Luotonin A is a pyrroloquinazolinoquinoline alkaloid isolated from the Chinese herbal medicinal plant Peganum nigellastrum. Although previously shown to exhibit cytotoxicity against the murine leukemia P-388 cell line, the mechanism of action of luotonin A is unknown. Presently, we demonstrate that luotonin A stabilizes the human DNA topoisomerase I-DNA covalent binary complex, affording the same pattern of cleavage as the structurally related topoisomerase I inhibitor camptothecin. Luotonin A also mediated topoisomerase I-dependent cytotoxicity toward Saccharyomyces cerevisiae lacking yeast topoisomerase I, but harboring a plasmid having the human topoisomerase I gene under the control of a galactose promoter. This finding identifies a putative biochemical locus for the cytotoxic action of luotonin A and has important implications for the mechanism of action of camptothecin and the design of camptothecin analogues.
PurposeEpidemiologic studies exploring causal associations between serum lipids and breast cancer risk have reported contradictory results. We conducted a meta-analysis of prospective cohort studies to evaluate these associations.MethodsRelevant studies were identified by searching PubMed and EMBASE through April 2015. We included prospective cohort studies that reported relative risk (RR) estimates with 95% confidence intervals (CIs) for the associations of specific lipid components (i.e., total cholesterol [TC], high-density lipoprotein cholesterol [HDL-C], low-density lipoprotein cholesterol [LDL-C], and triglycerides [TG]) with breast cancer risk. Either a fixed- or a random-effects model was used to calculate pooled RRs.ResultsFifteen prospective cohort studies involving 1,189,635 participants and 23,369 breast cancer cases were included in the meta-analysis. The pooled RRs of breast cancer for the highest versus lowest categories were 0.96 (95% CI: 0.86–1.07) for TC, 0.92 (95% CI: 0.73–1.16) for HDL-C, 0.90 (95% CI: 0.77–1.06) for LDL-C, and 0.93 (95% CI: 0.86–1.00) for TG. Notably, for HDL-C, a significant reduction of breast cancer risk was observed among postmenopausal women (RR = 0.77, 95% CI: 0.64–0.93) but not among premenopausal women. Similar trends of the associations were observed in the dose-response analysis.ConclusionsOur findings suggest that serum levels of TG but not TC and LDL-C may be inversely associated with breast cancer risk. Serum HDL-C may also protect against breast carcinogenesis among postmenopausal women.
cTo evaluate vaccine efficacy in protecting against coxsackievirus A16 (CA16), which causes human hand, foot, and mouth disease (HFMD), we established the first neonatal mouse model. In this article, we report data concerning CA16-induced pathological changes, and we demonstrate that anti-CA16 antibody can protect mice against lethal challenge and that the neonatal mouse model could be used to evaluate vaccine efficacy. To establish a mouse model, a BJCA08/CA16 strain (at 260 50% lethal doses [LD 50 ]) was isolated from a patient and used to intracerebrally (i.c.) inoculate neonatal mice. The infection resulted in wasting, hind-limb paralysis, and even death. Pathological examination and immunohistochemistry (IHC) staining indicated that BJCA08 had a strong tropism to muscle and caused severe necrosis in skeletal and cardiac muscles. We then found that BJCA08 pretreated with goat anti-G10/CA16 serum could significantly lose its lethal effect in neonatal mice. When the anti-G10 serum was intraperitoneally (i.p.) injected into the neonatal mice and, within 1 h, the same mice were intracerebrally inoculated with BJCA08, there was significant passive immunization protection. In a separate experiment, female mice were immunized with formaldehyde-inactivated G10/CA16 and BJCA08/CA16 and then allowed to mate 1 h after the first immunization. We found that there was significant protection against BJCA08 for neonatal mice born to the immunized dams. These data demonstrated that anti-CA16 antibody may block virus invasion and protect mice against lethal challenge, and that the neonatal mouse model was a viable tool for evaluating vaccine efficacy. C oxsackievirus A16 (CA16) belongs to the Enterovirus genus of the Picornaviridae family and is one of the major pathogens associated with human hand, foot, and mouth disease (HFMD) (4,16,19). CA16 was first isolated in 1951 (43). It is a single positive-stranded RNA virus and has an icosahedral symmetry structure. Its genome has approximately 7,410 nucleotides with one predominant serotype. Based on the VP4 nucleotide sequences, CA16 is classified into three distinct genetic lineages: A, B, and C. Before the 1990s, lineages A and B were the major epidemic strains in Asia (predominantly the B strain). After that, the CA16 gene gradually mutated to form lineage C, which replaced the B strain as the predominant epidemic strain (22).Epidemics of HFMD have been reported in England, Australia, Japan, Germany, Malaysia, Singapore, mainland China, and Taiwan (2,4,11,19,23,27,32,38,41,48). Recently, HFMD was highly epidemical in the west Pacific region, resulting in severe illness and fatalities (15, 23). The HFMD epidemics were mainly caused by CA16 and human enterovirus 71 (EV71), which circulated alternatively or together in the epidemic area (19,22,23,25,37). Because the most severe or fatal cases were caused by EV71, studies have mainly focused on EV71 but not CA16. However, in England, the largest HFMD outbreak (in 1994) was caused by CA16 (2). Similarly, in Taiwan the leading cau...
The leucine-rich repeat kinase 2 (LRRK2) gene and α-synuclein gene (SNCA) are the key influencing factors of Parkinson's disease (PD). It is reported that dysfunction of LRRK2 may influence the accumulation of α-synuclein and its pathology to alter cellular functions and signaling pathways by the kinase activation of LRRK2. The accumulation of α-synuclein is one of the main stimulants of microglial activation. Microglia are macrophages that reside in the brain, and activation of microglia is believed to contribute to neuroinflammation and neuronal death in PD. Therefore, clarifying the complex relationship among LRRK2, α-synuclein and microglials could offer targeted clinical therapies for PD. Here, we provide an updated review focused on the discussion of the evidence supporting some of the key mechanisms that are important for LRRK2-dependent neurodegeneration in PD.
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