👤 Hu Zhou

Aminotriazole (ATZ) is commonly used as a catalase (CAT) inhibitor. We previously found ATZ attenuated oxidative liver injury, but the underlying mechanisms remain unknown. Acetaminophen (APAP) overdose frequently induces life-threatening oxidative hepatitis. In the present study, the potential hepatoprotective effects of ATZ on oxidative liver injury and the underlying mechanisms were further investigated in a mouse model with APAP poisoning. The experimental data indicated that pretreatment with ATZ dose- and time-dependently suppressed the elevation of plasma aminotransferases in APAP exposed mice, these effects were accompanied with alleviated histological abnormality and improved survival rate of APAP-challenged mice. In mice exposed to APAP, ATZ pretreatment decreased the CAT activities, hydrogen peroxide (H2O2) levels, malondialdehyde (MDA) contents, myeloperoxidase (MPO) levels in liver and reduced TNF-α levels in plasma. Pretreatment with ATZ also downregulated APAP-induced cytochrome P450 2E1 (CYP2E1) expression and JNK phosphorylation. In addition, posttreatment with ATZ after APAP challenge decreased the levels of plasma aminotransferases and increased the survival rate of experimental animals. Posttreatment with ATZ had no effects on CYP2E1 expression or JNK phosphorylation, but it significantly decreased the levels of plasma TNF-α. Our data indicated that the LD50 of ATZ in mice was 5367.4 mg/kg body weight, which is much higher than the therapeutic dose of ATZ in the present study. These data suggested that ATZ might be effective and safe in protect mice against APAP-induced hepatotoxicity, the beneficial effects might resulted from downregulation of CYP2E1 and inhibiton of inflammation. Show less

Current precious-metal-containing anticancer agents are mostly chelated with N-containing ligands and function by interacting with DNA. In the present study, Pd(acac)2, a Pd(II) complex containing four O-donor ligands, has been evaluated as an active anticancer agent. Pd(acac)2 showed no interaction with N-ligand-containing DNA and the S-ligand-containing DMSO, probably because of the two six-member chelate rings that limit the release of the central Pd nuclei to bind to other ligands. Importantly, we found that Pd(acac)2 exhibited better growth inhibitory effects than cisplatin in several cancer cells. Treatment with Pd(acac)2 significantly induced apoptosis in H460 cells. Mechanistically, Pd(acac)2 induced the activation of a series of key components in ER stress-mediated apoptotic pathway, followed by caspase cleavage and activation, while cisplatin showed no similar effects. CHOP knockdown by specific siRNA significantly attenuated Pd(acac)2-induced cell apoptosis. Finally, Pd(acac)2 significantly inhibits H460 cell growth in xenograft mouse models. Taken together, these mechanistic insights on Pd(acac)2 provide us with a novel mechanism and strategy for the development of precious-metal-based anticancer drugs. Show less

Z-DNA, an active element in genome, has drawn intense interest in chemical and biological field. Its dynamic and transient state makes it challenging to target and regulate. Thus, stabilizing and inducing Z-DNA both in vitro and in vivo is essential, so far, much many efforts have been made in these aspects. However, Z-DNA's induction and stabilization are always performed in high salt condition and sequence-dependent, limited inducers or stabilizers have been achieved with breakthrough in the aspects of real physiological condition and sequence-independence. Herein, we give a review of some typical kinds of Z-DNA inducers and stabilizers, discussing their inducing or stabilizing condition, mechanism, structural relationship and their limitation as well, attempted to get some implication and guidance for Z-DNA inducer or stabilizer design. Show less