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Literature DB >> 30220008

On the role of the immunoproteasome in transplant rejection.

Michael Basler^1,2, Jun Li^3,4, Marcus Groettrup^5,6.

Abstract

The immunoproteasome is expressed in cells of hematopoietic origin and is induced during inflammation by IFN-γ. Targeting the immunoproteasome with selective inhibitors has been shown to be therapeutically effective in pre-clinical models for autoimmune diseases, colitis-associated cancer formation, and transplantation. Immunoproteasome inhibition prevents activation and proliferation of lymphocytes, lowers MHC class I cell surface expression, reduces the expression of cytokines of activated immune cells, and curtails T helper 1 and 17 cell differentiation. This might explain the in vivo efficacy of immunoproteasome inhibition in different pre-clinical disease models for autoimmunity, cancer, and transplantation. In this review, we summarize the effect of immunoproteasome inhibition in different animal models for transplantation.

Entities: Disease Gene

Keywords: Antigen presentation; Antigen processing; Immunoproteasome; Proteasome; Transplantation

Mesh：

Substances：

Year: 2018 PMID： 30220008 DOI： 10.1007/s00251-018-1084-0

Source DB: PubMed Journal: Immunogenetics ISSN： 0093-7711 Impact factor: 2.846

79 in total

1. A comparative analysis between proteasome and immunoproteasome inhibition in cellular and humoral alloimmunity.

Authors: Theodoros Eleftheriadis; Georgios Pissas; Georgia Antoniadi; Vassilios Liakopoulos; Ioannis Stefanidis
Journal: Int Immunopharmacol Date: 2017-06-16 Impact factor: 4.932

2. Immunoproteasome inhibition prevents chronic antibody-mediated allograft rejection in renal transplantation.

Authors: Jun Li; Michael Basler; Gerardo Alvarez; Thomas Brunner; Christopher J Kirk; Marcus Groettrup
Journal: Kidney Int Date: 2017-12-08 Impact factor: 10.612

3. Interleukin-17 accelerates allograft rejection by suppressing regulatory T cell expansion.

Authors: Satoshi Itoh; Naoyuki Kimura; Robert C Axtell; Jeffrey B Velotta; Yongquan Gong; Xi Wang; Naoki Kajiwara; Aya Nambu; Eri Shimura; Hideo Adachi; Yoichiro Iwakura; Hirohisa Saito; Ko Okumura; Katsuko Sudo; Lawrence Steinman; Robert C Robbins; Susumu Nakae; Michael P Fischbein
Journal: Circulation Date: 2011-09-13 Impact factor: 29.690

4. Inhibition of the Immunoproteasome Subunit LMP7 with ONX 0914 Ameliorates Graft-versus-Host Disease in an MHC-Matched Minor Histocompatibility Antigen-Disparate Murine Model.

Authors: Jenny Zilberberg; Jennifer Matos; Eugenia Dziopa; Leah Dziopa; Zheng Yang; Christopher J Kirk; Shahin Assefnia; Robert Korngold
Journal: Biol Blood Marrow Transplant Date: 2015-06-18 Impact factor: 5.742

5. MHC class I expression in mice lacking the proteasome subunit LMP-7.

Authors: H J Fehling; W Swat; C Laplace; R Kühn; K Rajewsky; U Müller; H von Boehmer
Journal: Science Date: 1994-08-26 Impact factor: 47.728

6. Abrogation of anti-HLA antibodies via proteasome inhibition.

Authors: Hargovind L Trivedi; Paul I Terasaki; Aziz Feroz; Matthew J Everly; Aruna V Vanikar; Vangipurapu Shankar; Varsha B Trivedi; Hugo Kaneku; Adam K Idica; Pranjal R Modi; Sajani I Khemchandani; Shruti D Dave
Journal: Transplantation Date: 2009-05-27 Impact factor: 4.939

7. A dominant role for the immunoproteasome in CD8+ T cell responses to murine cytomegalovirus.

Authors: Sarah Hutchinson; Stuart Sims; Geraldine O'Hara; Jon Silk; Uzi Gileadi; Vincenzo Cerundolo; Paul Klenerman
Journal: PLoS One Date: 2011-02-03 Impact factor: 3.240

8. The proteasome inhibitior bortezomib depletes plasma cells and ameliorates clinical manifestations of refractory systemic lupus erythematosus.

Authors: Tobias Alexander; Ramona Sarfert; Jens Klotsche; Anja A Kühl; Andrea Rubbert-Roth; Hannes-Martin Lorenz; Jürgen Rech; Bimba F Hoyer; Qingyu Cheng; Aderajew Waka; Adriano Taddeo; Michael Wiesener; Georg Schett; Gerd-Rüdiger Burmester; Andreas Radbruch; Falk Hiepe; Reinhard E Voll
Journal: Ann Rheum Dis Date: 2015-02-20 Impact factor: 19.103

9. Inhibition of the immunoproteasome ameliorates experimental autoimmune encephalomyelitis.

Authors: Michael Basler; Sarah Mundt; Tony Muchamuel; Carlo Moll; Jing Jiang; Marcus Groettrup; Christopher J Kirk
Journal: EMBO Mol Med Date: 2014-01-16 Impact factor: 12.137

10. The Combined Deficiency of Immunoproteasome Subunits Affects Both the Magnitude and Quality of Pathogen- and Genetic Vaccination-Induced CD8+ T Cell Responses to the Human Protozoan Parasite Trypanosoma cruzi.

Authors: Jonatan Ersching; José R Vasconcelos; Camila P Ferreira; Braulia C Caetano; Alexandre V Machado; Oscar Bruna-Romero; Monique A Baron; Ludmila R P Ferreira; Edécio Cunha-Neto; Kenneth L Rock; Ricardo T Gazzinelli; Maurício M Rodrigues
Journal: PLoS Pathog Date: 2016-04-29 Impact factor: 6.823

6 in total

1. Immunoproteasome Inhibition Reduces the T Helper 2 Response in Mouse Models of Allergic Airway Inflammation.

Authors: Franziska Oliveri; Michael Basler; Tata Nageswara Rao; Hans Joerg Fehling; Marcus Groettrup
Journal: Front Immunol Date: 2022-05-30 Impact factor: 8.786

2. Biology, evolution, and history of antigen processing and presentation: Immunogenetics special issue 2019.

Authors: Masanori Kasahara; Martin F Flajnik; Yousuke Takahama
Journal: Immunogenetics Date: 2019-03 Impact factor: 2.846

3. ONX 0914 Lacks Selectivity for the Cardiac Immunoproteasome in CoxsackievirusB3 Myocarditis of NMRI Mice and Promotes Virus-Mediated Tissue Damage.

Authors: Hannah Louise Neumaier; Shelly Harel; Karin Klingel; Ziya Kaya; Arnd Heuser; Meike Kespohl; Antje Beling
Journal: Cells Date: 2020-04-28 Impact factor: 6.600