Aris Kaksis Riga University docent - Chemistry

Instructor: Dr. Natalia Tretyakova, Ph.D. «hyperlink "mailto:[email protected]"» - 6-3432

PDB reference correction and design Dr.chem., Ph.D. Aris Kaksis, Associate Prof. mailto:[email protected]

5' 3' DNA SynthesisDNA Synthesis

3' 5' 3' 5'

Primer Synthesis and removal

5'
|| Primase
3'

5'
5'

3'
RNA primer

+ || DNA Pol III
3'

5'
5'

--> 3'
¯ DNA Pol I
DNA strand 3'

5'
5'

3'
degraded

<- primer + || DNA Ligase
3'

5'
5'

Replication Fork Garland

Antitumor drug examples

Cyclophosphamide      Cytoxan®
Melphalan                   Alkeran®
Busulfan                      Myleran®             form crosslinks
Chlorambucil              Leukeran®
Mitomycin                   Mutamycin®
Cisplatin                      Platinol®
Bleomycin                    Blenoxane®         cuts DNA strands between A=

or G º C
Dactinomycin Cosmegen ® inserts into the double helix preventing its unwinding

Chemical modification of DNA

Carcinogen (X) ---------------> detoxification --> excretion
metabolic activation ||

reactive metabolite (X-) + DNA

|| DNA adducts

||repair || || replication
intact DNA cell death mutations

DNA cross-linking agents as anti-tumor drugs

Nitrogen mustards

Mechlorethamine Chlorambucil Cyclo

amide
Mechanism:

Interstrand cross-links block strand separation

5' 3' required for DNA Synthesis

N7-alkylguanines can be stabilized by 2 pathways

-->

||
Depurination | |Ring cleavage

Abasic site

Importance of DNA Repair

• DNA is the only biological macromolecule that is repaired. All others are replaced.

• More than 100 genes are required for DNA repair,
even in organisms with very small genomes.

• Cancer is a consequence of inadequate DNA repair.

DNA Repair Strategy

• Take advantage of the double-stranded (double information) nature of the DNA molecule.

• Remove damaged nucleobase (nucleotide) and fill the gap
using the complementary strand as a template

DNA Repair Types

¤ Base excision repair
¤ Direct repair
¤ Nucleotide excision repair
¤ Mismatch repair
¤ Recombination repair

Base excision repair

¤ Used for repair of small damaged bases in DNA (AP sites, 8-oxo-G, _)
¤ Human gene hogg1 is often deleted in lung cancer
¤ Several steps are involved:
       a) modified base is excised by N-glycosylase
       b) the abasic site is cleaved with endonuclease
       c) the resulting gap is filled by Polymerase b?
       d) DNA Ligase seals the strands

Base excision repair mechanism

Direct repair

¤ || DNA photolyase -->

-->

¤O6-alkyltransferase
O6-alkylguanine DNA alkyltransferase

¤ Directly repaires alkylation damage (O6-Me-dG, O6-POB-dG)
¤ stoichiometric reaction, enzyme inactivated via alkylation of Cys in the binding site

+ AGT-CH2-

-H -->

+ AGT-CH2-

-CH3
O6-methylguanine
© AGT enzyme is highly conserved:
     a) helix-turn-helix motif
     b) hydrophobic side-chains form alkyl-binding pocket

Nucleotide excision repair (NER)

¨ Corrects any damage that both distorts the DNA molecule and alters
                                                                the chemistry of the DNA molecule
(pyrimidine dimers, benzo[a]pyrene-dG adducts, cisplatin-cross-links).
¨ Xeroderma pigmentosum is a genetic disorder resulting in defective NER
¨ Special excision nuclease (exinuclease) hydrolyzes phosphodiester bond to release a short oligonucleotide fragment (about 12-20 nucleotides, 3-5th 3’ from the lesion and 7-12 nucleotides 5’ from the lesion)
4.    Pol d/e replaces the removed strand
5.    DNA ligase seals the ends

Arginine Flipper

Nucleotide excision repair (NER)

DNA with dimer Mammalian Enzyme

Dimer reconized and DNA cut exinuclease

Dimer excised

Gap filled by DNA polymerase Pol d/e

Nick sealed by DNA ligase DNA ligase

Recombination repair

Genetic diseases associated with defective DNA repair

Xeroderma Pigmentosum                                             NER
Hereditary nonpolyposis colorectal cancer                MMR
Cockrayne’s syndrome                                                  NER
Falconi’s anemia                                                            DNA ligase
Bloom’s syndrome                                                          BER, ligase
Lung cancer (?)                                                              BER

Predict repair mechanisms for the following types of DNA damage

site DNA Synthesis: Take Home Message

double strand break 1) DNA synthesis is carried out by DNA polymerases

glycol with high fidelity.
UV photo products 2) DNA synthesis is characterized by initiation,

:G mismatch                                          priming and processive synthesis steps and
polyclic aromatic                                                           proceeds in 5’ ® 3’ direction.
|       hydrocarbon adducts         3) Modifications of DNA base pairs, if not repaired,
exocyclic adducts (propano)                                          can lead to mutations of the
N7-methylguanine                                                                            DNA sequence.
O6-   ethylguanine