Gray Platelet Syndrome: Natural History of a Large Patient Cohort and Locus Assignment to Chromosome 3p

Overview

Journal Blood

Publisher Elsevier

Specialty Hematology

Date 2010 Aug 17

PMID 20709904

Citations 32

Authors

Meral Gunay-Aygun

Yifat Zivony-Elboum

Fatma Gumruk

Dan Geiger

Mualla Cetin

Morad Khayat

Robert Kleta

Nehama Kfir

Yair Anikster

Judith Chezar

Mauricio Arcos-Burgos

Adel Shalata

Horia Stanescu

Joseph Manaster

Mutlu Arat

Hailey Edwards

Andrew S Freiberg

P Suzanne Hart

Lauren C Riney

Katherine Patzel

Pranoot Tanpaiboon

Tom Markello

Marjan Huizing

Irina Maric

McDonald Horne

Beate E Kehrel

Kerstin Jurk

Nancy F Hansen

Praveen F Cherukuri

Marypat Jones

Pedro Cruz

Jim C Mullikin

Alan Nurden

James G White

William A Gahl

Tzippora Falik-Zaccai

Affiliations

Soon will be listed here.

Abstract

Gray platelet syndrome (GPS) is an inherited bleeding disorder characterized by macrothrombocytopenia and absence of platelet α-granules resulting in typical gray platelets on peripheral smears. GPS is associated with a bleeding tendency, myelofibrosis, and splenomegaly. Reports on GPS are limited to case presentations. The causative gene and underlying pathophysiology are largely unknown. We present the results of molecular genetic analysis of 116 individuals including 25 GPS patients from 14 independent families as well as novel clinical data on the natural history of the disease. The mode of inheritance was autosomal recessive (AR) in 11 and indeterminate in 3 families. Using genome-wide linkage analysis, we mapped the AR-GPS gene to a 9.4-Mb interval on 3p21.1-3p22.1, containing 197 protein-coding genes. Sequencing of 1423 (69%) of the 2075 exons in the interval did not identify the GPS gene. Long-term follow-up data demonstrated the progressive nature of the thrombocytopenia and myelofibrosis of GPS resulting in fatal hemorrhages in some patients. We identified high serum vitamin B(12) as a consistent, novel finding in GPS. Chromosome 3p21.1-3p22.1 has not been previously linked to a platelet disorder; identification of the GPS gene will likely lead to the discovery of novel components of platelet organelle biogenesis. This study is registered at www.clinicaltrials.gov as NCT00069680 and NCT00369421.

Citing Articles

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