Reparo de DNA e Mutagenese - IQ USP · 2 8-h y drox gua ne 2,6-diamino-4-hydroxy-5-f o r ma idpy ne...

Reparo de DNA e Mutagenese

Como os organismos vivos lidam com a instabilidade quimica do DNA?

http://www.mypureradiance.com/ppc/dna-skin-care.html

Qual a diferença entre mutação e

lesão no DNA?

Sites of oxidative damage in DNA

N

NN

N

NH2

O

HO

HHHH

ONH

N

N

O

NH2N

O

H

HHHH

O

OP

O-

O

O

H

HH

HH

N

N

NH2

OOP

O-

O

O

P

O-

O O

H

HHHH

HN

N

O

O

O

O

O

P

O-

O

P

O-

O O

CH3

sugar-phosphate backbone

adenine

guanine

cytosine

thymine

Sites of attackby •OH

Sites of attackby •OH

Reviewed in:Evans, M. D., Dizdaroglu, M. and Cooke, M. S., Mutat. Res. 567, 1-61, 2004

Products of oxidative damage to DNA bases

NH

HN

O

HNH

HN

OCH2OH

NH

HNO

NH

HN

O

H

NH

N

NH

HN

NH

NOH

NH

N

NH

HN

NH

HN

NH

N

NH

HN

O

HNH

HNO

N

N NH

NN

N NH2

NHCHO

H

N

N NH

N

HO

HN

N NH

NHN

N NH2

NHCHO

NH

HNOH

NH

HNOH

NH

HN

thymine glycol

3

5-hydroxymethyl- uracil

5,6-dihydrothymine

3

5-hydroxy-5-methyl- hydantoin

3

5-hydroxy-6-hydro- thymine

5-hydroxy-6-hydro- cytosine

5-hydroxy-6-hydro-uracil

cytosine glycol 5-hydroxycytosine

5-hydroxyuracil

5,6-dihydroxycytosine

5,6-dihydroxyuracil 5,6-dihydrouracilalloxan

8-hydroxyadenine 4,6-diamino-5-form-amidopyrimidine

8-hydroxyguanine2-hydroxyadenine 2,6-diamino-4-hydroxy-5-formamidopyrimidine

uracil glycol 5-hydroxyhydantoin

NH

N

trans-1-carbamoyl-2-oxo-4,5- dihydroxyimidazolidine

NH

HN

OCHO

5-formyluracil

H

OH

O

O

CH

H

H

H OOCH

O

CH

OH

NH2

H

OH

H

O

O H

OH

H

O H

H

H

OH

NH2

O H

NH2

OHH

O H

O

OH

O H

OH

O

O

OH

NH2

OH

O

OH

OH

H

HO

H

OO OH

O

NH2

OH

NH2

H

NH2

H2NOHH

O O

H2N

O

H

H

OH

O

O

O

CH3

OH

O OH

HH

OHCO

NH2

HO

NH

N

N

O

NH2N

O

HOH

HHH

C

H

H

HO

(5'S)-8,5'-cyclo-2'-deoxyguanosine

NH

N

N

O

NH2N

O

HOH

HHH

C

H

HO

H

(5'R)-8,5'-cyclo-2'-deoxyguanosine

N

N

N

N

O

HOH

HHH

C

H

H

HO

(5'R)-8,5'-cyclo-2'-deoxyadenosine

NH2

N

N

N

N

O

HOH

HHH

C

H

HO

H

(5'S)-8,5'-cyclo-2'-deoxyadenosine

NH2

Reviewed in:Evans, M. D., Dizdaroglu, M. and Cooke, M. S., Mutat. Res. 567, 1-61, 2004

Consequencias moleculares de lesoes no DNA:

1. Mutagenese:

2. Citotoxicidade:

Polimerases especiais evoluiram para “bypass” lesions bloqueadoras

MAMMALIAN DNA REPAIRNuclear

Mitochondrial

DNA repair pathways

Base Excision RecombinationPostreplication Mismatch Nucleotide

ExcisionDirect

Reversal

Short Patch Long Patch TCR Gene Global

TCR

DNA Repair Pathways

Base ExcisionRecombinationPostreplication

??

Mismatch??

NucleotideExcision

Probably notDirect

Reversal

Short Patch

Xeroderma Pigmentosum e a descoberta de reparo de excisão

A Sindrome de Cockayne e o reparo acoplado a transcição

A via de “Nucleotide Excision Repair (NER)”

DAMAGED BASE

Glycosylase

5’ 3’

DNA ligase IIIXRCCI

Polβ

DNA ligase IIIXRCCI

APendo + Polβ APlyase

APendo + Polδ/ε

A B

DNA ligase I

FEN1/PCNA

Polδ,β/PCNA

APendo

C

Base excision repair

A via de “mismatch repair”

MMR em eucariotos é bastante similar a via procariótica

O reparo de quebras de fita dupla de DNA pode usar duas vias:

1. Via recombinacional (fiel)

2. Via nao-homologa (mutagenica)

O reparo de “cross-links” utiliza componentes de varias vias de reparo:

Lesoes no DNA ativam uma robusta resposta de sinalizacao celular

•Cancer

•Sindromes de fotosensibilidade

•Sindromes de envelhecimento precoce

•Neurodegeneracao

•Sindromes imunes e inflamatorias

•Envelhecimento normal