Martina Baack

Human Minichromosome Maintenance Proteins and Human Origin Recognition Complex 2 Protein on Chromatin

Minichromosome maintenance (Mcm) proteins and the constituents of the origin recognition complex (Orc) are essential components of the eukaryotic replication initiation apparatus. Published evidence strongly suggests that the binding of Mcm proteins to chromatin is contingent upon the prior binding of Orc proteins. Here we use two different approaches to investigate the presence of the human ORC2 protein and of Mcm proteins on chromatin of HeLa cells in various cell cycle phases. First, we mobilized chromatin-bound proteins by micrococcal nuclease and analyzed the resulting digestion products by sucrose gradient centrifugations. Under digestion conditions when Mcm proteins were almost entirely released from chromatin, ORC2 protein was found to be associated with chromatin fragments containing several hundred base pairs of DNA. Second, we used an in vivocross-linking procedure to covalently link Mcm proteins and ORC2 to DNA by short exposure of intact HeLa cells to formaldehyde. Specific immunoprecipitations revealed that cross-linked nucleoprotein fragments carried either Mcm proteins or ORC2 protein, but not both. Based on the lengths of the DNA fragments in immunoprecipitates, we estimate that the distance between chromatin-bound ORC2 protein and chromatin-bound Mcm proteins must be at least 500–1000 base pairs in HeLa cells.

The expression of Ki-67, MCM3, and p27 defines distinct subsets of proliferating, resting, and differentiated cells.

The mini‐chromosome maintenance proteins (MCM), which are involved in the control of DNA replication, and the cyclin‐dependent kinase inhibitors, such as p27/KIP1, represent two groups of proteins that are currently under investigation as diagnostic tumour markers. The expression of p27 and MCM3 was compared with the expression of the Ki‐67 protein, an approved marker for proliferating cells, extensively used in histopathology and cancer research. The expression pattern of all three proteins was assessed on germinal centres and oral mucosa, which display a well‐defined spatio‐temporal organization. The expression of the p27 protein was closely related to differentiated cells, whereas MCM3 and Ki‐67 were predominantly localized to the regions of proliferating cells. However, it is important to note that considerable numbers of cells that were growth‐arrested, as confirmed by the absence of the Ki‐67 protein, stained positive for the MCM3 protein. These results were verified in vitro using growth‐arrested Swiss 3T3. The MCM3 protein is therefore expressed in cells that have ceased to proliferate, but are not terminally differentiated, according to the absence of p27 protein expression. In conclusion, a combined analysis of Ki‐67, MCM3, and p27 protein expression may provide a more detailed insight into the cell proliferation and differentiation processes that determine individual tumour growth. Copyright

High-affinity SV40 T-antigen binding sites in the human genome

We describe two different approaches to isolate human genomic sequences possessing high-affinity binding sites for the simian virus 40 (SV40) large T antigen. First, SV40 T antigen was added to Sau3A-restricted human DNA; the resulting T-antigen-DNA complexes were collected after repeated passages through nitrocellulose filters. The second approach involves the specific immunoprecipitation of chromatin fragments, generated by Sau3A treatment of nuclear chromatin from SV40-transformed human cells. The DNA fragments obtained were cloned in plasmid vectors for further investigation. Using the filter binding approach we isolated four different fragments with high-affinity binding sites. The binding site in one fragment was related to the strong T-antigen binding site I in the SV40 genome. The other three fragments contained multiple recognition pentamers, GA(G)GGC. Only one fragment with a high-affinity binding site was identified among the immunoprecipitable chromatin fragments. This DNA fragment belongs to the L1 family of human repetitive DNA. We present evidence suggesting that a significant fraction of human L1 elements possesses T-antigen binding sites. L1-related sequences appear as extrachromosomal elements in an SV40-transformed human cell line, and the amount of extrachromosomal L1 DNA was found to increase after fusion of transformed cells to permissive monkey cells.

DNA Replication in Protein Extracts from Human Cells Requires ORC and Mcm Proteins

We used protein extracts from proliferating human HeLa cells to support plasmid DNA replication in vitro. An extract with soluble nuclear proteins contains the major replicative chain elongation functions, whereas a high salt extract from isolated nuclei contains the proteins for initiation. Among the initiator proteins active in vitro are the origin recognition complex (ORC) and Mcm proteins. Recombinant Orc1 protein stimulates in vitro replication presumably in place of endogenous Orc1 that is known to be present in suboptimal amounts in HeLa cell nuclei. Partially purified endogenous ORC, but not recombinant ORC, is able to rescue immunodepleted nuclear extracts. Plasmid replication in the in vitro replication system is slow and of limited efficiency but robust enough to serve as a basis to investigate the formation of functional pre-replication complexes under biochemically defined conditions.

Proteins of the origin recognition complex (ORC) and DNA topoisomerases on mammalian chromatin

BackgroundThe process of DNA replication requires the separation of complementary DNA strands. In this process, the unwinding of circularly closed or long DNA duplices leads to torsional tensions which must be released by topoisomerases. So topoisomerases play an important role in DNA replication. In order to provide more information about topoisomerases in the initiation of mammalian replication, we investigated whether topoisomerases occur close to ORC in the chromatin of cultured human HeLa cells.ResultsWe have used different cell fractionation procedures, namely salt and nuclease treatment of isolated nuclei as well as formaldehyde-mediated cross-linking of chromatin, to investigate the distribution of topoisomerases and proteins of the origin recognition complex (ORC) in the chromatin of human HeLa cells. First we obtained no evidence for a physical interaction of either topoisomerase I or topoisomerase II with ORC. Then we found, however, that (Orc1-5) and topo II occurred together on chromatin fragments of 600 and more bp lengths. At last we showed that both topo II and Orc2 protein are enriched near the origin at the human MCM4 gene, and at least some of the topo II at the origin is active in proliferating HeLa cells. So taken together, topoisomerase II, but not topoisomerase I, is located close to ORC on chromatin.ConclusionTopoisomerase II is more highly expressed than ORC proteins in mammalian cells, so only a small fraction of total chromatin-bound topoisomerase II was found in the vicinity of ORC. The precise position of topo II relative to ORC may differ among origins.