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Abstract
The 80–100 fold increased immunohistological expression of the Gap Junction (GJ) protein Connexin-43 in murine bone marrow during the neonatal period and directly following cytoreductive treatment of adult mice suggests that the regulation of stem cell proliferation may involve GJ Intercellular Communication (GJIC). Using a series of stromal cell lines from foetalliver and neonatal bone marrow we observed that the percentage of cells with GJIC, as indicated by dye-coupling using microinjection of lucifer yellow, correlated with the stromal support for late appearing clones formed by primitive stem cells (CAFC week 3–5). In order to functionally block all GJIC between mutual stromal cells and stromal cells and hemopoietic cells, in long-term stroma-supported flask (LTC) and CAFC cultures, the lipophilic compounds amphotericin-B (AB), nystatin, alpha-glycyrrhetinic acid, tetraphenylboron, dipicrylamine and arachidonic acid were tested for their effect on GJIC and CAFC support. Only AB and nystatin, which induced complete and prolonged GJIC blockade, were able to dramatically inhibit cobblestone area (CA) formation and CFU-C generation in LTC. This inhibition could be fully abrogated by withdrawing AB within the first 2 weeksof culture. Low AB concentrations stimulated CA formation.
The AB-mediated inhibition of hemopoiesis probably involved direct stromal contact with stem cells because a) AB did not inhibit CFU-C generation when stem cells were cultured in trans-well inserts above the stroma; b) conditioned media from AB-containing or normal LTC did not inhibit colony formation by normal cells in semi-solid, non-stromal cultures, and c) AB did not inhibit colony formation by bone marrow cells in semi-solid culture nordid it inhibit growth or maintenance of stromal cells. In addition, The inhibition of hemopoiesis by AB could also not be explained by changes in the amount of cytokine and chemokine transcripts, including TGF-b1, in AB-blocked stromal cells. Our findings support the involvement of GJIC in stroma-dependent regulation of hemopoietic stem cell proliferation.
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