Literature DB >> 17850509

Neurogenic dysregulation, oxidative stress, autoimmunity, and melanocytorrhagy in vitiligo: can they be interconnected?

M R Namazi1.   

Abstract

Several hypotheses have been proposed to explain vitiligo, including the neural theory, impaired redux status, autoimmunity, and more recently melanocytorrhagy arising from defective cell-cell adhesion. It is most likely that the loss of melanocytes in vitiligo arises through a combination of pathogenic mechanisms that act in concert. Here, we discuss the potential interconnection of several mechanisms that are likely to operate. These include the alteration of melanocyte-specific factors by reactive oxygen species to produce neo-antigens and the role of hypoxia and oxidative stress in antigen presentation and the auto-immune destruction of melanocytes.

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Year:  2007        PMID: 17850509     DOI: 10.1111/j.1600-0749.2007.00408.x

Source DB:  PubMed          Journal:  Pigment Cell Res        ISSN: 0893-5785


  24 in total

1.  Comparison Between (311-312 nm) Narrow Band Ultraviolet-B Phototherapy and (308 nm) Monochromatic Excimer Light Phototherapy in Treatment of Vitiligo: A Histopathological Study.

Authors:  Manal Mohamed Salah Eldin; Nevein Ahmed Sami; Dalia Gamal Aly; Noha Sami Hanafy
Journal:  J Lasers Med Sci       Date:  2017-06-27

2.  HSP70i is a critical component of the immune response leading to vitiligo.

Authors:  Jeffrey A Mosenson; Andrew Zloza; Jared Klarquist; Allison J Barfuss; Jose A Guevara-Patino; I Caroline Le Poole
Journal:  Pigment Cell Melanoma Res       Date:  2011-11-14       Impact factor: 4.693

3.  Erythrocyte malondialdehyde and glutathione levels in vitiligo patients.

Authors:  Jung Won Shin; Kyung Mi Nam; Hye Ryung Choi; Sun Young Huh; Shin Woo Kim; Sang Woong Youn; Chang Hun Huh; Kyoung Chan Park
Journal:  Ann Dermatol       Date:  2010-08-05       Impact factor: 1.444

4.  Catecholamines' accumulation and their disturbed metabolism at perilesional site: a possible cause of vitiligo progression.

Authors:  Sushma Tanwar; Vishal Thakur; Alka Bhatia; Davinder Parsad
Journal:  Arch Dermatol Res       Date:  2022-02-28       Impact factor: 3.017

5.  Anatomically distinct fibroblast subsets determine skin autoimmune patterns.

Authors:  Zijian Xu; Daoming Chen; Yucheng Hu; Kaiju Jiang; Huanwei Huang; Yingxue Du; Wenbo Wu; Jiawen Wang; Jianhua Sui; Wenhui Wang; Long Zhang; Shuli Li; Chunying Li; Yong Yang; Jianmin Chang; Ting Chen
Journal:  Nature       Date:  2021-12-15       Impact factor: 49.962

6.  HSP70i accelerates depigmentation in a mouse model of autoimmune vitiligo.

Authors:  Cecele J Denman; James McCracken; Vidhya Hariharan; Jared Klarquist; Kepa Oyarbide-Valencia; José A Guevara-Patiño; I Caroline Le Poole
Journal:  J Invest Dermatol       Date:  2008-03-13       Impact factor: 8.551

7.  Functional polymorphisms in CYP2C19 & CYP3A5 genes associated with decreased susceptibility for paediatric tuberculosis.

Authors:  Wei-Xing Feng; Fang Liu; Yi Gu; Wei-Wei Jiao; Lin Sun; Jing Xiao; Xi-Rong Wu; Qing Miao; Chen Shen; Dan Shen; Adong Shen
Journal:  Indian J Med Res       Date:  2012-05       Impact factor: 2.375

Review 8.  Myron Gordon Award paper: Microbes, T-cell diversity and pigmentation.

Authors:  I Caroline Le Poole
Journal:  Pigment Cell Melanoma Res       Date:  2021-01-27       Impact factor: 4.159

9.  Cytochrome-P450 enzymes and autoimmunity: expansion of the relationship and introduction of free radicals as the link.

Authors:  M R Namazi
Journal:  J Autoimmune Dis       Date:  2009-06-25

10.  Role of keratinocytes in the development of vitiligo.

Authors:  Ai-Young Lee
Journal:  Ann Dermatol       Date:  2012-04-26       Impact factor: 1.444
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