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The objective of this investigation is to evaluate how environmental changes that are related to the growth environment in the CF lung alters rhamnolipid production. Thirty-five P. aeruginosa isolates from Dartmouth College and Seattle Children’s Hospital were selected to observe the impact of temperature, presence of Staphylococcus aureus metabolites, and oxygen availability on rhamnolipid production. It was found that the rhamnolipid production significantly decreased for 30C versus 37C, but not at 40C. The addition of S. aureus spent media, in any of the tested conditions, did not influence rhamnolipid production. Finally, the change in oxygen concentration from normoxia to hypoxia significantly reduced rhamnolipid production. These results were compared to swarming assay data to understand how changes in rhamnolipid production impact surface-mediated motility.
The goal of this project was to develop tools for gene transfer between P. aeruginosa clinical isolates. These tools will allow shuffling of early/late stage of infection genes to restore wild-type phenotypes in late chronic infection isolates and create single-phenotype mutants in the early infection strains. This will allow isolation and investigation of single phenotypes in the clinical isolates to identify metabolic biomarkers specifically for detecting the target phenotypes.
The gene transfer mechanisms of transformation by electroporation, transformation by heat shock, and conjugation were tested using the plasmid pMQ30 with a construct to create an in-frame deletion of the rhlR gene (rhlR) via allelic exchange. The disruption of the P. aeruginosa wild-type rhlR gene leads to rhamnolipids-deficient mutant strains; therefore, rhamnolipids production was assessed to validate successful in-frame deletion of the rhlR gene in the P. aeruginosa clinical isolates and laboratory strains. Based on the efficiencies determined from the gene transfer mechanisms tested, the conjugation mechanism was determined to be the most efficient method for gene transfer in P. aeruginosa laboratory strains, and was used to investigate gene transfer in the P. aeruginosa clinical isolates.
Background: Chronic rhinosinusitis (CRS) is defined as symptomatic inflammation of the nose and paranasal sinuses lasting more than 12 weeks. Persistent inflammation is thought to originate from multiple factors including host physical and innate barrier defects and the exposure of the sinonasal mucosa to exogenous microorganisms. Regional differences in the innate host defense molecules present in nasal and sinus tissue have been recently reported. Thus, a histopathological study was conducted by Lal et al. to compare inflammatory changes in the ethmoid sinus mucosa and nasal turbinate tissue for CRS patients and controls. The objective of this work was to interpret the histopathological data from an immunobiological perspective and describe the significance of the results within the context of current scientific literature.
Methods: Tissue samples were collected from sinonasal surgery patients in three specific regions: ethmoid cells ± uncinate process (EC) in all patients and the inferior (IT) or middle turbinate (MT). EC and IT/MT samples were compared using Cohen’s kappa coefficient to measure agreement based on overall severity of inflammation, eosinophil count per high power field, and the predominant inflammatory cell infiltrate. The results of this study were compared with the current cohort of scientific literature regarding CRS pathogenesis. Both previous and current hypotheses were considered to construct a holistic overview of the development of the current understanding of CRS.
Results: The histopathology study determined that regional differences in degree and type of inflammation may be present in the nose and paranasal cavity. These findings support the current understanding of CRS as an inflammatory disease that is likely mediated by both host and environmental factors.
Conclusions: The histopathology study supports the current cohort of CRS research and provides evidence in support of the involvement of host factors in CRS pathogenesis.
Building on research on family communication and forgiveness, this study seeks to understand how families communicate the value and practice of forgiveness. Through semi-structured interviews, the study asks participants to recall their formative conversations and experiences about forgiveness with their family members and to discuss how those conversations influenced their current perspectives on forgiveness. Interviews from five female undergraduate students yielded seven main themes from where individuals learn how to forgive: 1) Sibling conflicts, 2) Family conversations about friendship conflicts, 3) Conversations with Mom, 4) Living by example, 5) Take the high road, 6) “Life’s too short”, and 7) Messages rooted in faith and morality.