Huixue Liu scite author profile

In order to explore the role of mitochondria in proliferation promotion and/or apoptosis induction of lanthanum, the mutual influences between La3+ and Ca2+ on mitochondrial permeability transition pore (PTP) opening were investigated with isolated mitochondria from rat liver. The experimental results revealed that La3+ influence the state of mitochondria in a concentration-dependent biphasic manner. La3+ in nanomolar concentrations, acting as a Ca2+ analog, entered mitochondrial matrix via the RuR sensitive Ca2+ channel and elevated ROS level, leading to opening of PTP indicated by mitochondrial swelling, reduction of ΔΨm and cytochrome c release. Inhibition of PTP with 10 μM CsA attenuated the effects of La3+. However, micromolar concentrations La3+ acted mainly as a Ca2+ antagonist, inhibiting PTP opening induced by Ca2+. We postulated that this action of La3+ on mitochondria through interaction with Ca2+ might be involved in the proliferation-promoting and apoptosis induction by La3?.

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High‐Performance Respiration‐Based Biocell Using Artificial Nanochannel Regulation

Zhang

Chen

et al. 2017

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Based on electron and proton transfer events occurring in biological respiration, a mitochondria-based biocell is constructed by combining with artificial nanochannels. In this biocell, mitochondria transfer electrons to the working electrode and pump protons into the electrolyte through the tricarboxylic acid cycle. The nanochannels provide passages for protons to transport along the transmembrane concentration gradient to consume electrons on the counter electrode, forming a continuous and stable current. Furthermore, the proton transmembrane transport behavior could be modulated by regulating the permeability area and surface charge of nanochannels. A high-performance biocell is obtained when equipped with the optimized nanochannels, which produces a current of ≈3.1 mA cm , a maximum power of ≈0.91 mW cm , and a lifetime over 60 h. This respiratory-based biocell shows great potential for the efficient utilization of bioelectricity.

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Huixue Liu

Vanadium compounds induced mitochondria permeability transition pore (PTP) opening related to oxidative stress

La3+, Gd3+ and Yb3+ induced changes in mitochondrial structure, membrane permeability, cytochrome c release and intracellular ROS level

Gadolinium induced apoptosis of human embryo liver L02 cell line by ROS-mediated AIF pathway

Duality of effect of La3+ on mitochondrial permeability transition pore depending on the concentration

High‐Performance Respiration‐Based Biocell Using Artificial Nanochannel Regulation

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