Skeletal muscle myofibrillogenesis as revealed with a monoclonal antibody to titin in combination with detection of the alpha- and gamma-isoforms of actin.

The distribution of titin during myofibrillogenesis was examined using rat skeletal muscle myogenic cultures and fluorescent-antibody staining. Efforts were made to compare the distribution and temporal sequence of incorporation of titin relative to that of the alpha- and gamma-isoforms of actin. The present observations suggested the following sequence of titin assembly: (1) newly synthesized titin molecules are distributed in a diffuse pattern throughout the sarcoplasm, (2) the titin molecules gradually associate with alpha- and gamma-actin-positive stress fiber-like structures (SFLS), (3) groups of titin molecules begin to segregate on the SFLS, and (4) titin molecules align in a mature doublet configuration in the sarcomeres of nascent myofibrils. Titin assembly on the SFLS often appeared prior to the onset of either alpha- or gamma-actin periodicity on nascent myofibrils; the latter result suggested a role for titin in sarcomeric organization. Actin distribution on SFLS and its periodicity on nascent myofibrils was usually identical between the alpha- and gamma-isoforms. This suggested that gamma-actin participated in myofibrillogenesis in a manner indistinguishable from that of alpha-actin. The transition seen from continuous actin staining of SFLS to the I-band staining pattern of mature myofibrils is discussed in relation to the corresponding reorganization of actin filaments and the molecular associations that this would entail.