Barrett, The Honors College Thesis/Creative Project Collection
Barrett, The Honors College at Arizona State University proudly showcases the work of undergraduate honors students by sharing this collection exclusively with the ASU community.
Barrett accepts high performing, academically engaged undergraduate students and works with them in collaboration with all of the other academic units at Arizona State University. All Barrett students complete a thesis or creative project which is an opportunity to explore an intellectual interest and produce an original piece of scholarly research. The thesis or creative project is supervised and defended in front of a faculty committee. Students are able to engage with professors who are nationally recognized in their fields and committed to working with honors students. Completing a Barrett thesis or creative project is an opportunity for undergraduate honors students to contribute to the ASU academic community in a meaningful way.
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Experimental Design: In part one of this study, exercise-induced eccrine sweat was collected from 50 healthy individuals and analyzed using mass spectrometry, protein microarrays, and quantitative ELISAs to identify a broad range of proteins, antibody isotypes, and cytokines in sweat. In part two of this study, cortisol and melatonin levels were analyzed in exercise-induced sweat and plasma samples collected from 22 individuals.
Results: 220 unique proteins were identified by shotgun analysis in pooled sweat samples. Detectable antibody isotypes include IgA (100% positive; median 1230 ± 28 700 pg/mL), IgD (18%; 22.0 ± 119 pg/mL), IgG1 (96%;1640 ± 6750 pg/mL), IgG2 (37%; 292 ± 6810 pg/mL), IgG3 (71%;74.0 ± 119 pg/mL), IgG4 (69%; 43.0 ± 42.0 pg/mL), and IgM (41%;69.0 ± 1630 pg/mL). Of 42 cytokines, three were readily detected in all sweat samples (p<0.01). The median concentration for interleukin-1α was 352 ± 521 pg/mL, epidermal growth factor was 86.5 ± 147 pg/mL, and angiogenin was 38.3 ± 96.3 pg/mL. Multiple other cytokines were detected at lower levels. The median and standard deviation of cortisol was determined to be 4.17 ± 11.1 ng/mL in sweat and 76.4 ± 28.8 ng/mL in plasma. The correlation between sweat and plasma cortisol levels had an R-squared value of 0.0802 (excluding the 2 highest sweat cortisol levels). The median and standard deviation of melatonin was determined to be 73.1 ± 198 pg/mL in sweat and 194 ± 93.4 pg/mL in plasma. Similar to cortisol, the correlation between sweat and plasma melatonin had an R-squared value of 0.117.
Conclusion: These studies suggest that sweat holds more proteomic and hormonal biomarkers than previously thought and may eventually serve as a noninvasive biomarker resource. These studies also highlight many of the challenges associated with monitoring sweat content including differences between collection devices and hydration, evaporation losses, and sweat rate.
We confirmed that the soluble protein MHC-A2.1 could be successfully attached to the Luminex magnetic beads and detected using the primary antibody anti-GST and the detection antibody goat mAb mouse PE. The average net MFI of the attached pA2.1-bead complex was 8182. Biotinylated A2.1 MHC complexes pre-folded with β2m and FLU M1 peptide (A2.1 monomers) were also successfully attached to Luminex magnetic beads and detected with BB7.2. The average net MFI of the detected A2.1 monmer-bead complexes was 318. The protein MHC complexes were multimerized on magnetic beads to create MHC tetramers and detected with BB7.2, PE labeled monoclonal antibody, via median fluorescent intensity with the Luminex platform. Varying protein, β2 microglobulin (β2m), and peptide concentrations were tested in a number of MHC-A2.1 protein refolding trials. Different antigenic peptides and attachment methods were also tested. However, none of the MHC-A2.1 protein folding and capture trials were successful. Although MHC-A2.1 complexes and recombinant MHC molecules could be attached to Luminex magnetic beads and be detected by Luminex arrays, soluble protein A2.1 could not be successfully expressed, refolded, captured onto Luminex beads, and detected. All refolding trials resulted in a net MFI of <25. The failed refolding and capture trials of A2.1 lead to the conclusion that human cell line HeLa lysate cannot be used to properly fold MHC molecules. However, efforts to refold the complexes onto Luminex magnetic beads are ongoing. We are also using the baculovirus expression system to refold soluble A2.1 lysate onto peptide-bead complexes.