Effects of Thyrotropin on the Phosphorylation of Histones and Nonhistone Phosphoproteins in Micrococcal Nuclease-Sensitive and Resistant Thyroid Chromatin*

Abstract

Actively transcribed regions of chromatin are more susceptible than bulk chromatin to digestion by nucleases, and useful information about the composition and structure of active chromatin may be obtained by studying the chromatin fragments released from nuclei by limited nuclease digestion. In the present study, we have used micrococcal nuclease to investigate the effects of TSH on protein phosphorylation in nucleasesensitive fractions of calf thyroid chromatin. Batches of calf thyroid slices were incubated for 2 h with ³²P_i, with or without 50 mU/ml TSH. Nuclei were then prepared and the distribution of ³²P-labeled histones, high mobility group(HMG) proteins, and other acid-soluble phosphoproteins between micrococcal nuclease-sensitive and resistant fractions of chromatin was examined. TSH increased the amount of ³²P incorporated into HMG 14 and the histones H1 and H3. Hormone-dependent increases in the ³²P-labeling of H1 and H3 were not selectively associated with micrococcal nuclease-sensitive chromatin. In contrast, [³²P] HMG-14 was preferentially solubilized from nuclei by micrococcal nuclease. This lends support to the view that TSH-induced effects on the structure and function of transcriptionally active chromatin may be mediated in part by phosphorylation of HMG 14.