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DNA polymerase-α regulates the activation of type I interferons through cytosolic RNA:DNA synthesis.

Nature immunology (2016-03-29)
Petro Starokadomskyy, Terry Gemelli, Jonathan J Rios, Chao Xing, Richard C Wang, Haiying Li, Vladislav Pokatayev, Igor Dozmorov, Shaheen Khan, Naoteru Miyata, Guadalupe Fraile, Prithvi Raj, Zhe Xu, Zigang Xu, Lin Ma, Zhimiao Lin, Huijun Wang, Yong Yang, Dan Ben-Amitai, Naama Orenstein, Huda Mussaffi, Eulalia Baselga, Gianluca Tadini, Eyal Grunebaum, Adrijan Sarajlija, Konrad Krzewski, Edward K Wakeland, Nan Yan, Maria Teresa de la Morena, Andrew R Zinn, Ezra Burstein
RESUMEN

Aberrant nucleic acids generated during viral replication are the main trigger for antiviral immunity, and mutations that disrupt nucleic acid metabolism can lead to autoinflammatory disorders. Here we investigated the etiology of X-linked reticulate pigmentary disorder (XLPDR), a primary immunodeficiency with autoinflammatory features. We discovered that XLPDR is caused by an intronic mutation that disrupts the expression of POLA1, which encodes the catalytic subunit of DNA polymerase-α. Unexpectedly, POLA1 deficiency resulted in increased production of type I interferons. This enzyme is necessary for the synthesis of RNA:DNA primers during DNA replication and, strikingly, we found that POLA1 is also required for the synthesis of cytosolic RNA:DNA, which directly modulates interferon activation. Together this work identifies POLA1 as a critical regulator of the type I interferon response.

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Anti-β-actina monoclonal antibody produced in mouse, clone AC-15, ascites fluid
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Anticuerpo anti-ADN, bicatenario, clon AE-2, clone AE-2, Chemicon®, from mouse
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Anti-POLA1 antibody produced in rabbit, Prestige Antibodies® Powered by Atlas Antibodies, affinity isolated antibody, buffered aqueous glycerol solution