Browsing by Author "Wagenknecht, Dawn R."

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    Analyses of the Effects of Arginine, Nicotine, Serotype and Collagen-Binding Proteins on Biofilm Development by 33 Strains of Streptococcus mutans
    (Frontiers Media, 2021-11-25) Wagenknecht, Dawn R.; Gregory, Richard L.; Biomedical and Applied Sciences, School of Dentistry
    Streptococcus mutans serotype k strains comprise <3% of oral isolates of S. mutans but are prominent in diseased cardiovascular (CV) tissue. Collagen binding protein (CBP) genes, cbm and cnm, are prevalent in serotype k strains and are associated with endothelial cell invasion. Nicotine increases biofilm formation by serotype c strains of S. mutans, but its effects on serotype k strains and strains with CBP are unknown. Saliva contains arginine which alters certain properties of the extracellular polysaccharides (EPS) in S. mutans biofilm. We examined whether nicotine and arginine affect sucrose-induced biofilm of S. mutans serotypes k (n = 23) and c (n = 10) strains with and without CBP genes. Biofilm mass, metabolism, bacterial proliferation, and EPS production were assessed. Nicotine increased biomass and metabolic activity (p < 0.0001); arginine alone had no effect. The presence of a CBP gene (either cbm or cnm) had a significant effect on biofilm production, but serotype did not. Nicotine increased bacterial proliferation and the effect was greater in CBP + strains compared to strains lacking CBP genes. Addition of arginine with nicotine decreased both bacterial mass and EPS compared to biofilm grown in nicotine alone. EPS production was greater in cnm + than cbm + strains (p < 0.0001). Given the findings of S. mutans in diseased CV tissue, a nicotine induced increase in biofilm production by CBP + strains may be a key link between tobacco use and CV diseases.
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    Antiphospholipid autoantibodies as blood biomarkers for detection of early stage Alzheimer's disease
    (Taylor & Francis, 2015-08) McIntyre, John A.; Ramsey, Curtis J.; Gitter, Bruce D.; Saykin, Andrew J.; Wagenknecht, Dawn R.; Hyslop, Paul A.; Department of Radiology and Imaging Sciences, IU School of Medicine
    A robust blood biomarker is urgently needed to facilitate early prognosis for those at risk for Alzheimer's disease (AD). Redox reactive autoantibodies (R-RAAs) represent a novel family of antibodies detectable only after exposure of cerebrospinal fluid (CSF), serum, plasma or immunoglobulin fractions to oxidizing agents. We have previously reported that R-RAA antiphospholipid antibodies (aPLs) are significantly decreased in the CSF and serum of AD patients compared to healthy controls (HCs). These studies were extended to measure R-RAA aPL in serum samples obtained from Alzheimer's Disease Neuroimaging Initiative (ADNI). Serum samples from the ADNI-1 diagnostic groups from participants with mild cognitive impairment (MCI), AD and HCs were blinded for diagnosis and analyzed for R-RAA aPL by ELISA. Demographics, cognitive data at baseline and yearly follow-up were subsequently provided by ADNI after posting assay data. As observed in CSF, R-RAA aPL in sera from the AD diagnostic group were significantly reduced compared to HC. However, the sera from the MCI population contained significantly elevated R-RAA aPL activity relative to AD patient and/or HC sera. The data presented in this study indicate that R-RAA aPL show promise as a blood biomarker for detection of early AD, and warrant replication in a larger sample. Longitudinal testing of an individual for increases in R-RAA aPL over a previously established baseline may serve as a useful early sero-epidemiologic blood biomarker for individuals at risk for developing dementia of the Alzheimer's type.
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    Exploration of Endothelial Cell Invasion and Responses to Nicotine and Arginine by Streptococcus Mutans Serotype K Strains in a Sucrose-Induced Biofilm Lifestyle
    (2019-08) Wagenknecht, Dawn R.; Gregory, Richard L.; Windsor, L. Jack; Galli, Dominique M.; Lee, Chao-Hung; Ji, Julie; Childers, Noel K.
    Streptococcus mutans, an inhabitant of oral biofilm or dental plaque, adheres to the tooth surface via protein antigen I/II (PA I/II). Pathologic lesions of atherosclerosis (AT) and infective endocarditis (IE) harbor S. mutans. Serotypes f and k strains with collagen binding protein genes cbm and cnm are uncommon in the mouth, but these are the most prevalent S. mutans strains in AT and IE tissues and can invade endothelial cells (EC) in vitro. Tobacco use increases the risk for cardiovascular and oral diseases. Oral S. mutans encounter many substances including nicotine. Arginine is present in saliva and the EC glycocalyx that coats and protects ECs from shear forces of blood flow. Prior studies demonstrated arginine alters S. mutans biofilm. This work characterizes S. mutans serotype k strains and serotype c strains, the most prevalent in the mouth. The effects of nicotine and arginine on biofilm mass, metabolic activity and EC invasion were investigated. Biofilm production by serotypes c and k strains did not differ; there were no differences in responses to nicotine and arginine between these serotypes. Increased production of biofilm was associated with the cbm and cnm genes. Nicotine increased biofilm for all strains whereas arginine plus nicotine reduced bacteria and the extracellular polymeric substances. Previous EC invasion studies were performed with planktonic cultures of S. mutans; therefore, EC invasion by biofilm was evaluated. Significant factors for EC invasion by S. mutans are presence of the cbm gene and lack of PA I/II expression on the bacterial cell surface. Presence of the cnm gene increased EC invasion by biofilm but not planktonic cells. Planktonic cells of six strains invaded better than biofilm, whereas four strains showed increased invasion by biofilm cells. Neither nicotine nor arginine significantly altered the ability of S. mutans biofilm cells to invade ECs. Not all strains with cbm or cnm and no PA I/II expression invaded EC. A strain with PA I/II expression and without cbm and cnm genes invaded EC. While cbm, cnm and PA I/II expression are predictors of EC invasion, additional mechanisms for EC invasion by S. mutans remain to be revealed.