Topoisomerases: A Biochemical Overview

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Function

During DNA replication and repair, chromosomes can become entangled. In order to prevent cytotoxic or mutagenic DNA strand breaks, Topoisomerase can disentangle DNA segments and add or remove supercoils. Several different types of Topoisomerase exist, which can be categorized into type I or type II, depending on whether they cut one or two strands of DNA. Both types contain the nucleophilic tyrosine, which is used to promote strand scission. [5]

Type I Mechanisms:

-Type IA and II attach to 5’ ends of DNA, then pass a single stranded segment of DNA through a transient break in a second single strand of DNA

-Type IB and IC attach to 3’ ends of DNA, then nick one DNA strand, which allows one duplex end to rotate around the remaining phosphodiester bond

Type II Mechanism:

Cleave both strands of a duplex DNA strand and pass another duplex DNA strand through the transient break

Disease

When not removed, supercoils within DNA can interfere with normal DNA replication. RNA and DNA hybrids, known as R-loops, can also form as a result of negatively supercoiled DNA. R-loops can also stall both replication and transcription processes and ultimately cause DNA double strand breaks. It follows then that binding of RNA processing factors to prevent RNA from forming R-loops

Genetic mutations that directly impair the function of topoisomerases have correlation to autism spectrum disorders (ASDs) and similar neurological disorders. These genetic mutations cause the elongating of particular genes that are correlated to the expression of ASDs. Specifically, Ube3a is one of hundreds of genes that are associated with the development of ASDs in humans when elongated.

Outside of neurodevelopmental disorders, TOP1 disorders involving autoimmunity are common. Scleroderma, a group of diseases characterized by the production of antibodies that causes the hardening of connective tissues and skin, have been correlated with high levels of TOP1 antibodies produced within patients.

Relevance

Chemical or genetic interference of the mutated topoisomerases has been shown to have profound effects on function. Inhibitors of TOP1, such as topotecan, have been shown to decrease the expression of the elongated genes closely associated with ASDs. Specifically, this can be made true due to the fact that TOP1 is involved in the recruitment of spliceosomes to promote effective transcription, so TOP1 inhibitors directly effect spliceosome stabilization of R-loop formation, which inhibits the elongation and expression of the Ube3a gene.

Structural highlights

The primary structure of TOP1 can be divided into three regions. First, the N-terminus contains 214 amino acids, the core region contains 498 amino acids, and the C-terminus contains 53 amino acids. TOP1 consists of a multitude of various amino acids, but the active site consists of tyrosine residues in the C-terminus.

The secondary structure consists of right-handed alpha helices and antiparallel beta strands, which makes up beta sheets. The enzyme consists of 11 alpha helices and 12 beta strands. The clustering of beta sheets in this particular structure of TOP1 creates 3 beta sheets.

The tertiary structure consists of several motifs and domains. The motifs present are alpha bundles, alpha non-bundles, beta rolls, and beta ribbons. The domain consists of five residues of tyrosine and is a loop-like shape. This loop serves as the active site for the change in conformation, which allows for DNA helices entry.

The oligomeric state of the quaternary structure is heterotetrameric. There is no symmetry in this particular enzyme, due to the presence of various distinct subunits.

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