Cloning, purification, and homology modeling of Histone deacetylase in Leishmania donovani

Neglected diseases, such as leishmaniasis, are still a major health problem in poor countries. To date, there is a severe lack of effective, safe, and affordable treatment for leishmaniasis. Currently, there are very limited chemotherapeutic options, and the development of vaccines is still underway. Hence, novel therapeutic strategies need to be developed against leishmanial parasites. Histone deacetylases (HDACs), silent regulators of many critical pathways, have been validated as potential therapeutic targets in cancer and several parasitic diseases. In the present work, we have isolated and characterized biologically active Zn²⁺-dependent HDAC protein from leishmania that can be studied further as a potential anti-leishmanial drug target to develop new therapies against neglected diseases. The nucleotide sequence of the HDAC gene with no intervening sequence was amplified, cloned in a pET-28a vector, and later transformed into the BL21(DE3) competent E. coli bacterial cells. After transformation, the cells were cultured and induced with 0.6 mM of IPTG to express histidine-tagged HDAC protein (LD_HDAC), which was later purified using nickel affinity chromatography. The approximate protein size confirmed with the help of 10% SDS-PAGE was ~48.0 kDa. The enzymatic assay using the purified protein confirmed it as biologically active. A three dimensional structure of LD_HDAC was modeled using the crystal structure of HDAC2 protein of Homo sapiens (PDB ID: 6G3O). This protein can be utilized for the screening of Leishmania-specific HDAC inhibitors.