👤 Claire Masterson

Human bone marrow-derived mesenchymal stromal cells (hBM-MSCs) are known to exert immunomodulatory and pro-reparative effects in vivo. This makes hBM-MSCs an enticing therapeutic candidate for inflammatory diseases, such as acute respiratory distress syndrome (ARDS). The ARDS microenvironment is complex and contains an abundance of free fatty acids (FFAs), which are known to differentially impact MSC functionality. PPARβ/δ is a ubiquitously expressed nuclear receptor that is activated in response to FFA-binding. PPARβ/δ has been shown to impact the therapeutic efficacy of mouse MSCs. This study sought to investigate the impact of PPARβ/δ-modulation on human MSC functionality in vitro and in vivo. hBM-MSCs were exposed to a synthetic PPARβ/δ agonist/antagonist in the presence or absence of ARDS patient serum and the immunomodulatory and pro-reparative capacity of the MSC secretome was investigated using in vitro assays and a pre-clinical model of LPS-induced acute lung inflammation (ALI). Our results highlighted enhanced pro-reparative capacity of PPARβ/δ-agonized hBM-MSCs secretome in CALU-3 lung epithelial cells, mediated by MSC derived angiopoietin-like 4 (ANGPTL4). PPARβ/δ-induced ANGPTL4-high MSC secretome facilitated enhanced endothelial barrier integrity in the lungs of ALI mice. Therapeutic effects of PPARβ/δ-agonized hBM-MSCs secretome were further enhanced by licensing MSCs with human ARDS patient serum. ARDS-licensed PPARβ/δ-induced ANGPTL4-high MSC secretome had reduced clinical score and weight loss. The role ANGPL4 in these protective effects was confirmed using an anti-ANGPTL4 antibody. These findings conclude that the MSC secretome therapeutic effects can be enhanced both in vitro and in vivo through licensing strategies that upregulate the angiogenic factor ANGPTL4. Show less

The objective of this study is to evaluate obesity-related genetic factors in relation to excess consumption and assess if food cues modify associations. Children (9-12 years) completed a randomized crossover experiment. During two visits, children ate a preload and then snacks ad libitum while watching television, embedded with food or non-food advertisements to assess eating in the absence of hunger (EAH). Primary exposures were obesity-associated genotypes, FTO rs9939609 and MC4R rs571312, and a paediatric-specific polygenic risk score (PRS). Outcomes included consumption of all snacks (total EAH) and gummy candy only (gummy candy EAH). Linear mixed-effects models tested whether genetic exposures related to EAH outcomes. We tested for effect modification by food cues using multiplicative interaction terms. Among 177 children, each FTO risk allele was associated with a 30% increase in gummy candy EAH (p = 0.025) in adjusted models. Food cue exposure exacerbated associations between the FTO variant with gummy candy EAH (p = 0.046). No statistically significant associations were found between MC4R and EAH. The results suggest children with the FTO rs9939609 risk allele may be predisposed to excess consumption of candy and that this association may be exacerbated by food cues. Show less

To test associations of candidate obesity-related single nucleotide polymorphisms (SNPs) and obesity polygenic risk scores (PRS) with neural reward reactivity to food cues. After consuming a pre-load meal, 9-12-year-old children completed a functional magnetic resonance imaging (fMRI) paradigm with exposure to food and non-food commercials. Genetic exposures included Analyses included 151 children ( Children genetically at risk for obesity, as indicated by the https://clinicaltrials.gov/study/NCT03766191, identifier NCT03766191. Show less

This study was designed to identify significant differences in gene expression profiles of human papillomavirus (HPV)-positive and HPV-negative oropharyngeal squamous cell carcinomas (OPSCC) and to better understand the functional and biological effects of HPV infection in the premalignant pathway. Twenty-four consecutive patients with locally advanced primary OPSCC were included in a prospective clinical trial. Fresh tissue samples (tumor vs. matched normal epithelium) were subjected to whole transcriptome analysis and the results validated on the same cohort with RT-quantitative real-time PCR. In a separate retrospective cohort of 27 OPSCC patients, laser capture microdissection of formalin-fixed, paraffin-embedded tissue allowed RNA extraction from adjacent regions of normal epithelium, carcinoma in situ (premalignant) and invasive SCC tissue. The majority of patients showed evidence of high-risk HPV16 positivity (80.4%). Predictable fold changes of RNA expression in HPV-associated disease included multiple transcripts within the p53 oncogenic pathway (e.g. CDKN2A/CCND1). Other candidate transcripts found to have altered levels of expression in this study have not previously been established (SFRP1, CRCT1, DLG2, SYCP2, and CRNN). Of these, SYCP2 showed the most consistent fold change from baseline in premalignant tissue; aberrant expression of this protein may contribute to genetic instability during HPV-associated cancer development. If further corroborated, this data may contribute to the development of a non-invasive screening tool. This study is registered with the UK Clinical Research Network (ref.: 11945). Show less