2602
THROMBOSPONDIN-1 INDUCES APOPTOSIS IN
MEGAKARYOCYTIC CELL LINES VIA CD36 AND CASPASE SIGNALING Yang M, Li K, Zhang XB, Su RJ, Yuen PMP,
Li CK, Chik KW, Shing MK, Fok TF Department of Paediatrics, The Prince of
Wales Hospital, The Chinese University of Hong Kong, Hong Kong Objective: Megakaryocytopoiesis
is positively regulated by thrombopoietin (TPO). It also seems to be
regulated negatively by a feedback control mechanism that operates to
maintain a constant level of platelets in peripheral circulation.
Thrombospondin-1 (TSP1) is a major megakaryocyte and platelet alpha-granule
glycoprotein. Our hypothesis is that TSP-1 may directly affect
megakaryocytopoiesis by a feedback control mechanism through its binding to
megakaryocytes via CD36 (TSP receptor), thus inducing a signal to cell
apoptosis. Our previous results have showed that TSP1 significantly
inhibited megakaryocyte growth in both murine and human CFU-MK assay. This
inhibitory effect of TSP1 was reversed by the addition of anti-CD36 antibody
(FA6-152) suggesting that the inhibition of TSP1 on megakaryocytopoiesis is
probably mediated by TSP/CD36 interaction. Methods: The expression of
CD36 on human platelets, megakaryocytes and the human megakaryoblastic cell
lines: Meg-01, Dami, CHRF-288-11 and M-07e was investigated by RT-PCR, flow
cytometry, ELISA and immunocytochemical staining. Results: The result showed
that CD36 expression increases with megakaryocyte differentiation and
maturation, suggesting that receptor for TSP1 may be upregulated during the
cell differentiation. TSP1 (2.5��g/ml)
significantly inhibited Meg-01 (45.1%), Dami (43.3%) and CHRF-288-11
(31.2%) but not M-07e cell growth when compared with controls. This
inhibitory effect was related to the levels of CD36 expression on the cells
and the anti-CD36 antibodies abolished such effect. Furthermore, the
apoptotic effect of TSP-1 was studied on megakaryocytic cell lines. Meg-01
and CHRF-288-11 cells were cultured for 2 days in IMDM with 2.5% FSC and
TSP-1 (0-7.5��g/ml). These cells were
analyzed by total count, trypan blue exclusion assay , microscopy for
apoptotic bodies, DNA ladder formation gel electrophoresis, annexin V and
active caspase-3expression using flow cytometry. Our results demonstrated
that apoptosis, as indicated by all the studied parameters ,was induced by
TSP-1 at a dose dependent manner. At 2.5-5��g/ml of TSP-1, we studied the effect of FA6-152
(10��g/ml) and TPO (50ng/ml) on
the cultured cells. While FA6-152 alone did not exert any influence on the
megakaryocytic cells, it significantly reversed the inhibition of TSP-1
(P<0.05) in all the apoptotic parameters. The apoptotic effects of TSP-1
was also abolished by the addition of TPO (p<0.05). Conclusion: Our results
demonstrated that TSP-1 induced apoptosis in megakaryocytic cell lines via
CD36 and caspase-3 signaling pathway.
This mechanism could be regulated by growth factors such as TPO.
These data provide supports to the possible existence of a negative
feedback control on megakaryocytopoiesis exerted by the platelet granule
protein TSP-1.