News
Home  >  News > Researchers identify a key molecule in psoriasis development

Researchers identify a key molecule in psoriasis development

From left to right, the researchers Marc López, Francisco Ciruela, Josep Maria de Anta and Concepció Soler.

From left to right, the researchers Marc López, Francisco Ciruela, Josep Maria de Anta and Concepció Soler.

The study, published in the <i>Journal of Investigative Dermatology</i>,  shows that there is a strong increase of the <i>TREX2</i> gene expression in the skin of psoriasis patients.

The study, published in the Journal of Investigative Dermatology, shows that there is a strong increase of the TREX2 gene expression in the skin of psoriasis patients.

04/10/2016

Recerca

A study published in Journal of Investigative Dermatology has identified a potential therapeutic target for the treatment of psoriasis, a chronic inflammatory disease of the skin that affects up to a 2% of the population and which has still no cure. The study shows that the TREX2 gene has a relevant role in the inflammatory response that develops during the illness. The research, led by researchers from the Department of Pathology and Experimental Therapeutics of the Faculty of Medicine and Health Sciences of the University of Barcelona and the Bellvitge Biomedical Research Institute (IDIBELL), contributes to increase the knowledge about this complex and multi-factor inflammatory disease and opens doors to the development of new therapeutic strategies.

  

The study also counts with the participation of experts from the Scientific and Technologic Centers of the UB (CCiTUB), the Institute of Predictive and Personalized Medicine of Cancer (IMPPC), Hospital del Mar, and the Wake Forest University (North Carolina, USA).

 

The TREX2 gene codifies exonuclease that was related to the maintenance of genomic stability, and certain repairmen mechanisms such as DNA degradation. On previous studies, the research group saw that this protein made a presence specifically on the skin. Moreover, the study of deficient mice phenotype for this protein shows that the loss of TREX2 creates a higher susceptibility to UV-induced skin carcinogenesis.

 

To go further in the TREX2 role in homeostasis and skin pathogenesis, the researchers wanted to see the role of this nuclease on psoriasis. At the beginning, they analyzed different biopsies of patients and people without the disease. Later, using different mice models of psoriasis, they compared the evolution of the disease on normal and deficient mice by Trex2 to infer the function of this molecule. “The results show that TREX2 would have a relevant role in the DNA degradation on psoriasis epidermis, provoking the characteristic inflammatory response of this disease”, says Concepció Soler, responsible of the study and professor at the Department of Pathology and Experimental Therapeutics of the University of Barcelona.

 

The study shows that skin with psoriasis has a high increase of the TREX2 expression that focuses on the cell nucleus of keratinocyte –the most abundant cells on the skin- which are spreading, dying and differentiating in a strange way. Therefore, the results suggest an important role of the processing DNA gene. “In our study, we highlight the essential role of TREX2 promoting DNA degradation and its consequent cell death of keratinocyte, influencing the skin immune response. The release of several signals by skin cells that are dying contributes to the creation and spreading of the chronic immune response and hyper-proliferation and irregular differentiation of epidermis”, says Joan Manils, first author of the study and member of the mentioned department and post-doctorate researcher at the Trinity Biomedical Sciences Institute (Ireland).

 

The results show TREX2 as a potential therapeutic target to tackle this disease with a different and more focused strategy. “Most of the current treatments are aimed at blocking the action of the immune system and if they have good results, these treatments are chronic and involve the immune response of the sick person”, says Francisco Ciruela, co-author of the study, Professor at the Department of Pathology and Experimental Therapeutics of the UB and Head of the Research Group on Neuropharmacology and Pain at IDIBELL.

 

The next objective of the researchers is to decode the action mechanism of TREX2 in the development and maintenance of psoriasis, so as to design new therapeutic strategies for the treatment of this disease.

Share this at:
| More |
  • Follow us:
  • Button to access University of Barcelona's Facebook profile
  • Button to access University of Barcelona's Twitter profile
  • Button to access University of Barcelona's Instagram profile
  • Button to access University of Barcelona's Linkedin profile
  • Button to access University of Barcelona's Youtube profile
  • Button to access University of Barcelona's Google+ profile
  • ??? peu.flickr.alt ???
Member of International recognition of excellence HR Excellence in Research logo del leru - League of European Research Universities logo del bkc - campus excel·lència logo del health universitat de barcelona campus

© Universitat de Barcelona