Mesenchymal stem cells (MSCs), cultured ex vivo, recently were shown to be able to migrate into sites of brain injuries when transplanted systemically or locally, suggesting that MSCs possess migratory capacity. However, the mechanisms underlying the migration of these cells remain unclear. In this study, we examined the role of some chemokines and their receptors in the trafficking of rat MSCs (rMSCs) in a rat model of left hypoglossal nerve injury. rMSCs transplanted into the lateral ventricles of the rat brain migrated to the avulsed hypoglossal nucleus, where the expression of chemokines, stromal-cell-derived factor 1 (SDF-1), and fractalkine was observed to be increased. This increase temporally paralleled the migration of rMSCs into the avulsed nucleus at 1 and 2 weeks after operation. It has been found that rMSCs express CXCR4 and CX 3 CR1, the respective receptors for SDF-1 and fractalkine, and other chemokine receptors, CCR2 and CCR5. Furthermore, in vitro analysis revealed that recombinant human SDF-1 alpha (rhSDF-1α α) and recombinant rat fractalkine (rrfractalkine) induced the migration of rMSCs in a Gprotein-dependent manner. Intracerebral injection of rhSDF-1α α has also been shown to stimulate the homing of transplanted rMSCs to the site of injection in the brain. These data suggest that the interactions of fractalkine-CX 3 CR1 and SDF-1-CXCR4 could partially mediate the trafficking of transplanted rMSCs. This study provides an important insight into the understanding of the mechanisms governing the trafficking of transplanted rMSCs and also significantly expands the potential role of MSCs in cell therapy for brain injuries and diseases.
Heat shock protein 70 (Hsp70) protects cultured motor neurons from the toxic effects of mutations in Cu/Zn-superoxide dismutase (SOD-1), which is responsible for a familial form of the disease, amyotrophic lateral sclerosis (ALS). Here, the endogenous heat shock response of motor neurons was investigated to determine whether a high threshold for activating this protective mechanism contributes to their vulnerability to stresses associated with ALS. When heat shocked, cultured motor neurons failed to express Hsp70 or transactivate a green fluorescent protein reporter gene driven by the Hsp70 promoter, although Hsp70 was induced in glial cells. No increase in Hsp70 occurred in motor neurons after exposure to excitotoxic glutamate or expression of mutant SOD-1 with a glycine--> alanine substitution at residue 93 (G93A), nor was Hsp70 increased in spinal cords of G93A SOD-1 transgenic mice or sporadic or familial ALS patients. In contrast, strong Hsp70 induction occurred in motor neurons with expression of a constitutively active form of heat shock transcription factor (HSF)-1 or when proteasome activity was sufficiently inhibited to induce accumulation of an alternative transcription factor HSF2. These results indicate that the high threshold for induction of the stress response in motor neurons stems from an impaired ability to activate the main heat shock-stress sensor, HSF1.
Community‐acquired pneumonia (CAP) in adults is an infectious disease with high morbidity in China and the rest of the world. With the changing pattern in the etiological profile of CAP and advances in medical techniques in diagnosis and treatment over time, Chinese Thoracic Society of Chinese Medical Association updated its CAP guideline in 2016 to address the standard management of CAP in Chinese adults. Extensive and comprehensive literature search was made to collect the data and evidence for experts to review and evaluate the level of evidence. Corresponding recommendations are provided appropriately based on the level of evidence. This updated guideline covers comprehensive topics on CAP, including aetiology, antimicrobial resistance profile, diagnosis, empirical and targeted treatments, adjunctive and supportive therapies, as well as prophylaxis. The recommendations may help clinicians manage CAP patients more effectively and efficiently. CAP in pediatric patients and immunocompromised adults is beyond the scope of this guideline. This guideline is only applicable for the immunocompetent CAP patients aged 18 years and older. The recommendations on selection of antimicrobial agents and the dosing regimens are not mandatory. The clinicians are recommended to prescribe and adjust antimicrobial therapies primarily based on their local etiological profile and results of susceptibility testing, with reference to this guideline.
Respiratory syncytial virus (RSV) preferentially infects respiratory epithelium and is an important cause of lower respiratory tract infections in young children. RSV induces the production of interleukin (IL)-8 in airway epithelial cells; however, the mechanism of this induction is not known. To define the mechanism by which RSV induces IL-8 gene activation, A549 epithelial cells were transfected with plasmids containing serial deletions of the 5'-flanking region of the IL-8 gene and then exposed to RSV for 24 h. A positive cooperative effect of the binding sites for the transcription factors, nuclear factor (NF)-kappa B and NF-IL-6, was observed. Mutations in either region abates responsiveness of the promoter to RSV infection. RSV also increases activation of the NF-kappa B and NF-IL-6 transcription factors. These data suggest that RSV may increase IL-8 production in airway epithelium partly via activation of the transcription factors NF-kappa B and NF-IL-6.
Because transgenic mice expressing an altered stoichiometry of neurofilament proteins develop a motor neuron degeneration associated with neurofilamentous aggregate formation similar to that found in amyotrophic lateral sclerosis (ALS), we studied the expression of intermediate filament proteins in sporadic ALS. Archival cervical spinal cord paraffin-embedded sections from 11 disease and 11 control cases were studied by either in situ hybridization using 35S-labeled riboprobes or immunohistochemically using specific antibodies for the individual neurofilament subunit proteins, alpha-internexin, nestin, peripherin, vimentin, beta-actin, or Talpha1-tubulin. Median NFL, alpha-internexin, and peripherin steady-state mRNA levels were significantly reduced in the lateral motor neuron cell column (p < 0.05) of ALS cases, while neither NFM nor NFH mRNA levels were altered. ALS cases demonstrated an elevation of beta-actin mRNA levels (p < 0.01) with no increase in Talpha1-tubulin mRNA levels. No motor neuronal expression of nestin or vimentin was observed. Ubiquitin-immunoreactive perikaryal aggregates were immunoreactive for NFH or beta-actin, but not for peripherin, alpha-internexin, vimentin, or nestin. In contrast, neuroaxonal spheroids were strongly immunoreactive for NFH and peripherin, but not for beta-actin, alpha-internexin, vimentin, or nestin. These findings suggest that the stoichiometry of cytoskeletal protein expression in ALS spinal motor neurons is significantly altered in a pattern conducive to the formation of neurofilamentous aggregates.
In this article, we report a novel lectin-based biosensor for electrochemical assay of cancer-associated glycosylation by comparative study of mannose and sialic acid expression on normal and cancer cells derived from human lung, liver, and prostate. Using a sandwich format, high sensitivity and selectivity were achieved by combining the lectin-based biosensor with the {lectin-Au-Th} bioconjugates featuring lectin and thionine (Th) labels linked to gold nanoparticles (AuNPs) for signal amplification. The proposed strategy demonstrated that mannose exhibited high expression levels in both normal and cancer cells, while sialic acid was more abundant in cancer cells as compared to normal ones. The results were in good agreement with those from fluorescent microscopy studies. The differences in the two glycan expression indicated that sialic acid could serve as a potential biomarker for early cancer detection. The lectin-based biosensor was also successfully used to quantify cancer cells and evaluate the average amount of sialic acid on single cell surface, which could supply significant information on glycan functions in cancer progression. Overall, the lectin-based electrochemical biosensor provides an effective pathway to analyze glycan expression on living cells and may greatly facilitate the medical diagnosis and treatment in early process of cancer.
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