Ruth Wittoek; Elke Geens; Laura Claes; Mahmoud Zaqout; Wendy Dewals; Annelies Lemay; David Tuerlinckx; David Weynants; Koen Vanlede; Gerlant van Berlaer; Marc Raes; Helene Verhelst; Tine Boiy; Pierre Van Damme; Anna C Jansen; Marije Meuwissen; Vito Sabato; Guy Van Camp; Arvid Suls; Jutte Van der Werff Ten Bosch; Joke Dehoorne; Rik Joos; Kris Laukens; Pieter Meysman; Benson Ogunjimi Journal: Pediatr Rheumatol Online J Date: 2022-10-17 Impact factor: 3.413
Authors: Raul Lopez-Dominguez; Daniel Toro-Dominguez; Jordi Martorell-Marugan; Adrian Garcia-Moreno; Christian H Holland; Julio Saez-Rodriguez; Daniel Goldman; Michelle A Petri; Marta E Alarcon-Riquelme; Pedro Carmona-Saez Journal: Life (Basel) Date: 2021-04-01
Authors: Noam D Beckmann; Phillip H Comella; Esther Cheng; Lauren Lepow; Aviva G Beckmann; Scott R Tyler; Konstantinos Mouskas; Nicole W Simons; Gabriel E Hoffman; Nancy J Francoeur; Diane Marie Del Valle; Gurpawan Kang; Anh Do; Emily Moya; Lillian Wilkins; Jessica Le Berichel; Christie Chang; Robert Marvin; Sharlene Calorossi; Alona Lansky; Laura Walker; Nancy Yi; Alex Yu; Jonathan Chung; Matthew Hartnett; Melody Eaton; Sandra Hatem; Hajra Jamal; Alara Akyatan; Alexandra Tabachnikova; Lora E Liharska; Liam Cotter; Brian Fennessy; Akhil Vaid; Guillermo Barturen; Hardik Shah; Ying-Chih Wang; Shwetha Hara Sridhar; Juan Soto; Swaroop Bose; Kent Madrid; Ethan Ellis; Elyze Merzier; Konstantinos Vlachos; Nataly Fishman; Manying Tin; Melissa Smith; Hui Xie; Manishkumar Patel; Kai Nie; Kimberly Argueta; Jocelyn Harris; Neha Karekar; Craig Batchelor; Jose Lacunza; Mahlet Yishak; Kevin Tuballes; Ieisha Scott; Arvind Kumar; Suraj Jaladanki; Charuta Agashe; Ryan Thompson; Evan Clark; Bojan Losic; Lauren Peters; Panagiotis Roussos; Jun Zhu; Wenhui Wang; Andrew Kasarskis; Benjamin S Glicksberg; Girish Nadkarni; Dusan Bogunovic; Cordelia Elaiho; Sandeep Gangadharan; George Ofori-Amanfo; Kasey Alesso-Carra; Kenan Onel; Karen M Wilson; Carmen Argmann; Supinda Bunyavanich; Marta E Alarcón-Riquelme; Thomas U Marron; Adeeb Rahman; Seunghee Kim-Schulze; Sacha Gnjatic; Bruce D Gelb; Miriam Merad; Robert Sebra; Eric E Schadt; Alexander W Charney Journal: Nat Commun Date: 2021-08-11 Impact factor: 17.694
Authors: Nardeep Naithani; Amar Tej Atal; T V S V G K Tilak; Biju Vasudevan; Pratibha Misra; Sharmila Sinha Journal: Med J Armed Forces India Date: 2021-07-03