Abstract
Megakaryocytes (MKs) are exposed to shear flow as they migrate from the bone marrow hematopoietic compartment into circulation to release pro/preplatelets into circulating blood. Shear forces promote DNA synthesis, polyploidization, and maturation in MKs, and platelet biogenesis. To investigate mechanisms underlying these MK responses to shear, we carried out transcriptional analysis on immature and mature stem cell-derived MKs exposed to physiological shear. In immature (day (d)9) MKs, shear exposure up-regulated genes related to growth and MK maturation, whereas in mature (d12) MKs, it up-regulated genes involved in apoptosis and intracellular transport. Following shear-flow exposure, six activator protein 1 (AP-1) transcripts (ATF4,JUNB,JUN,FOSB,FOS, andJUND) were up-regulated at d9 and two AP-1 proteins (JunD and c-Fos) were up-regulated both at d9 and d12. We show that mitogen-activated protein kinase (MAPK) signaling is linked to both the shear stress response and AP-1 up-regulation. c-Jun N-terminal kinase (JNK) phosphorylation increased significantly following shear stimulation, whereas JNK inhibition reduced shear-induced JunD expression. Although p38 phosphorylation did not increase following shear flow, its inhibition reduced shear-induced JunD and c-Fos expression. JNK inhibition reduced fibrinogen binding and P-selectin expression of d12 platelet-like particles (PLPs), whereas p38 inhibition reduced fibrinogen binding of d12 PLPs. AP-1 expression correlated with increased MK DNA synthesis and polyploidization, which might explain the observed impact of shear on MKs. To summarize, we show that MK exposure to shear forces results in JNK activation, AP-1 up-regulation, and downstream transcriptional changes that promote maturation of immature MKs and platelet biogenesis in mature MKs.
Highlights
Health Grant R21HL106397, National Institutes of Health Shared Instrumentation Grant S10 RR0272773, and the National Science Foundation Fellowship IGERT SBE2 program at the University of Delaware
We show that mitogenactivated protein kinase (MAPK) signaling is linked to both the shear stress response and activator protein 1 (AP-1) up-regulation. c-Jun N-terminal kinase (JNK) phosphorylation increased significantly following shear stimulation, whereas JNK inhibition reduced shear-induced JunD expression
To determine whether there is a link between MAPK phosphorylation and AP-1 up-regulation in the MK shear stress response, we examined the impact of MAPK inhibitors on AP-1-protein expression in immature and mature MKs following exposure to shear flow
Summary
Health Grant R21HL106397, National Institutes of Health Shared Instrumentation Grant S10 RR0272773, and the National Science Foundation Fellowship IGERT SBE2 program at the University of Delaware Common categories of significantly upregulated genes in d9 Mks following 30 or 60 min of shear-flow exposure (2.5 dyn/cm2) include cell differentiation (A), cellular biosynthetic processes (B), Mk maturation (C), and AP-1 monomers (D), as determined by gene expression microarray analysis.
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