Literature DB >> 23771121

Oxidative stress-induced calreticulin expression and translocation: new insights into the destruction of melanocytes.

Yajun Zhang1, Ling Liu2, Liang Jin1, Xiuli Yi1, Erle Dang1, Yang Yang1, Chunying Li3, Tianwen Gao4.   

Abstract

Increased reactive oxygen species (ROS) contribute to melanocyte apoptosis and the development of cutaneous diseases or disorders via autoimmunity. However, the mechanisms and interrelationships between ROS and autoimmunity are unknown. This study aimed to investigate the role of calreticulin (CRT) in hydrogen peroxide (H2O2)-induced apoptosis in melanocytes. Total CRT levels increased in a time-dependent manner in human immortalized normal and vitiligo melanocytes exposed to H2O2-induced oxidative stress, and surface levels of CRT were increased. Moreover, CRT overexpression increased H2O2-induced apoptosis, whereas knockdown showed the opposite results. Furthermore, CRT-treated peripheral blood mononuclear cells (PBMCs) or stressed melanocytes expressed higher levels of IL-6 and tumor necrosis factor-α (TNF-α) than untreated cells (P<0.05); this effect was inhibited with CRT knockdown. In an in vivo model, CRT levels were positively correlated with lesion area (R=0.7582, P<0.0001) and duration of vitiligo in patients (P<0.001). ELISA analyses revealed that CRT expression was higher in vitiligo patients as compared with healthy subjects (P<0.05). These data demonstrate that CRT exposure via H2O2-induced oxidative stress plays a significant role in melanocyte apoptosis and suggest a relationship between apoptosis and immune reactions during melanocyte destruction.

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Year:  2013        PMID: 23771121     DOI: 10.1038/jid.2013.268

Source DB:  PubMed          Journal:  J Invest Dermatol        ISSN: 0022-202X            Impact factor:   8.551


  49 in total

1.  Analysis of relative gene expression data using real-time quantitative PCR and the 2(-Delta Delta C(T)) Method.

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Journal:  Methods       Date:  2001-12       Impact factor: 3.608

2.  ER-phagosome fusion defines an MHC class I cross-presentation compartment in dendritic cells.

Authors:  Pierre Guermonprez; Loredana Saveanu; Monique Kleijmeer; Jean Davoust; Peter Van Endert; Sebastian Amigorena
Journal:  Nature       Date:  2003-09-25       Impact factor: 49.962

Review 3.  Cell death in the skin.

Authors:  Saskia Lippens; Esther Hoste; Peter Vandenabeele; Patrizia Agostinis; Wim Declercq
Journal:  Apoptosis       Date:  2009-04       Impact factor: 4.677

4.  Impaired recognition of apoptotic neutrophils by the C1q/calreticulin and CD91 pathway in systemic lupus erythematosus.

Authors:  Suzanne Donnelly; Wendy Roake; Simon Brown; Philip Young; Haley Naik; Paul Wordsworth; David A Isenberg; Kenneth B M Reid; Paul Eggleton
Journal:  Arthritis Rheum       Date:  2006-05

5.  Role of calreticulin in the sensitivity of myocardiac H9c2 cells to oxidative stress caused by hydrogen peroxide.

Authors:  Yoshito Ihara; Yoshishige Urata; Shinji Goto; Takahito Kondo
Journal:  Am J Physiol Cell Physiol       Date:  2005-08-31       Impact factor: 4.249

6.  Calreticulin exposure dictates the immunogenicity of cancer cell death.

Authors:  Michel Obeid; Antoine Tesniere; François Ghiringhelli; Gian Maria Fimia; Lionel Apetoh; Jean-Luc Perfettini; Maria Castedo; Grégoire Mignot; Theoharis Panaretakis; Noelia Casares; Didier Métivier; Nathanael Larochette; Peter van Endert; Fabiola Ciccosanti; Mauro Piacentini; Laurence Zitvogel; Guido Kroemer
Journal:  Nat Med       Date:  2006-12-24       Impact factor: 53.440

7.  Interaction of ERp57 with calreticulin: Analysis of complex formation and effects of vancomycin.

Authors:  Marco Frasconi; Silvia Chichiarelli; Elisa Gaucci; Franco Mazzei; Caterina Grillo; Alessandro Chinazzi; Fabio Altieri
Journal:  Biophys Chem       Date:  2011-09-17       Impact factor: 2.352

8.  Cell-surface calreticulin initiates clearance of viable or apoptotic cells through trans-activation of LRP on the phagocyte.

Authors:  Shyra J Gardai; Kathleen A McPhillips; S Courtney Frasch; William J Janssen; Anna Starefeldt; Joanne E Murphy-Ullrich; Donna L Bratton; Per-Arne Oldenborg; Marek Michalak; Peter M Henson
Journal:  Cell       Date:  2005-10-21       Impact factor: 41.582

9.  Mutant HSP70 reverses autoimmune depigmentation in vitiligo.

Authors:  Jeffrey A Mosenson; Andrew Zloza; John D Nieland; Elizabeth Garrett-Mayer; Jonathan M Eby; Erica J Huelsmann; Previn Kumar; Cecele J Denman; Andrew T Lacek; Frederick J Kohlhapp; Ahmad Alamiri; Tasha Hughes; Steven D Bines; Howard L Kaufman; Andreas Overbeck; Shikhar Mehrotra; Claudia Hernandez; Michael I Nishimura; Jose A Guevara-Patino; I Caroline Le Poole
Journal:  Sci Transl Med       Date:  2013-02-27       Impact factor: 17.956

10.  CD8+ T cells from vitiligo perilesional margins induce autologous melanocyte apoptosis.

Authors:  Jilong Wu; Miaoni Zhou; Yinsheng Wan; Aie Xu
Journal:  Mol Med Rep       Date:  2012-10-08       Impact factor: 2.952
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  22 in total

Review 1.  Vitiligo: Focus on Clinical Aspects, Immunopathogenesis, and Therapy.

Authors:  Katia Boniface; Julien Seneschal; Mauro Picardo; Alain Taïeb
Journal:  Clin Rev Allergy Immunol       Date:  2018-02       Impact factor: 8.667

2.  Preferential secretion of inducible HSP70 by vitiligo melanocytes under stress.

Authors:  Jeffrey A Mosenson; Kelsey Flood; Jared Klarquist; Jonathan M Eby; Amy Koshoffer; Raymond E Boissy; Andreas Overbeck; Rebecca C Tung; I Caroline Le Poole
Journal:  Pigment Cell Melanoma Res       Date:  2014-01-13       Impact factor: 4.693

Review 3.  Role of HMGB1 in Vitiligo: Current Perceptions and Future Perspectives.

Authors:  Guangmin Wei; Yinghao Pan; Jingying Wang; Xia Xiong; Yuanmin He; Jixiang Xu
Journal:  Clin Cosmet Investig Dermatol       Date:  2022-10-13

Review 4.  Skin immunity and its dysregulation in atopic dermatitis, hidradenitis suppurativa and vitiligo.

Authors:  Elena Campione; Caterina Lanna; Laura Diluvio; Maria Vittoria Cannizzaro; Sandro Grelli; Marco Galluzzo; Marina Talamonti; Margherita Annicchiarico-Petruzzelli; Mara Mancini; Gerry Melino; Eleonora Candi; Gianfranco Schiavone; Ying Wang; Yufang Shi; Luca Bianchi
Journal:  Cell Cycle       Date:  2020-01-05       Impact factor: 4.534

Review 5.  The Role of the NKG2D in Vitiligo.

Authors:  Lourdes Plaza-Rojas; José A Guevara-Patiño
Journal:  Front Immunol       Date:  2021-02-26       Impact factor: 7.561

6.  Mis-targeting of the mitochondrial protein LIPT2 leads to apoptotic cell death.

Authors:  Emanuele Bernardinelli; Roberta Costa; Giada Scantamburlo; Janet To; Rossana Morabito; Charity Nofziger; Carolina Doerrier; Gerhard Krumschnabel; Markus Paulmichl; Silvia Dossena
Journal:  PLoS One       Date:  2017-06-19       Impact factor: 3.240

7.  Novel approaches to vitiligo treatment via modulation of mTOR and NF-κB pathways in human skin melanocytes.

Authors:  Jerry Wan; Fuquan Lin; Wei Zhang; Aie Xu; Joseph DeGiorgis; Hongguang Lu; Yinsheng Wan
Journal:  Int J Biol Sci       Date:  2017-02-25       Impact factor: 6.580

Review 8.  Perspectives of New Advances in the Pathogenesis of Vitiligo: From Oxidative Stress to Autoimmunity.

Authors:  Yinghan Wang; Shuli Li; Chunying Li
Journal:  Med Sci Monit       Date:  2019-02-06

9.  Calreticulin Ins5 and Del52 mutations impair unfolded protein and oxidative stress responses in K562 cells expressing CALR mutants.

Authors:  Simona Salati; Elena Genovese; Chiara Carretta; Roberta Zini; Niccolò Bartalucci; Zelia Prudente; Valentina Pennucci; Samantha Ruberti; Chiara Rossi; Sebastiano Rontauroli; Elena Enzo; Laura Calabresi; Manjola Balliu; Carmela Mannarelli; Elisa Bianchi; Paola Guglielmelli; Enrico Tagliafico; Alessandro M Vannucchi; Rossella Manfredini
Journal:  Sci Rep       Date:  2019-07-22       Impact factor: 4.379

Review 10.  Clinical Features, Immunopathogenesis, and Therapeutic Strategies in Vitiligo.

Authors:  Yinghan Wang; Shuli Li; Chunying Li
Journal:  Clin Rev Allergy Immunol       Date:  2021-07-20       Impact factor: 8.667
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