K. P. OʼHagan scite author profile

eThe native plasmid of both Chlamydia muridarum and Chlamydia trachomatis has been shown to control virulence and infectivity in mice and in lower primates. We recently described the development of a plasmid-based genetic transformation protocol for Chlamydia trachomatis that for the first time provides a platform for the molecular dissection of the function of the chlamydial plasmid and its individual genes or coding sequences (CDS). In the present study, we transformed a plasmid-free lymphogranuloma venereum isolate of C. trachomatis, serovar L2, with either the original shuttle vector (pGFP::SW2) or a derivative of pGFP::SW2 carrying a deletion of the plasmid CDS5 gene (pCDS5KO). Female mice were inoculated with these strains either intravaginally or transcervically. We found that transformation of the plasmid-free isolate with the intact pGFP::SW2 vector significantly enhanced infectivity and induction of host inflammatory responses compared to the plasmid-free parental isolate. Transformation with pCDS5KO resulted in infection courses and inflammatory responses not significantly different from those observed in mice infected with the plasmid-free isolate. These results indicate a critical role of plasmid CDS5 in in vivo fitness and in induction of inflammatory responses. To our knowledge, these are the first in vivo observations ascribing infectivity and virulence to a specific plasmid gene.

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Effect of an abdominal binder during wheelchair exercise

Kerk

Clifford²,

Snyder³

et al. 1995

Medicine & Science in Sports & Exercise

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Effect of dynamic exercise on renal sympathetic nerve activity in conscious rabbits

OʼHagan

Bell

Mittelstadt

et al. 1993

Journal of Applied Physiology

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Renal sympathetic nerve activity (RSNA) increases abruptly at the onset of treadmill exercise in conscious rabbits. This study investigated whether the rise in RSNA is related to the intensity of the exercise and whether an elevated level of RSNA is maintained during submaximal exercise. RSNA, arterial blood pressure (BP), and heart rate (HR) were recorded in 10 New Zealand White rabbits during two treadmill exercise protocols at 0% grade: 7 m/min for 5 min and 12 m/min for 2 min. Peak levels of RSNA were observed in the first 10 s of exercise at 7 and 12 m/min. Through 2 min of exercise, the rise in RSNA was greater (P < 0.05) at 12 m/min (delta 83 +/- 22%) compared with 7 m/min (delta 49 +/- 8%). At 7 m/min, HR and BP reached steady-state levels during the 2nd min of exercise. RSNA remained elevated at delta 43 +/- 10 to delta 54 +/- 13% over resting levels as exercise continued from the 2nd through the 5th min of exercise (P < 0.05). These data demonstrate that the RSNA response to exercise is intensity related and suggest that RSNA remains elevated and thus may contribute to the control of renal blood flow during submaximal dynamic exercise.

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Muscle chemoreflex alters vascular conductance in nonischemic exercising skeletal muscle

Mittelstadt

Bell

OʼHagan

et al. 1994

Journal of Applied Physiology

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Previous studies have shown that the muscle chemoreflex causes an augmented blood pressure response to exercise and partially restores blood flow to ischemic muscle. The purpose of this study was to investigate the effects of the muscle chemoreflex on blood flow to nonischemic exercising skeletal muscle. During each experiment, dogs ran at 10 kph for 8-16 min and the muscle chemoreflex was evoked by reducing hindlimb blood flow at 4-min intervals (0-80%). Arterial blood pressure, hindlimb blood flow, forelimb blood flow, and forelimb vascular conductance were averaged over the last minute at each level of occlusion. Stimulation of the muscle chemoreflex caused increases in arterial blood pressure and forelimb blood flow and decreases in forelimb vascular conductance. The decrease in forelimb vascular conductance demonstrates that the muscle chemoreflex causes vasoconstriction in the nonischemic exercising forelimb. Despite the decrease in vascular conductance, the increased driving pressure caused by the pressor response was large enough to produce an increased forelimb blood flow.

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Uterine artery blood flow and renal sympathetic nerve activity during exercise in rabbit pregnancy

OʼHagan

Alberts

2003

American Journal of Physiology-Regulatory, Integrative and Comp

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The uterine artery blood flow (UtBF) and renal sympathetic nerve activity (SNA) responses to treadmill exercise were evaluated in 12 nonpregnant (NP) and 17 term pregnant (P) rabbits. UtBF was monitored continuously with a Transonic flowprobe. Rabbits underwent three exercise trials (5-min duration) that varied in absolute workload. The rise in renal SNA with exercise was intensity related. Pregnancy did not affect the average steady-state renal SNA response expressed relative to maximum activity (P 24 +/- 1% vs. NP 23 +/- 2% of maximum smoke-elicited activity) and increased the average renal SNA response expressed relative to resting activity (P +155 +/- 19% vs. NP +84 +/- 23% from rest, P = 0.03) At rest, UtBF (P 13 +/- 3 vs. NP 1.9 +/- 0.3 ml/min) and uterine artery conductance (UtC; P 22 +/- 5 vs. NP 2.8 +/- 0.5 ml. min-1.mmHg-1 x 10-2) were elevated in the P rabbits. The average exercise-related decreases in UtBF (P -16 +/- 4% vs. NP -48 +/- 4%) and UtC (P -27 +/- 4% vs. NP -54 +/- 4%) were attenuated in the P rabbits. Pregnancy does not impair the ability to raise renal SNA but attenuates the uterine artery constrictor response to moderate to heavy dynamic exercise in rabbits. Under normal conditions, the pregnant uterine circulatory bed may be relatively protected from exercise-related redistribution of blood flow.

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K. P. OʼHagan

Plasmid CDS5 Influences Infectivity and Virulence in a Mouse Model of Chlamydia trachomatis Urogenital Infection

Effect of an abdominal binder during wheelchair exercise

Effect of dynamic exercise on renal sympathetic nerve activity in conscious rabbits

Muscle chemoreflex alters vascular conductance in nonischemic exercising skeletal muscle

Uterine artery blood flow and renal sympathetic nerve activity during exercise in rabbit pregnancy

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