RNA SYNTHESIS IN HELA CELLS: Pattern in Hypertonic Medium and Its Similarity to Synthesis during G2-Prophase

doi:10.1083/jcb.47.3.734

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RNA SYNTHESIS IN HELA CELLS : Pattern in Hypertonic Medium and Its Similarity to Synthesis during G₂-Prophase

Thoru Pederson ¹ and Elliott Robbins ¹

¹ From the Department of Cell Biology, Albert Einstein College of Medicine, Bronx, New York 10461

Interphase HeLa cells manifest a stepwise shutoff of RNA synthesiswhen the tonicity of the extracellular medium is gradually increased.Synthesis of heterogeneous nuclear RNA is most sensitive andis selectively inhibited at 1.5 times isotonicity (450 milliosmols/liter),while 45S ribosomal RNA synthesis is not affected significantlybelow 2.0 times isotonicity. Transfer RNA synthesis is leastsensitive to increased osmolarity and is not completely inhibiteduntil the electrolyte concentration of the medium is elevatedto 2.8 times isotonicity. Although the transcription and methylationof 45S ribosomal precursor is unaffected at 1.5 times isotonicity,there is pronounced impairment of its processing into 32S and18S RNA. Using a refined cell synchronization technique, wehave been able to compare these effects of hypertonicity withthe shutoff of RNA synthesis which occurs during the G₂-prophaseinterval of the cell division cycle. In this case, as with randomcells in hypertonic medium, a selective inhibition of heterogeneousnuclear RNA synthesis and slowed processing of 45S ribosomalRNA were found, whereas synthesis of 45S and transfer RNA continuedunabated throughout G₂-prophase. While it is known that RNAsynthesis essentially ceases during metaphase, we have notedthat transfer RNA synthesis continues in metaphase at 10–15%of the interphase rate, which is of particular interest in viewof the relative resistance of this species to hypertonicity.The close correlation between the patterns of cessation of RNAsynthesis at mitosis and during exposure to hypertonic mediumsupports our earlier contention that alteration of intracellularelectrolyte levels provides a useful model for studying themechanism of mitosis.

Submitted on April 3, 1970
Revised on May 8, 1970

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