Expansion of the nonadherent myeloid cell population by monoclonal antibodies against tenascin-C in murine long-term bone marrow cultures.

Tenascin-C, a predominantly mesenchymal extracellular matrix protein, has a restricted distribution in adult tissues. It has previously been shown that this protein is expressed in the bone marrow. In this paper we show that murine myeloid and lymphoid long-term bone marrow cultures differ in their expression of tenascin-C splice variants. In the adherent stromal layer of myeloid cultures, the 260-kDa polypeptide encoded by the 8-kb mRNA was the major splice variant, whereas in the stromal layer of lymphoid cultures both the shorter 210-kDa polypeptide encoded by the 6-kb mRNA and the 260-kDa polypeptide were abundantly expressed. However, in both culture systems the larger 260-kDa tenascin-C polypeptide was the major isoform secreted in the culture supernatant. This finding is in agreement with previous reports indicating that the smaller 210-kDa isoform is preferentially deposited in the stroma, whereas the alternatively spliced segment in the 260-kDa tenascin-C may contain anti-adhesive domains. Glucocorticoids in myeloid long-term bone marrow cultures and in the MC3T3-G2/PA6 cell line downregulated the expression of tenascin-C. In the present study we observed that this was due primarily to downregulation of the 8-kb major splice variant of the tenascin-C mRNA. We also studied the possible role of tenascin-C in the bone marrow by using antibodies against tenascin-C in long-term bone marrow cultures. We found that three monoclonal antibodies against the carboxyterminal type III fibronectin repeats of tenascin-C (TNCfn 7-8) increased the number of the non-adherent myeloid cells in myeloid long-term bone marrow cultures. It has recently been suggested that the TNCfn 6-8 domain of tenascin-C binds to the alpha8beta1 integrin. Using Northern blotting, we found that the integrin alpha8 subunit was expressed in adherent cells in bone marrow cultures, raising the possibility that tenascin-C acts in bone marrow cultures by binding to the alpha8beta1 integrin.