Abstract

In the developing brain the active neurite outgrowth during the early phase of synaptogenesis is associated with a thyroid hormone dependent expression of tubulin and actin. In this study, the molecular mechanism of thyroid hormone (TH) action on actin and tubulin gene expression in the developing rat brain has been investigated by comparing the steady state levels of both mRNAs with their respective rates of transcription in cerebra from normal and hypothyroid animals. The developmental profile of actin as well as tubulin mRNAs in both normal and hypothyroid brains display a biphasic pattern, increasing progressively during the first week after birth and declining thereafter. However, hypothyroidism resulted in a significant reduction in the steady state levels of both mRNAs during the first postnatal week. During the second and third weeks, in contrast to their rapid decline in the normal controls, the corresponding decrease in the hypothyroid cerebra was retarded and prolonged resulting in their higher levels under TH-deficient condition. Kinetics of stimulation of actin and tubulin mRNAs in the 5-day hypothyroid cerebra following injection of the optimal dose of TH (200 micrograms T3/100 g body wt.) demonstrated elevation of both mRNAs within 1 h indicating a possible role of TH at the transcriptional level. In vitro transcription experiments by nuclear run off assay unambiguously confirmed that actin gene transcription is depressed in the hypothyroid cerebra compared to normal control. This reduced rate of transcription could be significantly induced in the hypothyroid cerebra by incubation of hypothyroid nuclei with T3 prior to transcription. In contrast, except for a reduced transcription in 5-day hypothyroid nuclei, no effect on tubulin gene transcription was evident at any other age. Moreover preincubation of hypothyroid nuclei from all three ages with T3 had no stimulatory effect on tubulin gene transcription. Analysis of age related changes in the rates of transcription of actin and tubulin genes with their corresponding steady state mRNA levels in normal and hypothyroid developing brain provides strong evidence that although additional modes of regulation may be operative, transcription represents an important level of control for thyroidal regulation of actin gene expression while tubulin gene expression is primarily regulated at post-transcriptional level.

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