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- All Subjects: Biochemistry
- Creators: Van Horn, Wade
- Resource Type: Text
The diagnostic utility of this approach as applied to lung cancer patients across all stages as well as prostate, serous ovarian, and pancreatic cancer patients compared to certifiably healthy individuals, nominally healthy individuals and/or risk-matched controls is reported. Markers for terminal fucosylation, α2-6 sialylation, β1-4 branching, β1-6 branching and outer-arm fucosylation were most able to differentiate cases from controls. These markers behaved in a stage-dependent manner in lung cancer as well as other types of cancer. Using a Cox proportional hazards regression model, the ability of these markers to predict progression and survival in lung cancer patients was assessed. In addition, the potential mechanistic role of aberrant P/S glycans in cancer progression is discussed.
Plasma samples from former bladder cancer patients with currently no evidence of disease (NED), non-muscle invasive bladder cancer (NMIBC), and muscle invasive bladder cancer (MIBC) along with certifiably healthy controls were analyzed. Markers for α2-6 sialylation, β1-4 branching, β1-6 branching, and outer-arm fucosylation were able to separate current and former (NED) cases from controls; but NED, NMIBC, and MIBC were not distinguished from one another. Markers for α2-6 sialylation and β1-6 branching were able to predict recurrence from the NED state using a Cox proportional hazards regression model adjusted for age, gender, and time from cancer. These two glycan features were found to be correlated to the concentration of C-reactive protein, a known prognostic marker for bladder cancer, further strengthening the link between inflammation and abnormal plasma protein glycosylation.
The ex vivo glycation of human serum albumin was also investigated showing that P/S samples stored above their freezing point leads to significant increases in glycated albumin. These increases were found to occur within hours at room temperature, and within days at -20 °C. These increases continued over a period of 1-2 weeks at room temperature and over 200 days at -20 °C, ultimately resulting in a doubling of glycated albumin in both healthy and diabetic patients. It was also shown that samples stored at lower surface area-to-volume ratios or incubated under a nitrogen atmosphere experienced less rapid glucose adduction of albumin—suggesting a role for oxidative glycation in the ex vivo glycation of albumin.
Here, 208 samples from lung cancer patients and 207 age-matched controls enrolled in the WELCA study were analyzed by glycan node analysis. Glycan features, quantified as single analytical signals, including 2-linked mannose, α2‐6 sialylation, β1‐4 branching, β1‐6 branching, 4-linked GlcNAc, and outer-arm fucosylation, exhibited abilities to distinguish lung cancer cases from controls and predict survival in patients.
To circumvent the laborious preparation steps for permethylation of glycan node analysis, a spin column-free (SCF) glycan permethylation procedure was developed, applicable to both intact glycan analysis or glycan node analysis, with improved or comparable permethylation efficiency relative to some widely-used spin column-based procedures.
Biospecimen integrity of the same set of plasma samples from WELCA study was evaluated by a simple intact protein assay (ΔS-Cysteinylated-Albumin), which quantifies cumulative exposure of P/S to thawed conditions (-30 °C). Notable differences were observed between different groups of samples with various initial handling/storage conditions, as well as among the different collection sites.
Exploring Structure and Function of Human Cold Sensing Protein TRPM8 with ROSETTA Comparative Models
Alzheimer’s disease (AD) is a common neurodegenerative disorder affecting approximately 10% of people aged 65 and up and 30-50% over 85. In pathological AD representations, a way to recognize early onset AD is the increased levels of pro-NGF in BFCNs that come from the downregulation of NGF with age. Pro-NGF has a higher affinity for p75NTR, which binds and participates in the pro-NGF-p75NTR-sortilin complex sequentially cleaved by α- and γ-secretase. Pro-NGF triggers apoptosis through the cleavage of the intracellular membrane by γ-secretase. Since γ-secretase physically cleaves off the intramembrane portion that promotes TNF- and Fas-dependent apoptotic signaling pathways, it has a crucial role in AD and must be better understood. This research aims to understand better and visualize γ-secretase and its actions, specifically with its interactions with the substrate p75NTR in the RIP process. To analyze γ-secretase function, the proteins must be produced and analyzed through the protein expression protocol. During protein production, DNA, cell concentrations, and optical density measurements were difficult to produce due to the incompetency of e. coli cells (DH5α), contamination of the Sf9 insect cell culture, and decreased viability of aged insect cells. We identified the problems and improved the conditions for future project development.