Nigel Harrison scite author profile

Vertebrate embryos display a predominant head-to-tail body axis whose formation is associated with the progressive development of post-cranial structures from a pool of caudal undifferentiated cells. This involves the maintenance of active FGF signaling in this caudal region as a consequence of the restricted production of the secreted factor FGF8. FGF8 is transcribed specifically in the caudal precursor region and is down-regulated as cells differentiate and the embryo extends caudally. We are interested in understanding the progressive down-regulation of FGF8 and its coordination with the caudal movement of cells which is also known to be FGF-signaling dependent. Our study is performed using mathematical modeling and computer simulations. We use an individual-based hybrid model as well as a caricature continuous model for the simulation of experimental observations (ours and those known from the literature) in order to examine possible mechanisms that drive differentiation and cell movement during the axis elongation. Using these models we have identified a possible gene regulatory network involving self-repression of a caudal morphogen coupled to directional domain movement that may account for progressive down-regulation of FGF8 and conservation of the FGF8 domain of expression. Furthermore, we have shown that chemotaxis driven by molecules, such as FGF8 secreted in the stem zone, could underlie the migration of the caudal precursor zone and, therefore, embryonic axis extension. These mechanisms may also be at play in other developmental processes displaying a similar mode of axis extension coupled to cell differentiation.

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Quartz But Not Iron Oxide Causes Air-Flow Obstruction, Emphysema, and Small Airways Lesions in the Rat

Wright

Harrison²,

Wiggs³

et al. 1988

Am Rev Respir Dis

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Recent epidemiologic studies have suggested that some workers exposed to inorganic dusts develop air-flow obstruction independent of or greater than that produced by cigarette smoke; the morphologic basis of this effect is unknown. To investigate this problem, we administered saline alone, 10 mg iron oxide (an inert dust), or 10 or 30 mg of quartz to rats by intratracheal instillation. Animals were killed after 30 days, and pulmonary function and morphologic changes were examined. The iron oxide group was similar to the saline control group in all functional and morphometric parameters. However, both quartz-exposed groups showed evidence of air-flow obstruction, with more severe abnormalities in the high dose group. These findings correlated with morphometric observations of emphysema and thickened airway walls, with changes again more severe in the high dose group. Early silicotic nodules were also present in the latter animals. We conclude that in addition to the classic lesions of nodular silicosis, quartz can produce morphologic and functional changes of air-flow obstruction; no such changes are seen with iron oxide. These observations may explain the air-flow obstruction seen in workers exposed to mineral dusts.

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The mechanism of action of omega-3 fatty acids in secondary prevention post-myocardial infarction

Harrison

Abhyankar

2004

Current Medical Research and Opinion

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The conclusion reached is that omega-3 fatty acids play a significant role in secondary prevention post-myocardial infarction. The mechanisms through which two of these omega-3 fatty acids, eicosapentaenoic acid and docosahexanoic acid, exert their action appear to be distinct and adjuvant to the available standard secondary prevention therapies. The role to be played by the administration of a newly licensed 90% concentrate EPA + DHA formulation (1 g/day capsule: Omacor) is explored.

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Cigarette Smoke Makes Airway and Early Parenchymal Asbestos-Induced Lung Disease Worse in the Guinea Pig

Tron¹,

Wright²,

Harrison³

et al. 1987

Am Rev Respir Dis

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In order to assess the effects of cigarette smoke and asbestos exposure, we divided guinea pigs into 4 groups: smoking or nonsmoking, and asbestos-exposed or not asbestos-exposed groups. Asbestos-exposed animals were given a single intratracheal instillation of 5 mg UICC amosite, a dose and method of administration that we have previously shown produces morphologic changes in the small airways as well as minimal interstitial fibrosis. Animals were smoked 5 days per week for 6 months. By itself, smoking did not affect lung collagen content, small airways wall thickness, or the volume fraction of tissue surrounding airways, but it did cause a significant increase in alveolar mean linear intercept (Lm). Asbestos alone increased collagen content, airway wall thickness, and tissue volume fraction surrounding airways, the latter measure used to assess interstitial fibrosis. An unexpected finding was that asbestos also increased Lm. The two agents administered together caused more severe changes of all types than were produced by either agent alone, and the interaction between the 2 was generally synergistic. Smoke-exposed animals retained 3 times the asbestos fiber burden of those not smoke-exposed; the increase in retention was greater for short than for long fibers. We conclude that cigarette smoke can potentiate the fibrosis induced by asbestos, possibly because of increased fiber retention. As well, in this model, asbestos or asbestos plus cigarette smoke produces increases in alveolar size.(ABSTRACT TRUNCATED AT 250 WORDS)

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Cardiopulmonary Effects of a Brief Exposure to Cigarette Smoke in the Guinea Pig

Wright

Harrison²

1990

Respiration

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To investigate whether the acute inflammatory response produced by acute cigarette smoke exposure is associated with alterations in pulmonary and cardiovascular function, using a respirator we exposed 8 guinea pigs to 350 ml of cigarette smoke diluted in 2,000 ml room air for 10 min. Lung volumes, pressure volume curves and flow volume curves were performed. Measurements of pulmonary artery pressure, systemic pressure, heart rate and cardiac output were taken at baseline, immediately after the smoke exposure, and 1.5 h after smoke exposure. Aliquots of peripheral blood for total white cell count and differential count were obtained. After animal sacrifice, the right lung was lavaged and white cell count and differential count performed. We found that acute exposure to cigarette smoke produced a peripheral blood neutrophilia which rose progressively from a baseline of 36.3 ± 8% to a maximum of 72.2 ± 7.7% at 1.5 h after exposure. There was pulmonary neutrophilia with 24.6 ± 6.3% neutrophils in the lavage fluid of the smoke-exposed animals compared to 8.4 ± 4.3% in the control animals. Immediately after smoke exposure, there was acute airflow obstruction with a decrease in the peak flow and forced expiratory flow between 25–75% vital capacity. This was associated with airtrapping, as shown by a transient increase in residual volume. There was a slight decrease in systemic blood pressure in the smoke-exposed animals associated with a nonsignificant decrease in the heart rate, and the cardiac output remained stable. After 1.5 h, there was still evidence of airflow obstruction in the smoke-exposed animals, and both groups showed a slight decrease in cardiac output. We conclude that acute cigarette smoke exposure in guinea pigs produces pulmonary functional abnormalities which may be related to acute bronchoconstriction and to the inflammatory response. Within the constraints of this animal model, we could not find evidence of significant vasospasm

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Nigel Harrison

Coordination of Cell Differentiation and Migration in Mathematical Models of Caudal Embryonic Axis Extension

Quartz But Not Iron Oxide Causes Air-Flow Obstruction, Emphysema, and Small Airways Lesions in the Rat

The mechanism of action of omega-3 fatty acids in secondary prevention post-myocardial infarction

Cigarette Smoke Makes Airway and Early Parenchymal Asbestos-Induced Lung Disease Worse in the Guinea Pig

Cardiopulmonary Effects of a Brief Exposure to Cigarette Smoke in the Guinea Pig

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