Association of actin with the nuclear matrix from bovine lymphocytes

Abstract

Nuclear matrix prepared from bovine lymphocytes contained a significant amount of actin. Both nuclear matrix actin and rabbit muscle actin showed the same electrophoretic mobility on SDS-gel. The matrix-associated actin could be separated into three isoproteins which may correspond to α-, β- and γ-actin. The most acidic spot of these isoproteins co-migrated with rabbit muscle actin (α-actin) on two-dimensional electrophoresis. The amino-acid composition of the nuclear matrix actin was closely related to that of rabbit muscle and to that of porcine brain actin. Moreover, the actin filaments, treated with 0.75 M guanidine hydrochloride, changed from the polymerized form of the nuclear matrix actin into a monomeric form (G-actin), which had strong inhibitor activity against pancreatic DNase I. From this inhibition, the actin content of the nuclear matrix was estimated to be about 12% of total matrix protein. When the nuclear matrix was digested with trypsin, the bulk of matrix protein was hydrolyzed, but about 80% of the actin remained associated with sphere structures (trypsin-treated nuclear matrix) precipitatable by low speed centrifugation. SDS-gel analysis revealed that actin was one of the major components of the trypsin-treated nuclear matrix, which had a similar size and structure as the untreated nuclear matrix. The fibrogranular structure and residual nucleoli of the original nuclear matrix were well preserved against trypsin digestion; however, the peripheral lamina was removed. These results indicate that the matrix-associated actin is localized predominantly in the matrix interior, where it presumably interacts closely with the fibrogranular structure and/or the residual nucleoli.