Abstract
Histone phosphorylation was investigated in several mammalian cells undergoing apoptosis (human HL-60 and HeLa, mouse FM3A and N18 cells, and rat thymocytes). Among the four nucleosomal core histones (H2A, H2B, H3, and H4), H2B, which is not usually phosphorylated in quiescent or growing cells, was found to be phosphorylated after treatment with various apoptotic inducers. The H2B was phosphorylated around the time when nucleosomal DNA fragmentation was initiated and, like this fragmentation, was completely blocked with Z-Asp-CH(2)-DCB, an inhibitor of ICE or ICE-like caspase. The involved single phosphopeptide of H2B proved to be phosphorylatable in vitro with a protein kinase C, and the site Ser-32 was tentatively identified. Despite typical apoptotic chromatin condensation, the H3 phosphorylation was at a low level, and the sites where phosphorylation did occur did not include any mitosis-specific phosphopeptides. Phosphorylation of H4 was increased, but the other two histone proteins (H1 and H2A) were not appreciably changed. These observations imply that 1) H2B phosphorylation occurs universally in apoptotic cells and is associated with apoptosis-specific nucleosomal DNA fragmentation, 2) chromatin condensation in apoptosis occurs by a different biochemical mechanism from those operating during mitosis or premature chromosome condensation, and 3) this unique phosphorylation of H2B is a useful biochemical hallmark of apoptotic cells.
Highlights
Histone phosphorylation was investigated in several mammalian cells undergoing apoptosis
Phosphorylation of H4 was increased, but the other two histone proteins (H1 and H2A) were not appreciably changed. These observations imply that 1) H2B phosphorylation occurs universally in apoptotic cells and is associated with apoptosis-specific nucleosomal DNA fragmentation, 2) chromatin condensation in apoptosis occurs by a different biochemical mechanism from those operating during mitosis or premature chromosome condensation, and 3) this unique phosphorylation of H2B is a useful biochemical hallmark of apoptotic cells
The present data for HL-60 cells are consistent with those of other laboratories in indicating that 1) histone H3 phosphorylation at mitosis-associated sites does not occur in apoptosis and 2) H1 and H2A do not show any considerable increase or changes in any spots
Summary
(Received for publication, June 28, 1999, and in revised form, September 15, 1999). Kozo Ajiro‡ From the Laboratory of Cell Biology, Aichi Cancer Center, Research Institute, Nagoya, 464-8681 Japan. Phosphorylation of H4 was increased, but the other two histone proteins (H1 and H2A) were not appreciably changed These observations imply that 1) H2B phosphorylation occurs universally in apoptotic cells and is associated with apoptosis-specific nucleosomal DNA fragmentation, 2) chromatin condensation in apoptosis occurs by a different biochemical mechanism from those operating during mitosis or premature chromosome condensation, and 3) this unique phosphorylation of H2B is a useful biochemical hallmark of apoptotic cells. Apoptotic cells demonstrate dynamic structural changes, such as chromatin condensation and nucleosomal DNA fragmentation [1,2,3]. In view of the specificity of histone phosphorylation during the cell cycle, it is clearly of interest to investigate in more detail whether apoptotic chromatin has a specific pattern of histone phosphorylation associated with nucleosomal DNA fragmentation or chromatin condensation. I report that most mammalian apoptotic cells demonstrate unique phosphorylation of H2B, which does not usually occur in interphase cells
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
