Human bleomycin hydrolase (hBH) catalyzes deamidation of the anticancer drug bleomycins (BLM). This enzyme is involved in BLM detoxification and drug resistance. Herein, we report the putative BLM-binding site and catalytic mechanism of hBH. The crystal structures and biochemical studies suggest that hBH cleaves its C-terminal residue without significant preference for the type of amino acid, and therefore can accordingly accommodate the β-aminoalanine amide moiety of BLM for deamidation. Interestingly, hBH is capable of switching from a cysteine protease to a serine protease that is unable to cleave the secondary amide of hBH C-terminus but reacts with the primary amide of BLMs.
Bleomycins (BLMs) are widely used
in clinics as antitumor agents.
However, BLM-based chemotherapies often accompany severe pulmonary
fibrosis (PF). Human bleomycin hydrolase is a cysteine protease that
can convert BLMs into inactive deamido-BLMs. In this study, mannose-modified
hierarchically porous UiO-66 (MHP-UiO-66) nanoparticles (NPs) were
used to encapsulate the recombinant human bleomycin hydrolase (rhBLMH).
When rhBLMH@MHP-UiO-66 was intratracheally instilled into the lungs,
the NPs were transported into the epithelial cells, and rhBLMH prevented
the lungs from PF during BLM-based chemotherapies. Encapsulation of
rhBLMH in the MHP-UiO-66 NPs protects the enzyme from proteolysis
in physiological conditions and enhances cellular uptake. In addition,
the MHP-UiO-66 NPs significantly enhance the pulmonary accumulation
of intratracheally instilled rhBLMH, thus providing more efficient
protection of the lungs against BLMs during the chemotherapies.
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