LC/MS analysis of complex multiglycosylated human α1-acid glycoprotein as a model for developing identification and quantitation methods for intact glycopeptide analysis

The site-specific characterization of the complex glycans in multiglycosylated proteins requires developing methods where the carbohydrates remain covalently bound to the protein. The complexity in the carbohydrate composition of α₁-acid glycoprotein (AAG) makes it an ideal model protein for such development. AAG has five N-asparaginyl-linked glycosylation sites, each varying in its bi-, tri-, and tetraantennary glycan content. We present an on-line liquid chromatography/mass spectrometry (LC/MS) method that uses high-low cone voltage switching for in-source fragmentation to determine the structures of the complex glycans present on each site for the two gene products of AAG. High cone voltage caused carbohydrate fragmentation, leading to the generation of signature carbohydrate ions that we used as markers to identify the glycopeptides. Low cone voltage produced minimal carbohydrate fragmentation and enabled the identification and quantification of the intact oligosaccharide structures on each glycopeptide based on its monoisotopic mass and intensity. Quantitation was accomplished by using the intensities of peaks from deconvoluted and deisotoped mass spectra or from the areas of the extracted ion chromatograms from the tryptic peptide maps. The combined results from the two methods can be used to better characterize and quantitate site heterogeneity in multiglycosylated proteins.     

Links between Schwann cells and melanocytes in development and disease

Melanocytes are pigment‐producing cells that reside in the skin, eyes, ears, heart, and central nervous system meninges of mammals. Schwann cells are glial cells, which closely associate with peripheral nerves, myelinating, and sheathing them. Melanocytes and Schwann cells both arise from the neural crest during development, and some melanocytes arise directly from Schwann cell precursors lining developing spinal nerves. In this review, we explore the connections between melanocytes and Schwann cells in development and transformation.     

Manganese increases high mannose glycoform on monoclonal antibody expressed in CHO when glucose is absent or limiting: Implications for use of alternate sugars

Alternate sugars such as galactose and fructose are metabolized at a slower rate than glucose and result in lower accumulation of lactate. While low lactate accumulation is desirable, we report that complete substitution of glucose with these sugars results in an increase in M5 high mannose glycans. Surprisingly, this increase is much higher when the culture is supplemented with manganese: for example, when cells are cultured with galactose, M5 high mannose glycan content increased from 5% at 1 nM Mn²⁺ in the basal medium to 32% with 16 µM Mn²⁺ supplementation. When galactose is supplemented with glucose maintained at low concentrations, a small reduction in high mannose glycans is seen. In control cultures with glucose, the high mannose content was however <2% in this range of Mn²⁺ concentration. By varying Mn²⁺ and glucose supplementation levels, with or without galactose, we systematically demonstrate that Mn²⁺ concentration and glucose availability, together, significantly affect the high mannose glycan content. To our knowledge, this is the first report that shows that the effect of Mn²⁺ on high mannose glycan content depends on glucose availability. At each Mn²⁺ supplementation level evaluated, galactosylation percentages were highest for cultures where galactose was supplemented with glucose at non‐limiting concentration. © 2014 American Institute of Chemical Engineers Biotechnol. Prog., 31:460–467, 2015     

RNA interference mediated inhibition of Chikungunya virus replication in mammalian cells

Chikungunya has emerged as one of the most important arboviral infection of public health significance. Recently several parts of Indian Ocean islands and India witnessed explosive, unprecedented epidemic. So far, there is no effective antiviral or licensed vaccine available against Chikungunya infection. RNA interference mediated inhibition of viral replication has emerged as a promising antiviral strategy. In this study, we examined the effectiveness of small interfering RNAs (siRNAs) against the inhibition of Chikungunya virus replication in Vero cells. Two siRNAs against the conserved regions of nsP3 and E1 genes of Chikungunya virus were designed. The siRNA activity was assessed by detecting both the infectious virus and its genome. The results indicated a reduction of virus titer up to 99.6% in siRNA transfected cells compared to control. The viral inhibition was most significant at 24 h (99%), followed by 48 h (65%) post infection. These results were also supported by the quantitative RT-PCR assay revealing similar reduction in Chikungunya viral genomic RNA. The siRNAs used had no effect on the expression of house keeping gene indicating non-interference in cellular mechanism. The specific and marked reduction in viral replication against rapidly replicating Chikungunya virus achieved in this study offers a potential new therapeutic approach. This is the first report demonstrating the effectiveness of siRNA against in vitro replication of Chikungunya virus.     

Lentiviral mediated transgenesis by in vivo manipulation of spermatogonial stem cells

This report describes a technique for the generation of transgenic mice by in vivo manipulation of spermatogonial stem cells with a high rate of success. Spermatogonial stem cells (SSCs) in pre-pubescent animals were infected in vivo with recombinant lentiviruses expressing EGFP-f and mated with normal females. All male pre-founder mice produced transgenic pups with an overall success rate of over 60%. The transgene was heritable and the pre-founder mice could be used in multiple mating experiments. This technology could be used to perform overexpression/knockdown screens in vivo using bar-coded lentiviruses, thus permitting the design of genetic screens in the mouse. Further, this technology could be adapted to other laboratory animals resulting in the generation of model systems that closely approximate human development and disease.     

Proteome of monocytes primed with lipopolysaccharide: analysis of the abundant proteins

We performed a proteomic analysis of monocytes primed by lipopolysaccharide (LPS) in vitro, using two-dimensional gels stained with Coomassie blue. We found 16 proteins of approximately 500 detected that either increased or decreased in abundance as a result of priming by LPS (14 with P 相似文献