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Hoffmann, R. A wiki for the life sciences where authorship matters. Nature Genetics (2008)
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Pertussis toxin did not block the PF4-derived IL-8 production in NK cells, but this response was sensitive to wortmannin, implicating a role of phosphatidylinositol 3-kinase in the intracellular signaling pathway triggered by PF4[1].
Plasma levels of PF4, beta TG, TAT, FPA and D-dimer, but not PIC, in patients with Takayasu's arteritis were substantially higher than those in normal control subjects [2].
RESULTS: BTG was detected in 11 of the patients with systemic sclerosis (29.7%) and PF4 was found in eight (21.6%) [3].
In the whole group of the 53 patients there was no significant alteration in platelet-specific proteins during exercise, whereas physical activity induced a 2- to 3-fold increase in beta-TG and PF4 levels in the controls [6].
Human platelet factor 4 (PF4) is known to bind to heparin and inhibit its anticoagulant effect [7].
Here, we describe a distinct, previously unrecognized receptor named CXCR3-B, derived from an alternative splicing of the CXCR3 gene that mediates the angiostatic activity of CXCR3 ligands and also acts as functional receptor for CXCL4[8].
By contrast, only minimal if any effects were obtained with PBP, CTAP-III, and PF-4 up to 100 nM [9].
Purified PF 4 also inhibited the basal incorporation of [3H]thymidine into 3T3 fibroblasts and the increased [3H]thymidine incorporation occurring after wounding of a cell monolayer [10].
These results indicate that an important role of PF 4 released at sites of vascular injury and platelet activation is to control cellular proliferation caused by the release of bFGF from ruptured cells [10].
The mean values of the plasma BTG, PF4, and 5-HT concentrations in the migraine group and the MCH group were significantly higher than those in healthy controls [12].
In two out of nine subjects with status asthmaticus, beta-TG or PF4 was elevated, and statistically significant correlations occurred between the initial level of PAF and that of beta-TG or PF4[15].
We first corroborated our initial studies by showing that recombinant human (rH) PF4, like the native protein, inhibited megakaryocytopoiesis[16].
Thus, these studies demonstrate that the novel TME binding transcription factors, USF1 and 2, transactivate rat and human PF4 promoters and may play an important role in megakaryocytic gene expression[17].
We conclude that PF4 has the capacity to influence hematopoiesis through mechanisms not mediated by a classical high-affinity, 7-transmembrane domain chemokine receptor [18].
The activated partial thromboplastin time (APTT; baseline, 28 seconds) increased maximally by 27 +/- 6 seconds in PF4-treated animals and by 9 +/- 1 seconds in control animals at 30 minutes (P <.001) [19].
Interestingly, the E-box motif in the TME was conserved in TME-like sequences of both the human and mouse PF4 promoters [17].
We introduced the ELR sequence at the N terminus of PF4 and found that the modified protein was a potent neutrophil activator and attractant [20].
Thus, physiologically relevant concentrations of PF4 stimulate thrombin-dependent APC generation both in vitro by cultured endothelial cells and in vivo in a primate thrombin infusion model [19].
Pretreatment of CD34+ cells by PF4, but not by TGFbeta1, caused an increase in the number of megakaryocyte colonies after these cells were replated in secondary cultures [21].
The effects of platelet factor 4 (PF4) on the viability and chemosensitivity of normal hematopoietic cells and cancer cell lines were studied to determine the mechanisms whereby PF4 functions as either an inhibitor or a protector and to evaluate its clinical significance [21].
Instead, PF4 may modulate the hematopoietic milieu both directly, by promoting progenitor adhesion and quiescence through interaction with an HPC chondroitin sulfate-containing moiety, and indirectly, by binding to or interfering with signaling caused by other, hematopoietically active chemokines, such as IL-8[18].
Since PF4 mutants lacking a heparin binding ability retain their anti-angiogenic activity, alternative inhibitory mechanisms were also examined [22].
Functionally, DC developed in the presence of PF4 had their secretion of tumor necrosis factor-alpha and IL-12 reduced by 75 +/- 10 and 79 +/- 13% respectively when they were stimulated by 100 ng/ml lipopolysaccharide and 50 ng/ml IFN-gamma[23].
BTG and PF4 release from blood anticoagulated with sodium citrate was inhibited by AD6 during a 3 h incubation [24].
Competition experiments showed that serglycin was as efficient as heparinsulfate in blocking the binding of [3H] chondrotin sulfate to PF4, whereas heparin was one order of magnitude more efficient [25].
Thus, the beta TG/PF4 genes appear to form a close-linked complex expressed in a megakaryocyte-specific fashion [26].
Immunophenotypically, monocyte-derived DC in the presence of increasing concentrations of PF4 proportionally expressed higher CD86 and lower HLA-DR [23].
The signaling transduction induced by PF4 in the HEL was compared with that induced by transforming growth factor beta1 (TGF-beta1), which is also a potent inhibitor of HEL growth [5].
Taken together, PF4-stimulated immediate monocytefunctions (oxygen radical formation) are regulated by p38 MAPK, Syk, and PI3K, whereas delayed functions (survival and cytokine expression) are controlled by Erk and JNK [29].
Platelet factor 4 (PF4) is structurally related to IL-8 (35% sequence identity) but lacks the N-terminal ELR sequence and comparable effects on neutrophils[20].
We have previously shown that platelet factor 4 (PF4), a platelet-specific CXC chemokine, can directly and specifically inhibit human megakaryocyte colony formation [16].
Both of these latter two genes have been previously reported to be duplicated, there being a PF4 and a PF4alt gene, and a beta TG1 and beta TG2 gene [26].
Flow cytometry analysis showed that when CD34+ cells were preincubated with PF4 or TGFbeta1 for 12 days in hematopoietic growth factor-rich medium, an increased number of remaining CD34+ cells was observed only for PF4-treated cells [21].
Prestorage filtration of Spectra LRS PCs did not further reduce the levels of IL-6, IL-8, MCP-1, PF4, beta-TG, and TGF-beta1 in the filtered component [32].
The intravenous administration of various cytotoxic drugs used in cancer chemotherapy produced no immediate measurable changes in BTG and PF4 level [33].
The supernatant of thrombin-stimulated platelets contained an inhibitor of bFGF-induced mitogenesis; this activity coeluted with PF 4 upon gel filtration, heparin-agarose, and ion-exchange chromatography [10].
