HN1L promotes migration and invasion of breast cancer by up-regulating the expression of HMGB1

Recent reports showed that haematological and neurological expressed 1-like (HN1L) gene participated in tumorigenesis and tumour invasion. However, the expression and role of HN1L in breast cancer remain to be investigated. Here, bioinformatics, western blot and immunohistochemistry were used to detect the expression of HN1L in breast cancer. Wound healing, transwell assay, immunofluorescence assay and mass spectrum were used to explore the role and mechanism of HN1L on the migration and invasion of breast cancer, which was confirmed in vivo using a nude mice model. Results showed that HN1L was significantly over-expressed in breast cancer tissues, which was positively correlated with M metastasis of breast cancer patients. Silencing HN1L significantly inhibited the invasion and metastasis of breast cancer cells in vitro and lung metastasis in nude mice metastasis model of breast cancer. Mechanistically, HN1L interacted with HSPA9 and affected the expression of HMGB1, playing a key role in promoting the invasion and metastasis of breast cancer cell. These results suggested that HN1L was an appealing drug target for breast cancer.     

Hydrogen sulphide reduces hyperhomocysteinaemia-induced endothelial ER stress by sulfhydrating protein disulphide isomerase to attenuate atherosclerosis

Hyperhomocysteinaemia (HHcy)-impaired endothelial dysfunction including endoplasmic reticulum (ER) stress plays a crucial role in atherogenesis. Hydrogen sulphide (H₂S), a metabolic production of Hcy and gasotransmitter, exhibits preventing cardiovascular damages induced by HHcy by reducing ER stress, but the underlying mechanism is unclear. Here, we made an atherosclerosis with HHcy mice model by ApoE knockout mice and feeding Pagien diet and drinking L-methionine water. H₂S donors NaHS and GYY4137 treatment lowered plaque area and ER stress in this model. Protein disulphide isomerase (PDI), a modulation protein folding key enzyme, was up-regulated in plaque and reduced by H₂S treatment. In cultured human aortic endothelial cells, Hcy dose and time dependently elevated PDI expression, but inhibited its activity, and which were rescued by H₂S. H₂S and its endogenous generation key enzyme-cystathionine γ lyase induced a new post-translational modification-sulfhydration of PDI. Sulfhydrated PDI enhanced its activity, and two cysteine-terminal CXXC domain of PDI was identified by site mutation. HHcy lowered PDI sulfhydration association ER stress, and H₂S rescued it but this effect was blocked by cysteine site mutation. Conclusively, we demonstrated that H₂S sulfhydrated PDI and enhanced its activity, reducing HHcy-induced endothelial ER stress to attenuate atherosclerosis development.     

Cancer spheroids derived exosomes reveal more molecular features relevant to progressed cancer

Cancer cell spheroids have been shown to be more physiologically relevant to native tumor tissue than monolayer 2D culture cells. Due to enhanced intercellular communications among cells in spheroids, spheroid secreted exosomes which account for transcellular transportation should exceed those from 2D cell culture and may display a different expression pattern of miRNA or protein. To test this, we employed a widely used pancreatic cancer cell line, PANC-1, to create 3D spheroids and compared exosomes generated by both 2D cell culture and 3D PANC-1 spheroids. We further measured and compared exosomal miRNA and GPC-1 protein expression with qRT-PCR and enzyme-linked immunosorbent assay, respectively. It showed that PANC-1 cells cultured in 3D spheroids can produce significantly more exosomes than PANC-1 2D cells and exosomal miRNA and GPC-1 expression derived from spheroids show more features relevant to the progression of pancreatic cancer. These findings point to the potential importance of using spheroids as in vitro model to study cancer development and progression.     

The relation of oxidative stress and apoptosis to histopathologic alterations in the lungs as a result of global cerebral ischemia

ABSTRACT

Heart attack and oxygen deficiency may cause necrosis in the brain and other tissues. We investigated the histopathological effects of nitric oxide (NO) on ischemia/reperfusion in lung and hippocampus using a rat brain bilateral occlusion ischemia model. Male rats were assigned to sham (SH), ischemic preconditioning (PC), global ischemia (GI) and ischemic reperfusion (IR) groups. Before ischemia was induced, blood was drawn to induce hypovolemic hypotension and for blood gas testing. After sacrifice, samples of hippocampus were harvested. Sections were examined using hematoxylin and eosin (H & E) staining and immunostaining using primary antibodies for GFAP, S100β, iNOS, eNOS and the TUNEL method. Following ischemia, we found evidence of gliosis induced oxidative stress and apoptosis in the hippocampus. No significant differences were detected between the SH and PC groups. In the GI and IR groups, apoptosis and necrosis were observed in the hippocampus. Lung sections were stained with H & E and Masson’s trichrome (MT) and immunostained for iNOS and eNOS. The TUNEL method was used to detect apoptosis. Interstitial edema, vascular congestion, intra-alveolar hemorrhage, perivascular edema, neutrophil infiltration and disruption of alveoli were observed after global ischemia and ischemic reperfusion. Inflammatory cells were detected in the connective tissue. The IR and GI groups exhibited significantly more apoptotic cells than the SH or PC groups. Free radicals, such as nitric oxide (NO), that appear following ischemia and reperfusion in the brain may also injure the lungs. Increased NO in both lung and brain tissue suggests that apoptosis in these organs can be induced by reactive nitrogen species.     

A Novel Method for Separation of Caseins from Milk by Phosphates Precipitation

Milk protein of farm animals is difficult to isolate because of the presence of casein micelles, which are hard to separate from whey by using centrifugation or filtration. Insoluble casein micelles also create an obstacle for purification instruments to operate efficiently. The conventional method, to precipitate caseins by lowering pH to 4.6 and then recover the whey fraction for further purification using chromatography techniques, is not applicable to proteins having an isoelectric point similar to caseins. In addition, the acid condition used for casein removal usually leads to significantly poor yields and reduced biological activities. In this study, a novel method of precipitating caseins under neutral or weak acidic conditions is presented. The method employs a phosphate salt and a freeze–thaw procedure to obtain a casein-free whey protein fraction. This fraction contains more than 90% yield with little loss of bioactivity of the target protein, and is readily available for further chromatographic purification. This method was successfully applied to purify recombinant human factor IX and recombinant hirudin from the milk of transgenic pigs in the presented study. It is an efficient pretreatment approach prior to chromatographic purification of milk protein from farm animals and particularly of great value to collect those recombinants secreted from transgenic livestock.     

Morphology and molecular phylogeny of two new species of Spirostrombidium (Ciliophora,Oligotrichia), with a key to the species of Spirostrombidium

Microscopic methods were used to investigate the morphological characterization of two novel oligotrich ciliates, Spirostrombidium paraurceolare sp. nov. and Spirostrombidium faurefremieti sp. nov., isolated from a mangrove wetland in Zhanjiang and an intertidal sandy beach in Qingdao, respectively. Spirostrombidium paraurceolare sp. nov. is characterized by three thigmotactic and 8–10 buccal membranelles, the girdle kinety spiralling around cell with one and a half whorls, and located at right anterior third of dorsal side anteriorly. Spirostrombidium faurefremieti sp. nov. can be recognized by a prominently deep and broad buccal cavity, two thigmotactic and 15–19 buccal membranelles, and the girdle kinety spiralling around cell with two whorls. The small subunit ribosomal RNA genes of these two species were sequenced and compared with those of their congeners to reveal nucleotide differences. Phylogenetic analyses revealed that the genus Spirostrombidium is non-monophyletic. Spirostrombidium faurefremieti sp. nov. falls into a clade comprising most congeners, but Spirostrombidium paraurceolare sp. nov. branches off and groups with Varistrombidium kielum with moderate support. A key to the identification of Spirostrombidium species is also provided.www.zoobank.org/urn:lsid:zoobank.org:pub:AB96BEE6-BE3A-4B95-B75A-3469B1C53ABB2     

Novel Series of [ddN]-[TSAO-T] Heterodimers as Potential Bi-Functional Inhibitors of HIV-1 RT. Studies in the Linker and ddN Region

Abstract

Novel series of [ddN]-(CH₂)_n-[TSAO-T] heterodimers have been prepared and tested for their anti-HIV-1 and HIV-2 activity. The most active compound of this series was the [d4T]-(CH₂)₃-[TSAO-T] heterodimer (EC₅₀ = 0.018 ± 0.03 μM).     

Palladium Catalysis in the Synthesis of 8-Position modified Adenosine, 2′-Deoxyadenosine and Guanosine

Abstract

Adenosine and guanosine analogs with 8-position vinyl and aryl groups were prepared by palladium catalyzed cross-coupling of organostannanes with 8-bromopurine nucleosides. The reaction conditions and catalyst composition were improved so that both vinyl and aryl modifications could be made by a general procedure.     

Ion-current-based Proteomic Profiling of the Retina in a Rat Model of Smith-Lemli-Opitz Syndrome

Smith-Lemli-Opitz syndrome (SLOS) is one of the most common recessive human disorders and is characterized by multiple congenital malformations as well as neurosensory and cognitive abnormalities. A rat model of SLOS has been developed that exhibits progressive retinal degeneration and visual dysfunction; however, the molecular events underlying the degeneration and dysfunction remain poorly understood. Here, we employed a well-controlled, ion-current-based approach to compare retinas from the SLOS rat model to retinas from age- and sex-matched control rats (n = 5/group). Retinas were subjected to detergent extraction and subsequent precipitation and on-pellet-digestion procedures and then were analyzed on a long, heated column (75 cm, with small particles) with a 7-h gradient. The high analytical reproducibility of the overall proteomics procedure enabled reliable expression profiling. In total, 1,259 unique protein groups, ∼40% of which were membrane proteins, were quantified under highly stringent criteria, including a peptide false discovery rate of 0.4%, with high quality ion-current data (e.g. signal-to-noise ratio ≥ 10) obtained independently from at least two unique peptides for each protein. The ion-current-based strategy showed greater quantitative accuracy and reproducibility over a parallel spectral counting analysis. Statistically significant alterations of 101 proteins were observed; these proteins are implicated in a variety of biological processes, including lipid metabolism, oxidative stress, cell death, proteolysis, visual transduction, and vesicular/membrane transport, consistent with the features of the associated retinal degeneration in the SLOS model. Selected targets were further validated by Western blot analysis and correlative immunohistochemistry. Importantly, although photoreceptor cell death was validated by TUNEL analysis, Western blot and immunohistochemical analyses suggested a caspase-3-independent pathway. In total, these results provide compelling new evidence implicating molecular changes beyond the initial defect in cholesterol biosynthesis in this retinal degeneration model, and they might have broader implications with respect to the pathobiological mechanism underlying SLOS.Smith-Lemli-Opitz syndrome (SLOS)¹ is an autosomal recessive disorder associated with subnormal growth and failure to thrive, mental retardation and neurosensory deficits, and multiple congenital anomalies, including dysmorphologies (1, 2). Early epidemiological studies estimated the incidence of SLOS as 1 in 20,000 to 1 in 60,000 live births, primarily among Caucasians (1, 2). However, more recent studies suggest that the SLOS carrier frequency is ∼1 in 30 to 1 in 50; this predicts a much higher actual disease frequency, ranging from 1 in 1,590 to 1 in 17,000 (3, 4), making SLOS the fourth most common autosomal recessive human disease (after cystic fibrosis, phenylketonuria, and hemochromatosis). Mutation of the DHCR7 gene is the intrinsic cause of SLOS; this gene encodes the enzyme DHCR7 (3β-hydroxysterol-Δ7-reductase, a.k.a. 7-dehydrocholesterol reductase; EC1.3.1.21), which catalyzes the final step in the cholesterol biosynthetic pathway, reducing the Δ7 double bond and thus converting 7-dehydrocholesterol (7DHC) to cholesterol (4, 5). As a consequence, markedly reduced levels of cholesterol and aberrantly elevated levels of the cholesterol precursor 7DHC (and its epimer, 8DHC) are observed in the majority of affected SLOS patients (6, 7). Therefore, the clinical suspicion of SLOS is confirmed by elevated 7DHC in plasma or tissues, typically demonstrated via chromatographic methods (e.g. HPLC or GC/MS) (8, 9).Visual capacity may become compromised in SLOS patients because of a variety of congenital or postnatal pathologies, such as cataracts, aniridia, corneal endothelium defects, sclerocornea, electrophysiological defects in the retina, optic nerve abnormalities, or other ophthalmologic problems (10, 11). We currently lack full knowledge of the exact pathobiological mechanism underlying SLOS, but additional insights may be afforded by studies employing a rodent model of the disease in which rats are treated with AY9944 (trans-1,4-bis[2-chlorobenzylaminomethyl] cyclohexane dihydrochloride), a relatively selective inhibitor of DHCR7 (12–14). We previously described progressive retinal degeneration in this rat model of SLOS, which is characterized by the shortening of retinal rod outer segments, pyknosis and thinning of the outer nuclear layer (ONL) of the retina (which contains the photoreceptor nuclei), and accumulation of membranous/lipid inclusions in the retinal pigment epithelium (RPE) (12, 13). Reduced rod outer segment membrane fluidity, primarily caused by a dramatic (30 to 40 mol%) decline in docosahexaenoic acid (22:6, n3) levels relative to age-matched controls, also was observed in the SLOS rat model by three postnatal months (15, 16). Retinal function and sterol steady-state in the same rat model of SLOS can be partially rescued using a high-cholesterol diet (2% by weight), although histological degeneration of the retina still occurs (17). However, the molecular mechanisms that underlie the observed electrophysiological defects in the retina, the accumulation of membranous/lipid inclusions in the RPE, the shortening of retinal rod outer segments, and the initiation of ONL pyknosis in the SLOS rat model remain poorly understood. Therefore, a comprehensive profiling of the retinal proteomes of AY9944-treated versus age-matched untreated control rats may contribute to further understanding of the underlying mechanisms responsible for the retinopathy associated with the SLOS model and, by extension, the human disease.Nevertheless, extensive and reliable expression profiling of the retinal proteome remains a prominent challenge, owing to the need to quantify data from multiple animals and a high percentage of integral membrane and membrane-associated proteins (18, 19). Label-free approaches can compare multiple replicates (20–22) with quantitative accuracy comparable to that attained with stable isotope-labeling methods (23–25). However, in order to achieve reliable relative quantification, highly quantitative and reproducible sample preparation and LC/MS analysis are required for relatively large-scale sample cohorts.In the present study, we performed a reproducible, well-controlled, ion-current-based comparative proteomic analysis of the retinas from AY9944-treated versus age/sex-matched control rats (n = 5 animals per group). A high-concentration detergent mixture was used for the efficient extraction of proteins from retinas, and samples then underwent a reproducible precipitation/on-pellet-digestion procedure and long-column, 7-h nano-LC-MS analysis. These approaches ensured extensive comparative analysis of retina samples with 10 animals. The preparative and analytical procedures were carefully optimized and controlled to ensure optimal reproducibility. Two label-free approaches, the ion-current-based method and a spectral counting method, were compared in parallel. The altered proteins were subjected to functional annotation, and selected groups of proteins of interest were further validated by means of Western blot and correlative immunohistochemical analysis.