Abstract
Sulfated glycans such as fucoidan have been shown to induce rapid hematopoietic progenitor stem cell (HPCs) mobilization in mice and primates. Our previous clinical study has demonstrated up-regulation of CXCR4 on peripheral CD34+ cells in volunteers who had received oral doses of 75% pure fucoidan. The aim of this study was to investigate the in vitro effects of fucoidan on a cytokine mediated CD34+ cell expansion system and to characterize the fucoidan effects on CD34+ proliferation and differentiation using a factorial design experiment and flow cytometry. Isolex selected CD34+ cells harvested from multiple myeloma patients were used in the study. There is institutional approval for the in vitro growth of CD34+ cells from mobilized peripheral blood.
Fractional (25−1 resolution V, 16 runs, 2 blocks, E=ABCD) and full (24, 16 runs, 2 blocks) factorial design experiments were used to investigate the effects of depyrogenated fucoidan (DP-GFS) and cytokines on the growth of CD34+ cells. The cells were grown in 24 well dishes (1 ml/well) at an inoculum density of 20,000 cells/ml in serum free media and cultured for 10 days in a cytokine cocktail including G-CSF, FL, SCF, TPO and SDF1 each at two levels 100 ng/ml or 1000 ng/ml. DP-GFS was used in the cultures at four different levels including 0, 10, 100 and 500 μg/ml. Cells were then harvested and analyzed using three color flow cytometry and a panel of antibodies that includes CD15, CD14, CD41a, CD38, CD34, and CXCR4.
The in vitro effect of DP-GFS on CXCR4 expression was opposite to that found in vivo using 75% fucoidan. At 100 ng/ml and at saturating levels of FL, SCF, TPO and G-CSF (1000 ng/ml), DP-GFS at 10 μg/ml was observed to reduce the number of CD34+ cells produced per input CD34+ cell (1.09±0.07 versus 0.84±0.05, n=16, p=0.002) and have a negative effect on the percentage of CD34+ cells that express CXCR4 (87.2±1.8 versus 77.4±2.3, n=16, p=0.001). There was no significant effect of DP-GFS on the total cellular output nor other cell subsets examined (CD41a+CD14−, CD15+, CD14+). Our in vitro results are more consistent with a recent clinical study that demonstrates down-regulation of CXCR4 receptors on CD34+ cells in G-CSF or GM-CSF mobilized blood (Dlubek et al, 2006). We hypothesize that fucoidan acts in vitro and in vivo via different mechanisms.
Disclosures: Helen Fitton is employed by Marinova the manufacturer of the fucoidan as a Senior Research Scientist.; Marinova has provided research fund to conduct this research at University of New South Wales.
Author notes
Corresponding author
This feature is available to Subscribers Only
Sign In or Create an Account Close Modal