Disease-associated CIAS1 Mutations Induce Monocyte Death, Revealing Low-level Mosaicism in Mutation-negative Cryopyrin-associated Periodic Syndrome Patients

Overview

Journal Blood

Publisher Elsevier

Specialty Hematology

Date 2007 Dec 8

PMID 18063752

Citations 65

Authors

Megumu Saito

Ryuta Nishikomori

Naotomo Kambe

Akihiro Fujisawa

Hideaki Tanizaki

Kyoko Takeichi

Tomoyuki Imagawa

Tomoko Iehara

Hidetoshi Takada

Tadashi Matsubayashi

Hiroshi Tanaka

Hisashi Kawashima

Kiyoshi Kawakami

Shinji Kagami

Ikuo Okafuji

Takakazu Yoshioka

Souichi Adachi

Toshio Heike

Yoshiki Miyachi

Tatsutoshi Nakahata

Affiliations

Soon will be listed here.

Abstract

Cryopyrin-associated periodic syndrome (CAPS) is a spectrum of systemic autoinflammatory disorders in which the majority of patients have mutations in the cold-induced autoinflammatory syndrome (CIAS)1 gene. Despite having indistinguishable clinical features, some patients lack CIAS1 mutations by conventional nucleotide sequencing. We recently reported a CAPS patient with mosaicism of mutant CIAS1, and raised the possibility that CIAS1 mutations were overlooked in "mutation-negative" patients, due to a low frequency of mosaicism. To determine whether there were latent mutant cells in "mutation-negative" patients, we sought to identify mutation-associated biologic phenotypes of patients' monocytes. We found that lipopolysaccharide selectively induced necrosis-like cell death in monocytes bearing CIAS1 mutations. Monocyte death correlated with CIAS1 up-regulation, was dependent on cathepsin B, and was independent of caspase-1. Cell death was intrinsic to CIAS1-mutated monocytes, was not mediated by the inflammatory milieu, and was independent of disease severity or anti-IL-1 therapy. By collecting dying monocytes after lipopolysaccharide treatment, we succeeded in enriching CIAS1-mutant monocytes and identifying low-level CIAS1-mosaicism in 3 of 4 "mutation-negative" CAPS patients. Our findings reveal a novel effect of CIAS1 mutations in promoting necrosis-like cell death, and demonstrate that CIAS1 mosaicism plays an important role in mutation-negative CAPS patients.

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