Assessing the Mental Wellbeing and Help-Seeking Behaviors of Pre-Veterinary Undergraduates at a Land-Grant Institution.

Recent research conducted within the veterinary profession has reported higher rates of depression and stress than the general US population. While this decline in mental wellbeing has been documented in Doctor of Veterinary Medicine (DVM) students and veterinary professionals, there is a lack of research on the mental wellbeing of the pre-veterinary population. This gap led the authors to conduct a survey in the fall of 2021 utilizing the DASS-21 and ATSPPH-sf inventories to assess the levels of depression, anxiety, stress, and help-seeking stigma in pre-veterinary students to better understand when the decline in veterinary mental wellbeing begins. A pre-test survey was completed by 233 pre-veterinary students in September, and an identical post-test survey was completed by 184 pre-veterinary students in November. From the pre- and post-test data, depression, anxiety, and stress scores increased as students advanced in academic status during their undergraduate degree. Juniors reported the highest averages of depression, anxiety, and stress compared to their peers. In the post-test, sophomores and juniors exhibited higher rates of depression than freshmen, and juniors and seniors exhibited higher rates of stress than freshmen. Current VMCAS applicants exhibited higher levels of stress than non-VMCAS applicants in the pre-test, and lower levels of stress in the post-test. In both the pre-test and post-test data, respondents averaged a neutral attitude toward help-seeking. Based on these results, a decline in pre-veterinary mental wellbeing occurs as students' progress in their undergraduate career and should be further studied to assess its impact on Doctor of Veterinary Medicine and veterinary professional wellbeing.

The Impact of COVID-19 on Pre-Veterinary Opportunities and Recommendations for DVM Admissions.

During the summer of 2020, a survey-based study was conducted at North Carolina State University, a land-grant university, to evaluate the impact of COVID-19 on pre-veterinary students' ability to gain experience hours for Doctor of Veterinary Medicine (DVM) admissions. Of the 286 respondents (47% of the respondent pool), 92% reported losing at least one animal, veterinary, research, extracurricular, or work opportunity due to COVID-19, and 59% were not able to find a replacement. Of the lost experiences, 74 (20.8%) were for academic credit, resulting in 131 total academic credit hours lost, while only 12 credit hours were gained via alternative experiences. Of respondents, 30% (29.7%) identified as applicants of the 2020-2021 Veterinary Medical College Application Service (VMCAS) cycle. More than half (52.6%) of the sample identified being concerned about the strength of their VMCAS experiences due to these lost opportunities. Many respondents reported considering delaying application submissions by taking a gap year (17.5%) or having had their intended graduation timeline affected (14.8%). Since the majority of veterinary colleges utilize a holistic review process, this study provides a basis for understanding the effects of COVID-19 on the duration, depth, and diversity of experiences gained by future DVM applicants. This article also provides recommendations for DVM admissions adaptations based on the outcomes of the data.

Osteopontin modulates inflammation, mucin production, and gene expression signatures after inhalation of asbestos in a murine model of fibrosis.

Inflammation and lung remodeling are hallmarks of asbestos-induced fibrosis, but the molecular mechanisms that control these events are unclear. Using laser capture microdissection (LCM) of distal bronchioles in a murine asbestos inhalation model, we show that osteopontin (OPN) is up-regulated by bronchiolar epithelial cells after chrysotile asbestos exposures. In contrast to OPN wild-type mice (OPN(+/+)) inhaling asbestos, OPN null mice (OPN(-/-)) exposed to asbestos showed less eosinophilia in bronchoalveolar lavage fluids, diminished lung inflammation, and decreased mucin production. Bronchoalveolar lavage fluid concentrations of inflammatory cytokines (IL-1ß, IL-4, IL-6, IL-12 subunit p40, MIP1α, MIP1ß, and eotaxin) also were significantly less in asbestos-exposed OPN(-/-) mice. Microarrays performed on lung tissues from asbestos-exposed OPN(+/+) and OPN(-/-) mice showed that OPN modulated the expression of a number of genes (Col1a2, Timp1, Tnc, Eln, and Col3a1) linked to fibrosis via initiation and cross talk between IL-1ß and epidermal growth factor receptor-related signaling pathways. Novel targets of OPN identified include genes involved in cell signaling, immune system/defense, extracellular matrix remodeling, and cell cycle regulation. Although it is unclear whether the present findings are specific to chrysotile asbestos or would be observed after inhalation of other fibers in general, these results highlight new potential mechanisms and therapeutic targets for asbestosis and other diseases (asthma, smoking-related interstitial lung diseases) linked to OPN overexpression.

Veterinary Professions Advising Center: an innovative approach to preveterinary advising for Animal Science students.

Veterinary Professions Advising Center (VetPAC) is a unique undergraduate advising center that combines Career Center services with preprofessional advising for preveterinary students at North Carolina State University (NCSU). During the past 10 years, VetPAC has created five distinct internships, three annual study abroad courses, and a competitive annual high school summer camp, provided holistic advising, and hosted large-scale advising events that consistently provide resources to more than 800 students annually. The VetPAC provided outreach to an average of 13 local high schools per academic year and educated over 300 visiting students about VetPAC and preveterinary life at NCSU since 2015. NCSU College of Veterinary Medicine has had a minimum of 26% and a maximum of 45% DVM students in the incoming classes who accessed VetPAC resources and advising. This article presents the impact VetPAC has had on preveterinary student success at NCSU and provides an outline of VetPAC's first 10 years of development as a model of combined career services and preprofessional advising for peer institutions.

A novel career development course for animal science students pursuing veterinary college admissions.

A one-credit hour, elective, professional development course was created at North Carolina State University to introduce pre-veterinary track students to the admissions process and the breadth of the veterinary profession. The course was designed to facilitate career exploration while building self-efficacy through vicarious learning, interacting with speakers in various veterinary subfields, and addressing misperceptions about veterinary admissions. To evaluate the student learning objectives and improve upon the current practices of the course, data from two pretest and posttest course surveys for 235 course participants between Spring 2014 and 2017 were analyzed. The results of the study showed that students experienced significant gains in self-appraisal (Cohen's d ranged 1.88 to 2.53), gathering occupational information (Cohen's d ranged 1.59 to 2.53), goal selection (Cohen's d ranged 2.14 to 2.53), and planning and problem-solving (Cohen's d ranged 1.88 to 2.77) as well as experienced a decrease in five misperceptions about veterinary admissions. This novel course is presented as a prospective course for other universities.

Differential recruitment of co-regulatory proteins to the human estrogen receptor 1 in response to xenoestrogens.

The diverse biological effects of xenoestrogens may be explained by their ability to differentially recruit co-regulatory proteins to the estrogen receptor (ER). We employed high-throughput receptor affinity binding and co-regulatory protein recruitment screening assays based on fluorescence polarization and time resolved florescence resonance energy transfer (TR-FRET), respectively, to assess xenoestrogen-specific binding and co-regulatory protein recruitment to the ER. Then we used a functional proteomic assay based on co-immunoprecipitation of ER-bound proteins to isolate and identify intact co-regulatory proteins recruited to a ligand-activated ER. Through these approaches, we revealed differential binding affinity of bisphenol-A (BPA) and genistein (GEN) to the human ERα (ESR1) and ligand-dependent recruitment of SRC-1 and SRC-3 peptides. Recruitment profiles were variable for each ligand and in some cases were distinct compared to 17ß-estradiol (E2). For example, E2 and GEN recruited both SRC-1 and -3 peptides whereas BPA recruited only SRC-1 peptides. Results of the functional proteomic assay showed differential recruitment between ligands where E2 recruited the greatest number of proteins followed by BPA then GEN. A number of proteins share previously identified relationships with ESR1 as determined by STRING analysis. Although there was limited overlap in proteins identified between treatments, all ligands recruited proteins involved in cell growth as determined by subnetwork enrichment analysis (p<0.05). A comparative, in silico analysis revealed that fewer interactions exist between zebrafish (Danio rerio) esr1 and zebrafish orthologs of proteins identified in our functional proteomic analysis. Taken together these results identify recruitment of known and previously unknown co-regulatory proteins to ESR1 and highlight new methods to assay recruitment of low abundant and intact, endogenous co-regulatory proteins to ESR1 or other nuclear receptors, in both human and aquatic species.

Adsorption of cellular proteins to polyelectrolyte-functionalized gold nanorods: a mechanism for nanoparticle regulation of cell phenotype?

Cell behavior in the presence of nanomaterials is typically explored through simple viability assays, but there is mounting evidence that nanomaterials can have more subtle effects on a variety of cellular functions. Previously our lab demonstrated that gold nanorods functionalized with polyelectrolyte multi-layers inhibited rat cardiac fibroblast-mediated remodeling of type I collagen scaffolds by altering fibroblast phenotype and the mechanical properties of the collagen network. In this work, we examine a possible mechanism for these effects: adsorption of cellular proteins by the nanorods. Mass spectrometric and gel electrophoresis of media collected from cultured cells suggests that a number of proteins, some of which mediate cell-cell and cell-matrix interactions, adsorb onto the surface of these nanoparticles in vitro. Polyethylene glycol coating of the nanorods largely mitigates protein adsorption and fibroblast-mediated collagen remodeling. These results suggest that adsorption of proteins by nanorods could have a significant effect on cell functions, including fibroblast-mediated matrix remodeling.