Analyses of segment-specific expression of alkaline phosphatase activity in the mesoderm of the oligochaete annelid Tubifex: implications for specification of segmental identity.

In the embryos of the oligochaete annelid Tubifex, segments VII and VIII specifically express mesodermal alkaline phophatase (ALP) activity in the ventrolateral region. In this study, we examined whether this segment-specific expression of ALP activity depends on external cues. Cell lineage analyses show that the ALP-expressing cells originate from M teloblasts. Furthermore, a set of teloblast-ablation experiments demonstrated that the seventh and eighth primary m blast cells (m7 and m8) produced from M teloblasts give rise to ALP-expressing cells in segments VII and VIII, respectively, and that primary m blast cells other than m7 and m8 lack the ability to generate ALP-expressing progeny cells. The results of another set of blastomere-ablation experiments suggest that ALP-expressing cells emerge independently of interactions with surrounding tissues. Teloblast-transplantation experiments demonstrated that m8 can generate ALP-expressing cells in an ectopical position, suggesting that it is unlikely that ALP activity emerges in response to the positional cues residing in the embryo. These results suggest that m7 and m8 are exclusively specified as precursors of ALP-expressing cells at the time of their birth from M teloblasts. We propose that segmental identities in primary m blast cells of the Tubifex embryo are determined according to the genealogical position in the M lineage and that the M teloblast possesses a developmental program through which the sequence of blast cell identities is determined.