Macrophage-derived foam cells are a major component of atherosclerotic plaques and have an important role in the progression of atherosclerotic plaques, thus posing a great threat to human health. Photodynamic therapy (PDT) has emerged as a therapeutic strategy for atherosclerosis. Here, we investigated the effect of PDT mediated by upconversion fluorescent nanoparticles encapsulating chlorin e6 (UCNPs-Ce6) on the cholesterol efflux of THP-1 macrophage-derived foam cells and explored the possible mechanism of this effect. First, we found that PDT notably enhanced the cholesterol efflux and the induction of autophagy in both THP-1 and peritoneal macrophage-derived foam cells. The autophagy inhibitor 3-methyladenine and an ATG5 siRNA significantly attenuated PDT-induced autophagy, which subsequently suppressed the ABCA1-mediated cholesterol efflux. Furthermore, the reactive oxygen species (ROS) produced by PDT were responsible for the induction of autophagy, which could be blocked by the ROS inhibitor N-acetyl cysteine (NAC). NAC also reversed the PDT-induced suppression of p-mTOR and p-Akt. Therefore, our findings demonstrate that PDT promotes cholesterol efflux by inducing autophagy, and the autophagy was mediated in part through the ROS/PI3K/Akt/mTOR signaling pathway in THP-1 and peritoneal macrophage-derived foam cells.
Cadmium (Cd) is a heavy metal of high interest to the superfund initiative. Recent epidemiology studies have suggested a possible association between Cd exposure and cognitive as well as olfactory impairments in humans. However, studies in animal models are needed to establish a direct causal relationship between Cd exposure and impairments in cognition and olfaction. This study aims to investigate the toxic effect of Cd on cognition and olfactory function in mice. One group of 8-week-old C57BL/6 male mice was exposed to 3 mg/l Cd (in the form of CdCl2) through drinking water for 20 weeks for behavior tests and final blood Cd concentration analysis. The behavior tests were conducted before, during, and after Cd exposure to analyze the effects of Cd on cognition and olfactory function. Upon completion of behavior tests, blood was collected to measure final blood Cd concentration. Two additional groups of mice were similarly exposed to Cd for 5 or 13 weeks for peak blood Cd concentration measurement. The peak blood Cd concentration was 2.125-2.25 μg/l whereas the final blood Cd concentration was 0.18 μg/l. At this exposure level, Cd impaired hippocampus-dependent learning and memory in novel object location test, T-maze test, and contextual fear memory test. It also caused deficits in short-term olfactory memory and odor-cued olfactory learning and memory. Results in this study demonstrate a direct relationship between Cd exposure and cognitive as well as olfactory impairments in an animal model.
Thioredoxin reductase (TrxR), which is overexpressed in many aggressive cancers, plays a crucial role in redox balance and antioxidant function, including defense of oxidative stress, control of cell proliferation, and regulation of cell apoptosis. Deactivation of TrxR can destroy the homeostasis of the cancer cells, inducing elevation of reactive oxygen species (ROS) levels and the oxidation of enzymatic substrates. Here, we synthesized and identified a new gold(I) small molecule (D9) that possesses two strong electron-donating moieties, i.e., 4-methylphenyl alkynyl and thionyldiphenyl phosphine, exhibiting an enhanced p-π conjunction effect. The resulting compound shows the increased soft Lewis acids and the stability of gold(I). And we demonstrated that D9 could efficiently and specifically inhibit the activity of TrxR in vitro and in vivo, and it could effectively avoid the ligand exchange with albumin that was one of the most abundant proteins in blood. We believe that these comprehensive studies on the relationship between the structure and performance will provide inspiring information on the precise synthesis and design of new compounds for targeting TrxR.
Microcystin-LR (MCLR) is one of the most common and most toxic members of the microcystins, which cause serious environmental disasters worldwide. Although the major toxicity of MCLR has been ascribed to its potent ability to inhibit protein phosphatase 1 and protein phosphatase 2A (PP2A), recent studies have suggested that MCLR may also perturb other important cellular processes, such as generation of ceramide. Ceramide is an essential second messenger in cells and regulates various cellular mechanisms, including PP2A activation and cytoskeleton destabilization. However, whether and how ceramide may mediate MCLR-induced cellular effects is unclear. We have previously reported that low concentrations of MCLR upregulate, rather than inhibit, PP2A activity in human embryonic kidney 293 (HEK293) cells. In this study, we provide evidence that MCLR induces ceramide generation in HEK293 cells and in mouse kidney. Furthermore, ceramide may mediate the MCLR-induced upregulation of PP2A activity and protein level of PP2A regulatory subunits in HEK293 cells. MCLR intoxication also causes the PP2A/B55α subunit to localize to the Golgi apparatus, and this process may also be mediated by ceramide. Importantly, ceramide may mediate cytoskeleton destabilization, cell detachment, and apoptosis induced by MCLR in HEK293 cells, whereas a ceramide synthase inhibitor, desipramine, protects cells from these changes. Our results suggest that ceramide may mediate MCLR-induced PP2A regulation and cytoskeleton destabilization.
In this study, electrospun poly(vinyl alcohol) (PVA) microfibre mats incorporated with clove oil (CO) with high water-stability and water absorption ability were prepared through a heat-induced in situ cross-linkage with citric acid (CA). The effects of CA content on the electrospinning solution properties and physical properties of the crosslinked microfibre mats were investigated. The Fourier transform infrared spectroscopy showed that the esterification could occur between hydroxyl groups on the PVA and carboxyl groups on citric acid. The established strong interactions of citric acid and PVA after crosslinking improved the thermal stability, mechanical properties, contact angle, and water stability. The bacterial growth kinetics and the disk diffusion assay proved that the PVA/CA/CO microfibre mats had an obvious inhibitory effect on E. coli and S. aureus. The results showed the PVA/CA/CO microfibre mats would be a promising package material for food products.
Cadmium (Cd) is a heavy metal of great public health concern. Recent studies suggested a link between Cd exposure and cognitive decline in humans. The ε4 allele, compared with the common ε3 allele, of the human apolipoprotein E gene (ApoE) is associated with accelerated cognitive decline and increased risks for Alzheimer’s disease (AD). To investigate the gene-environment interactions (GxE) between ApoE-ε4 and Cd exposure on cognition, we used a mouse model of AD that expresses human ApoE-ε3 (ApoE3-KI [knock-in]) or ApoE-ε4 (ApoE4-KI). Mice were exposed to 0.6 mg/l CdCl2 through drinking water for 14 weeks and assessed for hippocampus-dependent memory. A separate cohort was sacrificed immediately after exposure and used for Cd measurements and immunostaining. The peak blood Cd was 0.3–0.4 µg/l, within levels found in the U.S. general population. All Cd-treated animals exhibited spatial working memory deficits in the novel object location test. This deficit manifested earlier in ApoE4-KI mice than in ApoE3-KI within the same sex and earlier in males than females within the same genotype. ApoE4-KI but not ApoE3-KI mice exhibited reduced spontaneous alternation later in life in the T-maze test. Finally, Cd exposure impaired neuronal differentiation of adult-born neurons in the hippocampus of male ApoE4-KI mice. These data suggest that a GxE between ApoE4 and Cd exposure leads to accelerated cognitive impairment and that impaired adult hippocampal neurogenesis may be one of the underlying mechanisms. Furthermore, male mice were more susceptible than female mice to this GxE effect when animals were young.
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