Triiodothyronine receptors in developing mouse neuronal and glial cell cultures and in chick-cultured neurones and astrocytes.

The evolution of L-triiodothyronine (T3) receptors was studied in developing cultures of cells dissociated from cerebral hemispheres of 14-day-old mouse embryos, which present successive distinct periods of cell proliferation and/or maturation. These periods are characterized essentially as neuronal from 1 to 12 days in vitro (DIV) and glial between 12 and 60 DIV. Furthermore myelin-related membranes are produced in this culture system. Binding capacities of the T3 nuclear receptors increased from 1 to 6 DIV, when it reached a maximum (16 fmol/100 micrograms DNA). A similar increase of the DNA content of the cell was observed until 8 DIV. Thereafter a sharp fall of receptor concentration leading to a 5-fold decrease in the binding capacity occurred until day 15, a period at which neurones disappeared from the cultures. From 25 to 50 DIV (coinciding with the glial period), the concentration of receptor remained more or less constant (1-2 fmol/100 micrograms DNA). In parallel, the DNA content did not vary greatly between 30 and 50 DIV. Scatchard analysis revealed the presence of a single class of receptors at 6 and 20 DIV, representative of 'neuronal' and 'glial' periods, respectively. The equilibrium dissociation constant (Kd) of the nuclear receptor from cells at 6 DIV (2 X 10(-10) M) was similar to that found at 20 DIV. These results were confirmed using pure cultured neurones and astrocytes prepared from embryonic chick brain. The effect of T3 on the cellular gangliosides used as an index of neuronal cell maturation, and on cerebroside sulfotransferase (CST), an enzyme involved in the production of myelin sulfatides, was studied to determine a possible correlation between the binding capacity of the T3 nuclear receptor and the response of the cultured cells to thyroid hormone. Our data demonstrate that T3 had no significant effect either on the content of gangliosides or on their developmental pattern, while it increased the level of CST activity by 75% between 18 and 25 DIV. These results show that, although the concentration of T3 receptors per 100 micrograms DNA in glial cells was lower than that in neurones, it was nevertheless sufficient to elicit a response in oligodendrocytes.