Human DNA polymerase lambda  functionally and physically interacts with proliferating cell nuclear antigen in normal and translesion DNA synthesis

doi:10.1074/jbc.M206889200

Human DNA polymerase $lambda$ functionally and physically interacts with proliferating cell nuclear antigen in normal and translesion DNA synthesis

Giovanni Maga, Giuseppe Villani, Kristijan Ramadan, Igor Shevelev, Nicolas Tanguy le Gac, Luis Blanco, Giuseppina Blanca, Silvio Spadari, and Ulrich Hubscher

DNA Enzymology and Molecular Virology, Ist. di Genetica Molecolare -IGM C.N.R., Pavia, Pavia I-27100

Corresponding Author: maga{at}igm.cnr.it

Proliferating cell nuclear antigen (PCNA) has been shown to interact with a variety of DNA polymerases (pol) such as pol $delta$ , pol $epsilon$ , pol $iota$ , pol $kappa$ , pol $eta$ and pol $beta$ . Here we show that PCNA directly interacts with the newly discovered pol $lambda$ cloned from human cells. This interaction stabilizes the binding of pol $lambda$ to the primer template thus increasing its affinity for the hydroxyl primer and its processivity in DNA synthesis, but no effect of PCNA was detected on the rate of nucleotide incorporation or discrimination efficiency by pol $lambda$ . PCNA was found to stimulate efficient synthesis by pol $lambda$ across an abasic site (AP site). When compared with pol $lambda$ , human pol $lambda$ showed the ability to incorporate a nucleotide in front of the lesion. Addition of PCNA led to efficient elongation past the AP site by pol $lambda$ but not by pol $delta$ .However, when tested on a template containing a bulky DNA lesion, such as the major cisplatin Pt-d(GpG)adduct, PCNA could not allow translesion synthesis by pol $lambda$ . Our results suggest that the complex between PCNA and pol $lambda$ may play an important role in the bypass of abasic sites in human cells.

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				E. Crespan, L. Alexandrova, A. Khandazhinskaya, M. Jasko, M. Kukhanova, G. Villani, U. Hubscher, S. Spadari, and G. Maga Expanding the repertoire of DNA polymerase substrates: template-instructed incorporation of non-nucleoside triphosphate analogues by DNA polymerases {beta} and {lambda} Nucleic Acids Res., January 12, 2007; 35(1): 45 - 57. [Abstract] [Full Text] [PDF]

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				I. Frouin, M. Toueille, E. Ferrari, I. Shevelev, and U. Hubscher Phosphorylation of human DNA polymerase {lambda} by the cyclin-dependent kinase Cdk2/cyclin A complex is modulated by its association with proliferating cell nuclear antigen Nucleic Acids Res., September 20, 2005; 33(16): 5354 - 5361. [Abstract] [Full Text] [PDF]

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				I. Shevelev, G. Blanca, G. Villani, K. Ramadan, S. Spadari, U. Hubscher, and G. Maga Mutagenesis of human DNA polymerase {lambda}: essential roles of Tyr505 and Phe506 for both DNA polymerase and terminal transferase activities Nucleic Acids Res., December 1, 2003; 31(23): 6916 - 6925. [Abstract] [Full Text] [PDF]

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Human DNA polymerase functionally and physically interacts with proliferating cell nuclear antigen in normal and translesion DNA synthesis

Human DNA polymerase $lambda$ functionally and physically interacts with proliferating cell nuclear antigen in normal and translesion DNA synthesis