Decitabine is used to treat myelodysplastic syndromes including previously treated and untreated, de novo and secondary MDS of all French-American-British subtypes and Intermediate-1, Intermediate-2, and High-Risk International Prognostic Scoring System groups. In patients with chronic kidney disease, Batty and colleagues reported the first case series on the feasibility of therapy with hypomethylating agents in patients with chronic kidney disease. It also has EU approval for acute myeloid leukemia.
Pharmacology
Decitabine is a hypomethylating agent. It hypomethylates DNA by inhibiting DNA methyltransferase. It functions in a similar manner to azacitidine, although decitabine can only be incorporated into DNA strands while azacitidine can be incorporated into both DNA and RNA chains. It incorporates into DNA strands upon replication, and then when DNA methyltransferases such as DNMT1, are engaged to bind the DNA and to replicate the methylation to the daughter strand, DNMTs are bound to decitabine irreversibly and cannot disengage. Therefore, the action of decitabine is division-dependent, meaning the cells have to divide in order for the pharmaceutical to act. Therefore, cancer cells which divide much more rapidly than most other cells in the body will be more severely affected by decitabine just because they replicate more. In cancer cells, and more specifically in haematological malignancies, it seems that DNA hypermethylation is really critical for their development. Methylation of CpG islands upstream of tumor suppressor genes in order to silence them seems to be critical for these type of cancers. Thus at optimal doses, decitabine blocks this type of methylation and has an anti-neoplastic effect.
Research – atherosclerosis
A number of investigators have shown a relationship between atherosclerosis and disturbed blood flow. This upregulates DNA methyltransferase expression, which leads to genome-wide DNA methylation alterations and global gene expression changes. These studies have revealed several mechanosensitive genes, such as HoxA5, Klf3, and Klf4, whose promoters were hypermethylated by disturbed blood flow, but rescued by DNA methyltransferases inhibitors such as 5-aza-2'-deoxycytidine. It has been found that use of this DNA methyltranferase inhibitor prevents atherosclerosis lesion formation and reduces the production of inflammatory cytokines by macrophages.
