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Query: UMLS:C0027947 (
neutropenia
)
17,527
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Chediak-Higashi syndrome (CHS) is a rare autosomal recessive disorder characterized by variable degrees of oculocutaneous albinism, easy bruisability, and bleeding as a result of deficient platelet dense bodies, and recurrent infections, with
neutropenia
, impaired chemotaxis and bactericidal activity, and abnormal NK cell function. Neurologic involvement is variable, but often includes peripheral neuropathy. Most patients also undergo an "accelerated phase," which is a nonmalignant lymphohistiocytic infiltration of multiple organs resembling lymphoma. Death often occurs in the first decade from infection, bleeding, or development of the accelerated phase. The hallmark of CHS is the presence of huge cytoplasmic granules in circulating granulocytes and many other cell types. These granules are peroxidase-positive and contain lysosomal enzymes, suggesting that they are giant lysosomes or, in the case of melanocytes, giant melanosomes. The underlying defect in CHS remains elusive, but the disorder can be considered a model for defects in vesicle formation, fusion, or trafficking. Because the beige mouse demonstrates many characteristics similar to those of human CHS patients, including dilution of coat color, recurrent infections, and the presence of giant granules, it is considered the animal homologue of CHS. The beige gene, Lyst, was mapped and sequenced in 1996, prompting identification of the human
LYST
gene on chromosome 1q42. Lyst and
LYST
show 86.5% sequence homology.
LYST
encodes a 429 kDa protein with a function that remains unknown, but the source of extensive speculation among students of cell biology.
...
PMID:Clinical, molecular, and cell biological aspects of Chediak-Higashi syndrome. 1052 80
Congenital neutropenia comprises a variety of genetically heterogeneous phenotypic traits. Molecular elucidation of the underlying genetic defects has yielded important insights into the physiology of neutrophil differentiation and function. Non-syndromic variants of congenital
neutropenia
are caused by mutations in ELA2, HAX1, GFI1, or WAS. Syndromic variants of congenital
neutropenia
may be due to mutations in genes controlling glucose metabolism (SLC37A4, G6PC3) or lysosomal function (
LYST
, RAB27A, ROBLD3/p14, AP3B1, VPS13B). Furthermore, defects in genes encoding ribosomal proteins (SBDS, RMRP) and mitochondrial proteins (AK2, TAZ) are associated with congenital
neutropenia
syndromes. Despite remarkable progress in the field, many patients with congenital
neutropenia
cannot yet definitively be classified by genetic terms. This review addresses diagnostic and therapeutic aspects of congenital
neutropenia
and covers recent molecular and pathophysiological insights of selected congenital
neutropenia
syndromes.
...
PMID:Congenital neutropenia. 2000 20
Chediak-Higashi syndrome (CHS) is a lethal disease caused by mutations that inactivate the
lysosomal trafficking regulator
protein (LYST). Patients suffer from diverse symptoms including oculocutaneous albinism, recurrent infections,
neutropenia
and progressive neurodegeneration. These defects have been traced back to over-sized lysosomes and lysosome-related organelles (LROs) in different cell types. Here, we explore mutants in the Drosophila mauve gene as a new model system for CHS. The mauve gene (CG42863) encodes a large BEACH domain protein of 3535 amino acids similar to LYST. This reflects a functional homology between these proteins as mauve mutants also display enlarged LROs, such as pigment granules. This Drosophila model also replicates the enhanced susceptibility to infections and we show a defect in the cellular immune response. Early stages of phagocytosis proceed normally in mauve mutant hemocytes but, unlike in wild type, late phagosomes fuse and generate large vacuoles containing many bacteria. Autophagy is similarly affected in mauve fat bodies as starvation-induced autophagosomes grow beyond their normal size. Together these data suggest a model in which Mauve functions to restrict homotypic fusion of different pre-lysosomal organelles and LROs.
...
PMID:Drosophila mauve mutants reveal a role of LYST homologs late in the maturation of phagosomes and autophagosomes. 2293 26
