Crosslinking of DNA

Crosslinks in DNA occur when various exogenous or endogenous agents react with two different positions in the DNA. This can either occur in the same strand (intrastrand crosslink) or in the opposite strands of the DNA (interstrand crosslink). Crosslinks also occur between DNA and protein. DNA replication is blocked by crosslinks and leads to cell death.

I. Exogenous Cross Linking Agents
Alkylating agents such as 1, 3-bis (2-chloroethyl)-1-nitrosourea (BCNU, Carmustine) and Nitrogen mustard which are used in chemotherapy can cross link with DNA at N7 position of guanine on the opposite strands forming interstrand crosslink [1].

Cisplatin (cis-diamminedichloroplatinum(II) and its derivative forms DNA cross links as monoadduct, interstrand crosslink, intrastrand crosslink or DNA protein crosslink. Mostly it acts on the adjacent N-7 guanine forming 1, 2 intrastrand crosslink [2,3].

II. Endogenous Cross Linking Agents
a) Nitrous acid formed in the stomach dietary source nitrites. It induces formation of interstrand DNA crosslink at aminogroup of exocyclic N2 of guanine at the CG sequences. b) Reactive chemicals such as malondialdehyde which are formed endogenously as the product of lipid peroxidation. They create etheno adducts formed by aldehyde which undergo rearrangements to form crosslinks on opposite strands [4].

Psoralens

Psoralens are natural compounds (furocoumarins) present in plants. These compounds get activated in the presence of UV - A. They form covalent adducts with pyrimidines. Covalent adducts are formed by linking 3, 4 (pyrone) or 4', 5’ (furan) edge of psoralen to 5, 6 double bond of thymine. Psoralens can form two types of monoadducts and one diadduct (an interstrand crosslink) reacting with thymine [5]. The crosslinking reaction by Psoralens targets TA sequences intercalating in DNA and linking one base of the DNA with the one below it. Psoralen adducts cause replication arrest and is used in the treatment of psoriasis and vitiligo.

DNA Protein Crosslink Aldehydes such as acrolein and crotonaldehyde found in tobacco smoke or automotive exhaust can form DNA interstrand crosslinks in DNA. Guanine adducts of DNA can also react with protein. A Schiff base formation between protein and aldehyde causes this DNA protein interstrand link

Formaldehyde (HCHO) induces protein-DNA and protein-protein crosslinks, and is a common reagent of choice for molecular biology experiments.[6] These crosslinks may be reversed by incubation at 70°C.[7]