Recovery of nuclear matrix ultrastructure of interphase CHO cells after heat shock

Heat shock induces changes in G1 CHO cell nuclear matrix (NM) ultrastructure that may be related to heat‐induced nuclear protein accumulation (Wachsberger and Coss, 1993, J. Cell. Physiol., 155:615–634). The present study quantitates recovery of alterations in NM fine structure in CHO cells heated in G1 and compares structural recovery with recovery of bulk RNA synthesis and surviving fraction (SF). Morphology of NM preparations was quantified 30 min and 20 hr following heat shock by 1) measurement of the number of fiber anastomosing points per unit area per NM, and 2) measurement of the length of fibers between points of anastomoses within individual NMs. Architectural recovery was nearly complete within 20 hr in cells heated at 43°C or 45°C with SFs of 0.27 or greater. No recovery of architecture was observed in heated cells with SFs of approximately 0.01 or less. The residual damage to NMs was associated with RNA‐containing fiber networks as determined by means of RNase gold labeling. Recovery from inhibition of RNA synthesis following heat shock was related to recovery of NM architecture. It is suggested that 1) repair of NM architecture does not require full recovery of bulk RNA synthesis, and 2) partial or complete irreversible collapse of the NM may be responsible, in part, for heat‐induced, interphase cell death. © 1994 Wiley‐Liss, Inc.