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Query: UMLS:C0027947 (
neutropenia
)
17,527
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Previously, nonsense mutations in the gene encoding the
granulocyte colony-stimulating factor receptor
(
G-CSF-R
) have been described in three patients with severe congenital neutropenia (SCN) (Proc Natl Acad Sci USA 1994; 91: 4480; New Engl J Med 1995; 333: 487). The mutations resulted in the truncation of the carboxy-terminal region of
G-CSF-R
essential for transduction of maturation signals. Two of these patients developed acute myeloblastic leukemia (AML). We present the results of a search among 20 additional cases of congenital
neutropenia
(CN) and SCN for the presence of mutations in the cytoplasmic domain of
G-CSF-R
. This series includes patients with familial and nonfamilial forms of CN and SCN. Mutations in the
G-CSF-R
gene were found in two new SCN cases. These mutations were nonsense mutations, located in the same cytoplasmic region of
G-CSF-R
as those found earlier, resulting in the truncation of the C-terminus. Both of these patients developed AML. None of the other patients showed clinical symptoms or cytogenetic features indicative of AML or progression to leukemia. The analysis in this extended series of patients thus has revealed five SCN cases with
G-CSF-R
mutations, four of whom developed AML. These results add support to the notion that mutations in the
G-CSF-R
gene, affecting the maturation signaling function of the receptor, define a distinct subgroup of SCN with increased susceptibilty to AML.
...
PMID:Mutations in the granulocyte colony-stimulating factor receptor gene in patients with severe congenital neutropenia. 900 27
Multiple hematopoietic cytokines can stimulate granulopoiesis; however, their relative importance in vivo and mechanisms of action remain unclear. We recently reported that
granulocyte colony-stimulating factor receptor
(G-CSFR)-deficient mice have a severe quantitative defect in granulopoiesis despite which phenotypically normal neutrophils were still detected. These results confirmed a role for the G-CSFR as a major regulator of granulopoiesis in vivo, but also indicated that G-CSFR independent mechanisms of granulopoiesis must exist. To explore the role of interleukin-6 (IL-6) in granulopoiesis, we generated IL-6 x G-CSFR doubly deficient mice. The additional loss of IL-6 significantly worsened the
neutropenia
present in young adult G-CSFR-deficient mice; moreover, exogenous IL-6 stimulated granulopoiesis in vivo in the absence of G-CSFR signals. Near normal numbers of myeloid progenitors were detected in the bone marrow of IL-6 x G-CSFR-deficient mice and their ability to terminally differentiate into mature neutrophils was observed. These results indicate that IL-6 is an independent regulator of granulopoiesis in vivo and show that neither G-CSFR or IL-6 signals are required for the commitment of multipotential progenitors to the myeloid lineage or for their terminal differentiation.
...
PMID:Interleukin-6 and the granulocyte colony-stimulating factor receptor are major independent regulators of granulopoiesis in vivo but are not required for lineage commitment or terminal differentiation. 932 24
The
granulocyte colony-stimulating factor receptor
(G-CSFR) critically regulates granulopoiesis. Defects in G-CSFR expression due to targeted disruption of the G-CSFR gene or the genes for the transcription factors C/EBPalpha and PU.1 result in decreases in hematopoietic progenitor cell numbers and
neutropenia
. Mutations in the G-CSFR gene disrupt its normal signaling functions and appear to contribute to leukemogenesis. Acquired mutations in the G-CSFR resulting in truncation of the distal cytoplasmic region that mediates maturation and growth arrest signaling have been reported in patients with severe congenital neutropenia (SCN) and acute myelogenous leukemia (AML). A role for G-CSFR mutations in the pathogenesis of other disorders is speculated. This review will summarize the current state of knowledge of the G-CSFR and its role in disorders of granulopoiesis.
...
PMID:The granulocyte colony-stimulating factor receptor and its role in disorders of granulopoiesis. 951 98
The
granulocyte colony-stimulating factor receptor
(
G-CSF-R
) activates multiple STAT proteins. Although the membrane-proximal cytoplasmic region of the
G-CSF-R
is necessary and sufficient for activation of STAT1 and STAT5, activation of STAT3 requires the membrane distal region that contains four tyrosines. Although one of these (Y704) has previously been shown to be involved in STAT3 activation from a truncated
G-CSF-R
derived from a patient with severe chronic
neutropenia
(SCN), this tyrosine is not required for STAT3 activation by the full-length
G-CSF-R
. To investigate possible alternative mechanisms of STAT3 activation, we generated a series of Ba/F3 cell transfectants expressing the wild-type
G-CSF-R
or mutant receptors that either completely lack tyrosines or retain just one of the four cytoplasmic tyrosines of the
G-CSF-R
. We show that, at saturating G-CSF concentrations, STAT3 activation from the full-length
G-CSF-R
is efficiently mediated by the C-terminal domain in a manner independent of receptor tyrosines. In contrast, at low G-CSF concentrations, Y704 and Y744 of the
G-CSF-R
play a major role in STAT3 activation. Both tyrosine-dependent and -independent mechanisms of STAT3 activation are sensitive to the Jak2 inhibitor AG-490, follow similar kinetics, and lead to transactivation of a STAT3 reporter construct, indicating functional equivalence. STAT3 activation is also impaired, particularly at nonsaturating G-CSF concentrations, in bone marrow cells from mice expressing a truncated
G-CSF-R
(gcsfr-triangle up715). These findings suggest that G-CSF-induced STAT3 activation during basal granulopoiesis (low G-CSF) and "emergency" granulopoiesis (high G-CSF) are differentially controlled. In addition, the data establish the importance of the
G-CSF-R
C-terminus in STAT3 activation in primary cells, which has implications for understanding why truncated
G-CSF-R
derived from SCN patients are defective in maturation signaling.
...
PMID:Tyrosine-dependent and -independent mechanisms of STAT3 activation by the human granulocyte colony-stimulating factor (G-CSF) receptor are differentially utilized depending on G-CSF concentration. 986 53
Point mutations in the
granulocyte colony-stimulating factor receptor
(G-CSFR) gene have been linked to the development of secondary leukemia in patients with congenital
neutropenia
(CN). This report presents data on a now 18-year-old patient with CN who has received G-CSF treatment since 1989 and who developed acute myeloid leukemia (AML) in 1998. To evaluate whether there is an association between the occurrence of point mutations of the G-CSFR gene and development of secondary AML, DNA/messenger RNA of neutrophils and mononuclear cells from this patient were analyzed at different time points by polymerase chain reaction and subsequent cloning by DNA sequencing of representative numbers of individual clones. Findings suggest an increasing instability of the G-CSFR gene in time as judged by increasing numbers of mutations proposed to be one important step in the development of AML in this patient.
...
PMID:Time course of increasing numbers of mutations in the granulocyte colony-stimulating factor receptor gene in a patient with congenital neutropenia who developed leukemia. 1123 34
CD34++ cells from 45 patients with myelodysplastic syndrome (MDS) and MDS-acute myeloid leukaemia (MDS-AML) were observed by flow cytometry for the expression of
granulocyte colony-stimulating factor receptor
(G-CSFR). Ten patients had a significantly reduced expression of G-CSFR. Late stages of disease showed a higher proportion of either high or low G-CSFR expression than earlier stages. In MDS refractory anaemia (RA), G-CSFR was inversely related to CD33 expression. Most patients (9/10) with low G-CSFR expression had
neutropenia
of the peripheral blood.
Neutropenia
was less common in the normal group, but also occurred in the high expression group. No neutrophil response was observed following G-CSF administration to MDS-AML patients (6/6) with low G-CSFR expression. In the high expression group, patients (3/3) showed a response to G-CSF while, in the normal group (1/2), the response was minor. In the normal- or high-receptor-expressing groups, the receptors were functionally active in terms of apoptosis but not proliferation and clonogenic growth, although no clear correlation to receptor expression was observed. The G-CSFR signal transduction pathway in the normal and high group was not deficient of messenger RNA for either janus kinases (Jaks) or signal transducers and activators of transcription (Stats). These findings suggest that the lowered expression of G-CSFR may cause
neutropenia
in MDS and MDS-AML patients and, therefore, may partially explain the
neutropenia
in myelodysplastic patients.
...
PMID:Expression and functional analysis of granulocyte colony-stimulating factor receptors on CD34++ cells in patients with myelodysplastic syndrome (MDS) and MDS-acute myeloid leukaemia. 1267 Mar 33
Severe congenital neutropenia (SCN) is a hematopoietic disorder characterized by
neutropenia
in peripheral blood and maturation arrest of neutrophil precursors in bone marrow. Patients with SCN may evolve to have myelodysplastic syndrome or acute myelocytic leukemia. In approximately 20% of SCN cases, a truncation mutation is found in the cytoplasmic region of the
granulocyte colony-stimulating factor receptor
(G-CSFR). We then generated mice carrying murine wild-type G-CSFR and its mutants equivalent to truncations at amino acids 718 and 731 in human G-CSFR, those were reported to be related to leukemic transformation of SCN. Although numbers of peripheral white blood cells, red blood cells, and platelets did not differ among mutant and wild-type G-CSFR transgenic (Tg) mice, both of the mutant receptor Tg mice had one third of peripheral neutrophil cell counts compared with wild-type receptor Tg mice. The mutant receptor Tg mice also showed impaired resistance to the infection with Staphylococcus aureus. Moreover, bone marrow of these Tg mice had an increased percentage of immature myeloid cells, a feature of SCN. This maturation arrest was also observed in in vitro cultures of bone marrow cells of truncated G-CSFR Tg mice under G-CSF stimulation. In addition, clonal culture of bone marrow cells of the truncated G-CSFR Tg mice showed the hypersensitivity to G-CSF in myeloid progenitors. Our Tg mice may be useful in the analysis of the role of truncated G-CSFR in SCN pathobiology.
...
PMID:Impaired neutrophil maturation in truncated murine G-CSF receptor-transgenic mice. 1267 95
Severe congenital neutropenia (SCN) is a rare hematological disease characterized by a selective decrease in the level of circulating neutrophils in peripheral blood, maturation arrest at the promyelocyte stage of differentiation in the bone marrow, recurrent severe infections, and evolution to acute myelogenous leukemia (AML). Cellular and molecular studies of 12 SCN patients, including 5 patients that evolved to develop AML, revealed impaired proliferative characteristics and accelerated apoptosis of bone marrow progenitor cells in SCN compared with 11 healthy controls as demonstrated by flow cytometry analysis. Sequencing analysis revealed heterozygous deletion or substitution mutations in the neutrophil elastase (NE) gene in 9 of 12 patients but not in healthy controls. Expression of various NE mutants, but not normal NE, resulted in accelerated apoptosis of human promyelocytic HL-60 progenitor cells, similar to impaired survival observed in patients' cells. Bone marrow-derived primitive CD34(+) and CD33(+)/CD34(-) progenitor cells from SCN patients evolving to AML, all with mutations in the
granulocyte colony-stimulating factor receptor
(G-CSFR) gene, demonstrated normal cell survival, whereas more differentiated CD15(+)/CD33(-)/CD34(-) cells negative for mutant G-CSFR gene, continue to exhibit accelerated apoptosis. These data demonstrate that impaired survival of bone marrow myeloid progenitor cells, probably driven by expression of mutant NE, is the cellular mechanism responsible for
neutropenia
in SCN. Furthermore, our results suggest that acquired G-CSFR mutations may initiate signaling events that override the pro-apoptotic effect of mutant NE in primitive progenitor cells, resulting in an expansion of the abnormal AML clone.
...
PMID:Cellular and molecular abnormalities in severe congenital neutropenia predisposing to leukemia. 2773 39
We studied surface expression of
granulocyte colony-stimulating factor receptor
(G-CSFR) on CD34++ progenitor cells of myelodysplastic patients. Late stages of disease showed a higher proportion of high or low G-CSFR expression than early stages. Most of the patients with the low expression had
neutropenia
.
Neutropenia
was relatively less present in the normal group, but it reappeared in the high group. All the neutropenic patients in the high group showed response to G-CSF, while response in the normal group was minor. These findings suggest that lowered expression of G-CSFR leads to
neutropenia
in myelodysplastic patients. This article reviewed the knowledge of the G-CSFR and its role in the disorders of granulopoiesis, including myelodysplastic syndrome (MDS).
...
PMID:Granulocyte colony-stimulating factor receptors on CD34++ cells in patients with myelodysplastic syndrome (MDS) and MDS-acute myeloid leukemia. 1537 Feb 43
Mutations in the
granulocyte colony-stimulating factor receptor
(
G-CSF-R
) gene leading to a truncated protein have been identified in a cohort of
neutropenia
patients highly predisposed to acute myeloid leukemia. Such mutations act in a dominant manner resulting in hyperproliferation but impaired differentiation in response to G-CSF. This is due, at least in part, to defective internalization and loss of binding sites for several negative regulators, leading to sustained receptor activation. However, those signaling pathways responsible for mediating the hyperproliferative function have remained unclear. In this study, analysis of an additional
G-CSF-R
mutant confirmed the importance of residues downstream of Box 2 as important contributors to the sustained proliferation. However, maximal proliferation correlated with the ability to robustly activate signal transducer and activator of transcription (STAT) 5 in a sustained manner, whereas co-expression of dominant-negative STAT5, but not dominant-negative STAT3, was able to inhibit G-CSF-stimulated proliferation from a truncated receptor. Furthermore, a Janus kinase (JAK) inhibitor also strongly reduced the proliferative response, whereas inhibitors of mitogen-activated protein kinase/extracellular signal-regulated kinase kinase (MEK) or phosphatidylinositol (PI) 3-kinase reduced proliferation to a lesser degree. These data suggest that sustained JAK2/STAT5 activation is a major contributor to the hyperproliferative function of truncated G-CSF receptors, with pathways involving MEK and PI 3-kinase playing a reduced role.
...
PMID:Multiple pathways contribute to the hyperproliferative responses from truncated granulocyte colony-stimulating factor receptors. 1706 93
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