Tyrosyl-DNA phosphodiesterase 1 initiates repair of apurinic/apyrimidinic sites

Tyrosyl-DNA phosphodiesterase 1 (Tdp1) catalyzes the hydrolysis of the phosphodiester linkage between the DNA 3' phosphate and a tyrosine residue as well as a variety of other DNA 3' damaged termini. Recently we have shown that Tdp1 can liberate the 3' DNA phosphate termini from apurinic/apyrimidinic (AP) sites. Here, we found that Tdp1 is more active in the cleavage of the AP sites inside bubble-DNA structure in comparison to ssDNA containing AP site. Furthermore, Tdp1 hydrolyzes AP sites opposite to bulky fluorescein adduct faster than AP sites located in dsDNA. Whilst the Tdp1 H493R (SCAN1) and H263A mutants retain the ability to bind an AP site-containing DNA, both mutants do not reveal endonuclease activity, further suggesting the specificity of the AP cleavage activity. We suggest that this Tdp1 activity can contribute to the repair of AP sites particularly in DNA structures containing ssDNA region or AP sites in the context of clustered DNA lesions.     

Human DNA polymerase λ catalyzes lesion bypass across benzo[a]pyrene-derived DNA adduct during base excision repair

The combined action of oxidative stress and genotoxic polycyclic aromatic hydrocarbons derivatives can lead to cluster-type DNA damage that includes both a modified nucleotide and a bulky lesion. As an example, we investigated the possibility of repair of an AP site located opposite a minor groove-positioned (+)-trans-BPDE-dG or a base-displaced intercalated (+)-cis-BPDE-dG adduct (BP lesion) by a BER system. Oligonucleotides with single uracil residues in certain positions were annealed with complementary oligonucleotides bearing either a cis- or trans-BP adduct. The resulting DNA duplexes contained dU either directly opposite the modified dG or shifted to adjacent 5' (-1) or 3' (+1) positions. Digestion with uracil DNA glycosylase was utilized to generate AP sites which were then hydrolyzed by APE1, and the resulting gaps were processed by DNA polymerase β (Polβ) or λ (Polλ). The AP sites in position -1 can be repaired effectively using APE1 and Polβ or Polλ. The AP sites opposite the BP lesions can be repaired using Polλ in the case of cis- but not the trans-isomeric adduct. The AP sites in position +1 are the most difficult to repair. In the case of the AP site located in position +1, the activity of Polλ does not depend on the stereoisomeric properties of the BP lesions and dCTP is the preferred inserted substrate in both cases. The capability of Polλ to introduce the correct dNTP opposite the cis-BP-dG adduct in gap filling reactions suggests that this polymerase may play a specialized role in the process of repair of these kinds of lesions.     

Hit clustering can improve virtual fragment screening: CDK2 and PARP1 case studies

Virtual fragment screening could be a promising alternative to existing experimental screening techniques. However, reliable methods of in silico fragment screening are yet to be established and validated. In order to develop such an approach we first checked how successful the existing molecular docking methods can be in predicting fragment binding affinities and poses. Using our Lead Finder docking software the RMSD of the binding energy prediction was observed to be 1.35 kcal/mol(-1) on a set of 26 experimentally characterized fragment inhibitors, and the RMSD of the predicted binding pose from the experimental one was <1.5 ?. Then, we explored docking of 68 fragments obtained from 39 drug molecules for which co-crystal structures were available from the PDB. It appeared that fragments that participate in oriented non-covalent interactions, such as hydrogen bonds and metal coordination, could be correctly docked in 70-80% of cases suggesting the potential success of rediscovering of corresponding drugs by in silico fragment approach. Based on these findings we've developed a virtual fragment screening technique which involved structural filtration of protein-ligand complexes for specific interactions and subsequent clustering in order to minimize the number of preferable starting fragment candidates. Application of this method led to 2 millimolar-scale fragment PARP1 inhibitors with a new scaffold.     

RPA repair recognition of DNA containing pyrimidines bearing bulky adducts

Recognition of new DNA nucleotide excision repair (NER) substrate analogs, 48-mer ddsDNA (damaged double-stranded DNA), by human replication protein A (hRPA) has been analyzed using fluorescence spectroscopy and photoaffinity modification. The aim of the present work was to find quantitative characteristics of RPA-ddsDNA interaction and RPA subunits role in this process. The designed DNA structures bear bulky substituted pyrimidine nitrogen bases at the inner positions of duplex forming DNA chains. The photoreactive 4-azido-2,5-difluoro-3- pyridin-6-yl (FAP) and fluorescent antracenyl, pyrenyl (Antr, Pyr) groups were introduced via different linker fragments into exo-4N of deoxycytidine or 5C of deoxyuridine. J-dU-containing DNA was used as a photoactive model of undamaged DNA strands. The reporter group was a fluorescein residue, introduced into the 5'-phosphate end of one duplex-forming DNA strand. RPA-dsDNA association constants and the molar RPA/dsDNA ratio have been calculated based on fluorescence anisotropy measurements under conditions of a 1:1 RPA/dsDNA molar ratio in complexes. The evident preference for RPA binding to ddsDNA over undamaged dsDNA distinctly depends on the adduct type and varies in the following way: undamaged dsDNA < Antr-dC-ddsDNA < mmdsDNA < FAPdU-, Pyr-dU-ddsDNA < FAP-dC-ddsDNA (K(D) = 68 +/- 1; 25 +/- 6; 13 +/- 1; 8 +/- 2, and 3.5 +/- 0.5 nM correspondingly) but weakly depends on the chain integrity. Interestingly the bulkier lesions not in all cases have a greater effect on RPA affinity to ddsDNA. The experiments on photoaffinity modification demonstrated only p70 of compactly arranged RPA directly interacting with dsDNA. The formation of RPA-ddsDNA covalent adducts was drastically reduced when both strands of DNA duplex contained virtually opposite located FAP-dC and Antr-dC. Thus RPA requires undamaged DNA strand presence for the effective interaction with dsDNA bearing bulky damages and demonstrates the early NER factors characteristic features underlying strand discrimination capacity and poor activity of the NER system toward double damaged DNA.     

Ku antigen interacts with abasic sites

One of the most abundant lesions in DNA is the abasic (AP) sites arising spontaneously or as an intermediate in base excision repair. Certain proteins participating in the processing of these lesions form a Schiff base with the deoxyribose of the AP site. This intermediate can be stabilized by NaBH(4) treatment. By this method, DNA duplexes with AP sites were used to trap proteins in cell extracts. In HeLa cell extract, along with a prevalent trap product with an apparent molecular mass of 95 kDa, less intensive low-molecular-weight products were observed. The major one was identified as the p80-subunit of Ku antigen (Ku). Ku antigen, a DNA binding component of DNA-dependent protein kinase (DNA-PK), participates in double-stranded break repair and is responsible for the resistance of cells to ionizing radiation. The specificity of Ku interaction with AP sites was proven by more efficient competition of DNA duplexes with an analogue of abasic site than non-AP DNA. Ku80 was cross-linked to AP DNAs with different efficiencies depending on the size and position of strand interruptions opposite to AP sites. Ku antigen as a part of DNA-PK was shown to inhibit AP site cleavage by apurinic/apyrimidinic endonuclease 1.     

A comparative study of phenylalanyl-tRNA synthetases from Escherichia coli and Thermus thermophilus by the tritium topography method

A comparative study of thermostability and amino acid composition of phenylalanyl-tRNA synthetases from E. coli and Thermus thermophilus HB8 has been carried out. In the thermophilic protein the proline, leucine, phenylalanine, arginine content was considerably increased, whereas that of asparagine, isoleucine, serine, threonine and lysine was decreased as compared to the mesophilic protein. Using tritium topography, Pro, (Leu + Ile) and Gly were found to be the most accessible on the surfaces of the both enzymes. In the E. coli enzyme the threonine residues were also easy to access, while on the surface of the thermophilic enzyme arginine residues were more abundant. A quantitative assay of the surface compositions revealed the increased exposure of (Leu + Ile) residues in the thermophilic protein as well as of the charged asparagine and arginine residues. A possible relationship of the observed effects to thermostability is discussed.     

Stabilization of the transition state in the active center of aminoacyl-tRNA-synthetase

The mechanism for transition state stabilization in the activation of amino acids by aminoacyl-tRNA synthetases is proposed. We carried out a quantum mechanical study on system modelling the attack of the amino acid carboxylate on the alpha-phosphate group of ATP. The activation barrier is reduced by improved hydrogen binding between a phosphoryl oxygen atom and a proton donor group of the enzyme. The relative stabilization of the transition state is found to be about 8 kcal/mol. On the basis of results obtained for the reaction in gas phase, in aqueous solution and in the active site the nature of the enzyme catalysis is discussed.     

Modulation of Mcl-1 transcription by serum deprivation sensitizes cancer cells to cisplatin

Background

The development of approaches that increase therapeutic effects of anti-cancer drugs is one of the most important tasks of oncology. Caloric restriction in vivo or serum deprivation (SD) in vitro has been shown to be an effective tool for sensitizing cancer cells to chemotherapeutic drugs. However, the detailed mechanisms underlying the enhancement of apoptosis in cancer cells by SD remain to be elucidated.

The Effect of Erythrocyte Lysis in Selected Animals on the Absorption Spectra of Oxyhemoglobin

Biophysics - Abstract—The absorption spectra of lysed and non-lysed erythrocyte samples isolated from chicken, goose, and guinea pig blood were studied. It was found that the position of the...