Willem van Eden

Overview

Best Publications

• Heat-shock proteins induce T-cell regulation of chronic inflammation.

  Willem van Eden;Ruurd van der Zee;Berent Prakken

  663
  Citations

• Interleukin-4 therapy of psoriasis induces Th2 responses and improves human autoimmune disease

  Kamran Ghoreschi;Peter Thomas;Susanne Breit;Martin Dugas

  557
  Citations

• Mechanisms of disease: the hygiene hypothesis revisited.

  Francisco Guarner;Raphaëlle Bourdet-Sicard;Per Brandtzaeg;Harsharnjit S. Gill

  393
  Citations

• Synovial fluid T cell reactivity against 65 kD heat shock protein of mycobacteria in early chronic arthritis.

  PieterC.M. Res;FerdinandC. Breedveld;JanD.A. Van Embden;CeesG. Schaar

  374
  Citations

• Activation of T cells recognizing self 60-kD heat shock protein can protect against experimental arthritis.

  S. M. Anderton;R. Van Der Zee;Berent Prakken;A. Noordzij

  329
  Citations

• The anti-inflammatory mechanisms of Hsp70

  Thiago J Borges;Lotte Wieten;Martijn J. C. van Herwijnen;Femke Broere

  318
  Citations

• A Conserved Mycobacterial Heat Shock Protein (hsp) 70 Sequence Prevents Adjuvant Arthritis upon Nasal Administration and Induces IL-10-Producing T Cells That Cross-React with the Mammalian Self-hsp70 Homologue

  Uwe Wendling;Liesbeth Paul;Ruurd van der Zee;Berent Prakken

  305
  Citations

• Nasal vaccination with N-trimethyl chitosan and PLGA based nanoparticles: nanoparticle characteristics determine quality and strength of the antibody response in mice against the encapsulated antigen.

  Bram Slütter;Suzanne Bal;Chantal Keijzer;Roel Mallants

  256
  Citations

• The human endoplasmic reticulum molecular chaperone BiP is an autoantigen for rheumatoid arthritis and prevents the induction of experimental arthritis.

  V M Corrigall;M D Bodman-Smith;M S Fife;B Canas

  239
  Citations

• Heat-shock proteins as immunogenic bacterial antigens with the potential to induce and regulate autoimmune arthritis

  Willem Van Eden

  210
  Citations

• Do heat shock proteins control the balance of T-cell regulation in inlammatory diseases?

  Willem van Eden;Ruurd van der Zee;Alberta G.A Paul;Berent J Prakken

  197
  Citations

• T cell subsets and T cell-mediated immunity

  Femke Broere;Sergei G. Apasov;Michail V. Sitkovsky;Willem van Eden

  197
  Citations

• T lymphocyte clones illuminate pathogenesis and affect therapy of experimental arthritis.

  Irun R. Cohen;Joseph Holoshitz;Willem van Eden;Ayalla Frenkel

  194
  Citations

• Anergic T cells actively suppress T cell responses via the antigen‐presenting cell

  L. S. Taams;A. J. M. L. Van Rensen;M. C. M. Poelen;C. A. C. M. Van Els

  193
  Citations

• Peptide-induced nasal tolerance for a mycobacterial heat shock protein 60 T cell epitope in rats suppresses both adjuvant arthritis and nonmicrobially induced experimental arthritis

  Berent J. Prakken;Ruurd van der Zee;Stephen M. Anderton;Peter J. S. van Kooten

  189
  Citations

• Juvenile chronic arthritis: T cell reactivity to human HSP60 in patients with a favorable course of arthritis.

  E. R. De Graeff-Meeder;W. Van Eden;G. T. Rijkers;B. J. Prakken

  183
  Citations

• Stress, heat shock proteins, and autoimmunity: how immune responses to heat shock proteins are to be used for the control of chronic inflammatory diseases.

  Willem Van Eden;George Wick;Salvatore Albani;Irun Cohen

  176
  Citations

• Synovial fluid-derived Yersinia-reactive T cells responding to human 65-kDa heat-shock protein and heat-stressed antigen-presenting cells

  Elisabeth Hermann;Ansgar W. Lohse;Ruurd Van Der Zee;Willem Van Eden

  165
  Citations

• Stress Proteins in Medicine

  Willem van Eden;Douglas B. Young

  161
  Citations

• Evidence for an HLA-DR4-associated immune-response gene for Mycobacterium tuberculosis. A clue to the pathogenesis of rheumatoid arthritis?

  TomH.M Ottenhoff;Pedro Torres;JoseTerencio De Las Aguas;Ramon Fernandez

  150
  Citations