mTOR-dependent synthesis of Bcl-3 controls the retraction of fibrin clots by activated human platelets

Abstract: New activities of human platelets continue to emerge. One unexpected response is new synthesis of proteins from previously transcribed RNAs in response to activating signals. We previously reported that activated human platelets synthesize B-cell lymphoma-3 (Bcl-3) under translational control by mammalian target of rapamycin (mTOR). Characterization of the ontogeny and distribution of the mTOR signaling pathway in CD34 ؉ stem cell-derived megakaryocytes now demonstrates that they transfer this regulatory syste… Show more

“…However, plasma PAF-AH mRNA levels were markedly increased ( Figure 1B) in differentiated cells (ie, culture day 13; referred to as megakaryocytes) that no longer expressed CD34 (data not shown) but did express ␣ IIb integrins ( Figure 1A far right panel) and displayed other megakaryocyte-like features as previously described. [25][26][27] Protein for plasma PAF-AH protein was absent in CD34 ϩ cells and megakaryocyte precursors but was expressed by megakaryocytes ( Figure 1C). Specificity for the PAF-AH antibody was demonstrated by the marked reduction in megakaryocyte staining when the peptide immunogen was present ( Figure 1C far right panel).…”

“…[25][26][27] Undifferentiated CD34 ϩ cells did not possess the platelet-specific biomarker integrin ␣ IIb ( Figure 1A left panel) and expressed very low levels of mRNA for plasma PAF-AH ( Figure 1B and data not shown). mRNA for plasma PAF-AH increased slightly but remained low at culture day 7 ( Figure 1B) and a subset of the cells (referred to as megakaryocyte precursors) began to express ␣ IIb integrins ( Figure 1A middle panel).…”

“…After the fixation step, the cells were washed, permeabilized, and immunostained as previously described. [25][26][27][28][29][30] The cells were viewed by confocal microscopy using a 60ϫ/1.42 NA oil objective on an FV300 Olympus IX81 microscope (Melville, NY), with PMT values adjusted to no signal with IgG controls. The following antibodies, peptides, and recombinant proteins were used for these studies: anti-integrin ␣ IIb (sc-15328), anti-plasma PAF-AH (sc-16952), and corresponding blocking peptide from Santa Cruz Biotechnology (Santa Cruz, CA); anti-␤-tubulin (T5293) from Sigma-Aldrich (St Louis, MO); anti-PAF-AH1b2 (ab15875) from Abcam (Cambridge, MA); recombinant human PAF-AH1b2 (G22423F) from Genway (San Diego, CA); and goat anti-mouse Alexa Fluor 488 and anti-rabbit Alexa Fluor 546 from Invitrogen.…”

“…Cells at culture day 7 are referred to as megakaryocyte precursors. Cells at culture day 13, which lacked CD34 but expressed ␣ IIb integrins and other critical platelet biomarkers, [25][26][27] are referred to as megakaryocytes.…”

PAF-acetylhydrolase expressed during megakaryocyte differentiation inactivates PAF-like lipids

“…However, plasma PAF-AH mRNA levels were markedly increased ( Figure 1B) in differentiated cells (ie, culture day 13; referred to as megakaryocytes) that no longer expressed CD34 (data not shown) but did express ␣ IIb integrins ( Figure 1A far right panel) and displayed other megakaryocyte-like features as previously described. [25][26][27] Protein for plasma PAF-AH protein was absent in CD34 ϩ cells and megakaryocyte precursors but was expressed by megakaryocytes ( Figure 1C). Specificity for the PAF-AH antibody was demonstrated by the marked reduction in megakaryocyte staining when the peptide immunogen was present ( Figure 1C far right panel).…”

“…[25][26][27] Undifferentiated CD34 ϩ cells did not possess the platelet-specific biomarker integrin ␣ IIb ( Figure 1A left panel) and expressed very low levels of mRNA for plasma PAF-AH ( Figure 1B and data not shown). mRNA for plasma PAF-AH increased slightly but remained low at culture day 7 ( Figure 1B) and a subset of the cells (referred to as megakaryocyte precursors) began to express ␣ IIb integrins ( Figure 1A middle panel).…”

“…After the fixation step, the cells were washed, permeabilized, and immunostained as previously described. [25][26][27][28][29][30] The cells were viewed by confocal microscopy using a 60ϫ/1.42 NA oil objective on an FV300 Olympus IX81 microscope (Melville, NY), with PMT values adjusted to no signal with IgG controls. The following antibodies, peptides, and recombinant proteins were used for these studies: anti-integrin ␣ IIb (sc-15328), anti-plasma PAF-AH (sc-16952), and corresponding blocking peptide from Santa Cruz Biotechnology (Santa Cruz, CA); anti-␤-tubulin (T5293) from Sigma-Aldrich (St Louis, MO); anti-PAF-AH1b2 (ab15875) from Abcam (Cambridge, MA); recombinant human PAF-AH1b2 (G22423F) from Genway (San Diego, CA); and goat anti-mouse Alexa Fluor 488 and anti-rabbit Alexa Fluor 546 from Invitrogen.…”

“…Cells at culture day 7 are referred to as megakaryocyte precursors. Cells at culture day 13, which lacked CD34 but expressed ␣ IIb integrins and other critical platelet biomarkers, [25][26][27] are referred to as megakaryocytes.…”

PAF-acetylhydrolase expressed during megakaryocyte differentiation inactivates PAF-like lipids

“…29,30 mTOR signaling pathway also have roles during inflammatory responses. In leukocytes, vascular cells and platelets, mTOR activation by inflammatory or adhesion signals translationally and/or transcriptionally regulates the rapid synthesis of key gene products [31][32][33][34][35][36] and may have implications to atherosclerosis and other inflammatory diseases. 35 mTOR pathway has also been implicated in inflammation-induced angiogenesis through the observations that IKKβ, activated by TNFα, could inhibit TSC1.…”

Leptin and mTOR: Partners in metabolism and inflammation

Serial Analysis of Gene Expression (SAGE) for Studying the Platelet and Megakaryocyte Transcriptome