Author:
Vargas-Hernandez Alexander,Mace Emily M.,Zimmerman Ofer,Zerbe Christa S.,Freeman Alexandra F.,Rosenzweig Sergio,Leiding Jennifer W.,Torgerson Troy,Altman Matthew C.,Schussler Edith,Cunningham-Rundles Charlotte,Chinn Ivan K.,Hanson Imelda C.,Rider Nicholas L.,Holland Steven M.,Orange Jordan S.,Forbes Lisa R.
Abstract
AbstractBackgroundNatural Killer (NK) cells are critical innate effector cells whose development is dependent on the JAK-STAT pathway. NK deficiency can result in severe or refractory viral infections. Patients with Signal Transducer and Activator of Transcription (STAT)1 gain of function (GOF) mutations have increased viral susceptibility.ObjectiveWe sought to investigate NK cell function in STAT1 GOF patients. Methods: NK cell phenotype and function were determined in 16 STAT1 GOF patients.MethodsNK cell phenotype and function were determined in 16 STAT1 GOF patients.NK cell lines expressing patient mutations were generated with CRISPR-Cas9 mediated gene editing. STAT1 GOF NK cells were treated in vitro with ruxolitinib.ResultsPeripheral blood NK cells from of STAT1 GOF patients had impaired terminal maturation. Specifically, patients withSTAT1 GOFmutations have immature CD56dimNK cells with decreased expression of CD16, perforin, CD57 and impaired cytolytic function. STAT1 phosphorylation was elevated but STAT5 was aberrantly phosphorylated in response to IL-2 stimulation. Upstream inhibition of STAT signaling with the small molecule JAK1/2 inhibitor ruxolitinibin vitroandin vivorestored perforin expression in CD56dimNK cells and partially restored NK cell cytotoxic function.ConclusionsProperly regulated STAT1 signaling is critical for NK cell maturation and function. Modulation of elevated STAT1 phosphorylation with ruxolitinib is an important option for therapeutic intervention in patients withSTAT1 GOFmutations.
Publisher
Cold Spring Harbor Laboratory
Cited by
3 articles.
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