Living organisms belonging to all three domains of life, viz., eubacteria, archaeabacteria, and eukaryotes encode one or more
DNA ligases.
DNA ligases are indispensable in various DNA repair and replication processes and a deficiency or an inhibition of their activity can lead to accumulation of DNA damage and strand breaks. DNA damage, specially strand breaks at unsustainable levels can lead to replication block and/or cell death.
DNA ligases as potential anticancer targets have been realized only recently. There is enough rationale to suggest that
ligases have a tremendous potential for novel
therapeutics including anticancer and antibacterial
therapy, specially when the world is facing acute problems of drug resistance and
chemotherapy failure, with an immediate need for new therapeutic targets. Here, we review the current state of the art in the development of human
ligase inhibitors, their structures, molecular mechanisms, physiological effects, and their potential in future
cancer therapy. Citing examples, we focus on strategies for improving the activity and specificity of existing and novel inhibitors by using structure-based rational approaches. In the end, we describe potential new sites on the
ligase I
protein that can be targeted for the development of novel inhibitors. This is the first comprehensive review to compile all known human
ligase inhibitors and to provide a rationale for the further development of
ligase inhibitors for
cancer therapy.