Abstract
The changing profile of enolase (EC 4.2.1.11) isoenzymes in differentiating mouse cells has been traced by the use of specific antisera to the three subunits α, β, and γ. The amounts of the isoenzymes were measured in a variety of tissues during normal mouse development and during the differentiation of mouse teratocarcinoma cells in culture and as tumors. One isoenzyme is predominant in the early cells of the developing mouse embryo, namely, the homodimer made up of α subunits. The same isoenzyme is also the sole form detected in undifferentiated teratocarcinoma (embryonal carcinoma) cells. The isoenzyme form remains unchanged in developing primitive and definitive endoderm of the embryo. Similarly, endoderm cells formed by differentiation of embryonal carcinoma cells contained only αα enolase. In contrast, during the development of striated muscle and of brain, increasing proportions of β and γ subunits, respectively, were detected. Thus enolase was found to be a marker of the differentiation of these tissues. This conclusion was substantiated by finding significant amounts of the β subunit in teratocarcinoma cell cultures which had formed beating striated muscle in vitro.
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