Determinants of brain region-specific age-related declines in microvascular density in the mouse brain

Schager, Benjamin

27 January 2020

It is emerging that the brain’s vasculature consists of a highly spatially heterogeneous network; however, information on how various vascular characteristics differ between brain regions is still lacking. Furthermore, aging studies rarely acknowledge regional differences in the changes of vascular features. The density of the capillary bed is one vascular feature that is important for the adequate delivery of nutrients to brain tissue. Additionally, capillary density may influence regional cerebral blood flow, a parameter that has been repeatedly correlated to cognitive-behavioural performance. Age-related decline in capillary density has been widely reported in various animal models, yet important questions remain concerning whether there are regional vulnerabilities and what mechanisms could account for these regional differences, if they exist. Here we used confocal microscopy combined with a fluorescent dye-filling approach to label the vasculature, and subsequently quantified vessel length, tortuosity and diameter in 15 brain regions in young adult and aged mice. Our data indicate that vessel loss was most pronounced in white matter followed by cortical, then subcortical gray matter regions, while some regions (visual cortex, amygdala, insular cortex) showed little decline with aging. Changes in capillary density are determined by a balance of pruning and sprouting events. Previous research showed that capillaries are naturally prone to plugging and prolonged obstructions often lead to vessel pruning without subsequent compensatory vessel sprouting. We therefore hypothesized that regional susceptibilities to plugging could help predict vessel loss. By mapping the distribution of microsphere-induced capillary obstructions, we discovered that regions with a higher density of persistent obstructions were more likely to show vessel loss with aging and vice versa. Although the relationship between obstruction density and vessel loss was strong, it was clear obstruction rates were insufficient to explain vessel loss on their own. For that reason, we subsequently used in vivo two-photon microscopy to track microsphere-induced capillary obstructions and vascular network changes over 24 days in two areas of cortex that showed different magnitudes of vessel loss and obstruction densities: visual and retrosplenial cortex. Surprisingly, we did not find evidence for differences in vessel pruning rates between areas, as we would have expected. Instead, we observed brain region-specific differences in recanalization times and rates of angiogenesis. These findings indicate that age-related vessel loss is region specific and that regional susceptibilities to capillary plugging and angiogenesis must be considered to explain these differences. Altogether, this work supports the overarching hypothesis that regional differences in vascular structure and function contribute to a regionally heterogeneous phenotype in the aging brain. / Graduate

white matter

microcirculation

vascular dementia

aging

cerebral blood flow

capillary rarefaction

capillary loss

angiogenesis

cerebrovascular

capillary pruning

cerebral vasculature

two-photon microscopy

capillary obstruction

capillary stall

Drop-on-demand bioprinting of HUVECs and capillary-like networks via laser-induced side transfer

Erfanian, Mahyar

12 1900

La fabrication de tissus biologiques a été largement étudiée pour ses applications dans la recherche, la transplantation d'organes et le dépistage de drogues. Bien que des tissus minces ou avasculaires aient été fabriqués avec succès auparavant, le maintien de la viabilité des tissus épais nécessite la présence d'un réseau capillaire tout au long de la construction pour permettre l'apport de nutriments et l'élimination des déchets cellulaires par le sang. En plus des cellules endothéliales, l'incorporation de types de cellules de soutien dans le réseau capillaire est nécessaire pour favoriser la survie et la maturation. Comparée à d'autres méthodes de biofabrication, la bioimpression est une technologie prometteuse qui permet la fabrication précise de motifs 3D complexes à haute résolution spatiale. Nous avons conçu de nouveau notre procédé technique de bio-impression laser nommé LIST (de l'anglais \textit{laser-induced side transfer}) dans laquelle la bioencre de la suspension cellulaire passe à travers un capillaire horizontal avec un orifice face à l'échafaudage. Lorsque le laser frappe la bioencre, une bulle se forme qui propulse une gouttelette à travers l'orifice. Nous avons mené une étude détaillée pour caractériser cette bio-impression technique et validé sa cytocompatibilité par l'évaluation de la viabilité de HUVECs imprimés grâce à LIST. Nous avons incorporé des fibroblastes et des péricytes dans nos échantillons et observé le recrutement progressif de ces cellules par les structures de type capillaire HUVEC imprimées sur Matrigel. Des images fluorescentes ont été analysées pour quantifier le recrutement de fibroblastes/péricytes au fil du temps. / The fabrication of biological tissues in laboratory settings has been widely investigated for its applications in research, organ transplantation, and drug screening. Although several previous attempts to generate avascular or thin tissues have been successful, there remains the challenge to create thick functional tissues. Maintaining the viability of thick tissues requires the presence of a capillary network throughout the construct to allow the intake of nutrients and the discard of cellular waste through blood. In addition to endothelial cells, the incorporation of supporting cell types is necessary to promote survival, maturation, and acquire in vivo-like functionality. Compared to other biofabrication methods, bioprinting is a promising technology that enables the precise fabrication of complex 3D patterns at high spatial resolution. We have come up with a new configuration of our in-house laser-based bioprinting technique called laser-induced side transfer (LIST) in which the bioink passes through a horizontal glass capillary with an orifice facing the receiving substrate. When the laser beam causes bubble formation in the bioink, a liquid jet exits through the orifice that will eventually form a droplet. We have conducted a detailed study to characterize this bioprinting technique and validated its cytocompatibility through viability assessment of LIST-printed human umbilical vein endothelial cells (HUVECs). In an effort to generate physiological blood vessels, we incorporated fibroblasts and pericytes in our samples and observed the gradual recruitment of these cells by the printed HUVEC capillary-like structures on Matrigel. Fluorescent images were taken and analyzed to quantify the fibroblast/pericyte recruitment over time.

biofabrication

bioimpression par laser

laser-based bioprinting

laser-induced side transfer (LIST)

cellules endothéliales

endothelial cells

angiogenèse

angiogenesis

micro-vasculature

Experimental and Computational Study of Calcium Homeostasis in Sheared Endothelial Cells: Role of Mitochondria

Scheitlin, Christopher Gordon

12 September 2016

No description available.

Biomedical Engineering

Mitochondria

Calcium

Mechanotransduction

Endothelial cells

Shear stress

Cell signaling

Atherosclerosis

Heart disease

Cardiovascular disease

Vasculature

Mitochondria-associated-membranes

MAMs

Endoplasmic reticulum

Integrated Multimodal Analysis: Evaluating the Impacts of Chemotherapy and Electroporation-Based Therapy on Lymphatic and Blood Microvasculature in Cancer

Esparza, Savieay Luis

05 June 2024

The lymphatic and blood vascular systems are two important vessel networks that serve different roles in healthy states and in cancer. In breast cancer the most common cancer amongst women, mortality remains high despite increased treatment response due to metastatic spread, preferentially through the lymphatics. One aggressive subtype, triple negative breast cancer (TNBC) contributing to 15 to 30 percent of cases and is characterized by the absence of expression of three therapeutic biomarkers. As targeted therapy is limited, treatment relies on standard of care via surgery, radiotherapy, and chemotherapy with limited efficacy and increase in survival. Chemotherapies negatively alter the lymphatic vasculature benefiting the tumor, through lymphangiogenesis. This dissertation seeks to understand how the mechanisms of commonly used chemotherapeutics, like carboplatin, and a novel 2nd generation ablative therapy called High Frequency Irreversible Electroporation (H-FIRE), which utilizes electric pulses to ablate tumor cells, affect the lymphatic and blood microvasculature in the tumor, surrounding fat pad, tumor draining lymph node (TDLN) using multiple analysis methods. This occurred through three main methods 1) identification of oxidative stress effects of chemotherapeutic application of carboplatin on lymphatic endothelial cells in vitro, 2) characterization of lymphatic and blood microvascular dynamics in a 4T1 breast cancer mouse model treated with sub-ablative H-FIRE, 3) through the development of a novel habitat imaging method to identify treatment specific changes in the tumor draining lymph node, and the development of a hybrid agent-based model (ABM) to test cancer cell flow mediated invasion in brain cancer. Herin the work showed that carboplatin induced lymphatic phenotypic changes occurred through generation of reactive oxygen species dependent on VEGFR3 and was reversed through treatment with the antioxidant N-acetylcysteine. In the 4T1 model, sub ablation with H-FIRE induced temporal remodeling of the lymphatic and blood vasculature within the viable tumor, in the surrounding fat pad, and in the tumor draining lymph node over seven days, suggesting an optimal time of application of adjuvant therapy. The development of a habitat imaging analysis method to identify TDLN vascular habitats and the perturbation to treatment in a retrospective analysis of prior work. Lastly, the development of a hybrid ABM through the incorporation of experimentally measured fluid flow fields from dynamic contrast enhanced MRI imaging building upon existing work, and showing the usefulness in comparing mechanisms of cancer cell invasion mediated fluid flow. Altogether, this work presents novel insight into the lymphatic system in cancer within various treatments contexts and new methods of quantifying changes due to treatment. Hopefully, these findings can be used to further inform the field towards a more comprehensive understanding of treatment effects in breast cancer. / Doctor of Philosophy / The lymphatic and blood vascular systems are two important vessel networks that serve different purposes in healthy states and in the disease called cancer. In breast cancer , a common form of cancer in women , spread of this cancer tends towards the lymphatic vasculature and eventually to other parts of the body. Triple negative breast cancer (TNBC) a less common, but more aggressive form, relies on clinical standard treatments with anti-tumor drugs called chemotherapies. These chemotherapies negatively alter the lymphatic vasculature to the tumors benefit, leaving a lack new methods of treatment. This dissertation seeks to understand how the mechanisms of commonly used chemotherapeutics and a new promising pulsed electric field therapy , High frequency Irreversible Electroporation (H-FIRE), change the lymphatic and blood vessels over time and in different locations using different tools. This occurred through three main methods 1) the effects on lymphatic vascular cells treated with chemotherapy, 2) in a breast cancer mouse model treated with H-FIRE, 3) in math models of the draining lymphatic organ, called the lymph node and an agent-based math model (ABM) of cancer cell movement due to fluid flow. The work showed that in the lymphatic cells, carboplatin a type of chemotherapeutic used to treat breast cancer, changed lymphatic vasculature through generating stress through oxidation and was reversed through treatment with an anti-oxidant. In the breast cancer mouse model, incomplete ablation with H-FIRE caused time dependent changes to the lymphatic and blood vasculature in the tumor, in the surrounding tissue, and in the lymph node over seven days. This work shows the novel findings of pulsed electric field therapy causing changes to the lymphatic vasculature. The creation of a new method of identifying habitats of the lymph node was used to compare changes to the lymphatic and blood vasculature to treatment. Lastly, the creation of an ABM added measured fluid flow maps from medical imaging methods to build upon existing work, and showed the usefulness in comparing mechanisms of cancer cell invasion due to fluid flow. Altogether, this work presents novel insight into the lymphatic system in cancer within after various treatments are applied and new methods of measuring these changes because of treatment using multiple methods. It is our hope that these findings can be used to further inform the field towards a more comprehensive understanding of treatment effects in breast cancer.

interstitial fluid flow

agent-based model

chemotherapy

breast cancer

lymphatic vasculature

habitat imaging

reactive oxygen species

CCL21

Determining ideal staple size for small intestinal surgery in cats

Hiebert, Elizabeth C.

08 March 2022

Background: The use of stapling equipment for intestinal surgery in cats is rarely reported, and appropriate staple sizes for cat intestine are unknown. Objective: To determine staple cartridge sizes for thoracoabdominal (TA) and endoscopic gastrointestinal anastomosis (EndoGIA) that will simultaneously prevent leakage of small intestinal contents while also allowing for sufficient vascular permeability past the staple lines for intestinal healing. Methods: Two sizes of EndoGIA cartridges (2.0/2.5/3.0mm and 3.0/3.5/4.0mm) and two sizes of TA cartridges (2.5mm and 3.5mm), applied in a transverse manner across fresh cadaveric cat jejunum, were evaluated via intestinal burst pressure testing for maximum intraluminal pressure prior to leaking, and via infusion of an intravascular dye at normal arterial pressures to determine percentage of vascular patency past the staple lines. Vascular patency was compared not only from pre-and post-staple segments of the same intestinal sample, but also EndoGIA vascular patency was evaluated against TA vascular patency. Results: Two cats met study criteria. All samples had intraluminal burst pressures over twice the chosen minimum (of 30mmHg). Vascular patency post- staple line ranged from 0-90.8%, with the most consistently high numbers noted with the TA 3.5mm cartridges. No EndoGIA cartridge had a post- staple line vascular patency higher than 31.1%, and no intravascular dye was noted in any post- staple line sample in the EndoGIA 2.0/2.5/3.0mm group. Conclusions: While statistical analysis of the dataset was unable to be performed due to low numbers of samples for comparison, both intestinal intraluminal burst pressure trends and intravascular dye patterns suggested both the TA 3.5mm cartridge and (to a lesser extent) the 3.0/3.5/4.0mm EndoGIA cartridge could provide the ideal combination of intraluminal seal without restriction of vascular access for healing. The intravascular dye infusion technique, developed during this research, shows promise as a future instrument to determine vascular patterns around intestinal implants in cadaveric cat specimens. / Master of Science / Despite the regularity of feline small intestinal surgery, few reports exist of stapled anastomoses in cats, in part due to stapler size limitations. However, the recently developed endoscopic gastrointestinal anastomosis (EndoGIA) stapler shows promise as a future surgical tool for cats because it fits into cat intestine. In dogs, 3.5mm staples are often chosen for intestinal surgery; however, dog intestine is considerably thicker than cat intestine. The study goal was to evaluate not only intestinal burst pressures (the pressure at which repaired intestine leaks), but also the ability of fluids to flow through blood vessels that cross the staple lines of four stapler cartridge types from two staple lineages (EndoGIA 2.0/2.5/3.0mm, EndoGIA 3.0/3.5/4.0mm, TA 2.5mm, and TA 3.5mm). The central hypothesis was twofold. First, smaller stapler cartridge sizes (the EndoGIA 2.0/2.5/3.0mm and TA 2.5mm) would have higher intraluminal burst pressures when compared to the larger sizes (the EndoGIA 3.0/3.5/4.0mm). Second, larger stapler cartridges (the EndoGIA 3.0/3.5/4.0mm and the TA 3.5mm) would allow for increased flow of fluids in blood vessels past the stapler lines compared to the smaller cartridges (the EndoGIA 2.0/2.5/3.0mm and the TA 2.5mm). Two cats were included in the study. Trends in the data suggested that all components of the hypothesis might be proven with further data. However, due to the low number of cats acquired during the study period, the hypotheses could not be verified with statistics. The dye infusion technique to evaluate flow of fluids in blood vessels, developed during this research, shows promise as a future instrument to determine vascular patterns around intestinal implants. Future research should focus on acquiring more cats to have the ability able to perform statistical analyses (and prove the hypothesis), before proceeding with additional related studies.

Cat

Feline

Staples

Stapler

Cartridge

Intestine

Enterectomy

Resection-Anastomosis

EndoGIA

TA

Thoracoabdominal

FEESA

Small Intestine

Jejunum

Dye

Vasculature

Vessel

Leak

Burst Pressure

Histology

Quantitative functional MRI of the Cerebrovascular Reactivity to CO2

Tancredi, Felipe B.

02 1900

Le dioxyde de carbone (CO2) est un résidu naturel du métabolisme cellulaire, la troisième substance la plus abondante du sang, et un important agent vasoactif. À la moindre variation de la teneur en CO2 du sang, la résistance du système vasculaire cérébral et la perfusion tissulaire cérébrale subissent des changements globaux. Bien que les mécanismes exacts qui sous-tendent cet effet restent à être élucidés, le phénomène a été largement exploité dans les études de réactivité vasculaire cérébrale (RVC). Une voie prometteuse pour l’évaluation de la fonction vasculaire cérébrale est la cartographie de la RVC de manière non-invasive grâce à l’utilisation de l’Imagerie par Résonance Magnétique fonctionnelle (IRMf). Des mesures quantitatives et non-invasives de de la RVC peuvent être obtenus avec l’utilisation de différentes techniques telles que la manipu- lation du contenu artériel en CO2 (PaCO2) combinée à la technique de marquage de spin artériel (Arterial Spin Labeling, ASL), qui permet de mesurer les changements de la perfusion cérébrale provoqués par les stimuli vasculaires. Toutefois, les préoccupations liées à la sensibilité et la fiabilité des mesures de la RVC limitent de nos jours l’adoption plus large de ces méthodes modernes de IRMf. J’ai considéré qu’une analyse approfondie ainsi que l’amélioration des méthodes disponibles pourraient apporter une contribution précieuse dans le domaine du génie biomédical, de même qu’aider à faire progresser le développement de nouveaux outils d’imagerie de diagnostique. Dans cette thèse je présente une série d’études où j’examine l’impact des méthodes alternatives de stimulation/imagerie vasculaire sur les mesures de la RVC et les moyens d’améliorer la sensibilité et la fiabilité de telles méthodes. J’ai aussi inclus dans cette thèse un manuscrit théorique où j’examine la possible contribution d’un facteur méconnu dans le phénomène de la RVC : les variations de la pression osmotique du sang induites par les produits de la dissolution du CO2. Outre l’introduction générale (Chapitre 1) et les conclusions (Chapitre 6), cette thèse comporte 4 autres chapitres, au long des quels cinq différentes études sont présentées sous forme d’articles scientifiques qui ont été acceptés à des fins de publication dans différentes revues scientifiques. Chaque chapitre débute par sa propre introduction, qui consiste en une description plus détaillée du contexte motivant le(s) manuscrit(s) associé(s) et un bref résumé des résultats transmis. Un compte rendu détaillé des méthodes et des résultats peut être trouvé dans le(s) dit(s) manuscrit(s). Dans l’étude qui compose le Chapitre 2, je compare la sensibilité des deux techniques ASL de pointe et je démontre que la dernière implémentation de l’ASL continue, la pCASL, offre des mesures plus robustes de la RVC en comparaison à d’autres méthodes pulsés plus âgées. Dans le Chapitre 3, je compare les mesures de la RVC obtenues par pCASL avec l’utilisation de quatre méthodes respiratoires différentes pour manipuler le CO2 artérielle (PaCO2) et je démontre que les résultats peuvent varier de manière significative lorsque les manipulations ne sont pas conçues pour fonctionner dans l’intervalle linéaire de la courbe dose-réponse du CO2. Le Chapitre 4 comprend deux études complémentaires visant à déterminer le niveau de reproductibilité qui peut être obtenu en utilisant des méthodes plus récentes pour la mesure de la RVC. La première étude a abouti à la mise au point technique d’un appareil qui permet des manipulations respiratoires du CO2 de manière simple, sécuritaire et robuste. La méthode respiratoire améliorée a été utilisée dans la seconde étude – de neuro-imagerie – où la sensibilité et la reproductibilité de la RVC, mesurée par pCASL, ont été examinées. La technique d’imagerie pCASL a pu détecter des réponses de perfusion induites par la variation du CO2 dans environ 90% du cortex cérébral humain et la reproductibilité de ces mesures était comparable à celle d’autres mesures hémodynamiques déjà adoptées dans la pratique clinique. Enfin, dans le Chapitre 5, je présente un modèle mathématique qui décrit la RVC en termes de changements du PaCO2 liés à l’osmolarité du sang. Les réponses prédites par ce modèle correspondent étroitement aux changements hémodynamiques mesurés avec pCASL ; suggérant une contribution supplémentaire à la réactivité du système vasculaire cérébral en lien avec le CO2. / Carbon dioxide (CO2) is a natural byproduct of cellular metabolism, the third most abundant substance of blood, and a potent vasoactive agent. The resistance of cerebral vasculature and perfusion of the brain tissue respond to the slightest change in blood CO2 content. The physiology of such an effect remains elusive, yet the phenomenon has been widely exploited in studies of the cerebral vascular function. A promising avenue for the assessment of brain’s vascular function is to measure the cerebrovascular reactivity to CO2 (CVR) non-invasively using functional MRI. Quantitative and non-invasive mapping of CVR can be obtained using respiratory manipulations in arterial CO2 and Arterial Spin Labeling (ASL) to measure the perfusion changes associated with the vascular stimulus. However, concerns related to the sensitivity and reliability of CVR mea- sures by ASL still limit their broader adoption. I considered that a thorough analysis and amelioration of available methods could bring a valuable contribution in the domain of biomedical engineering, helping to advance new diagnostic imaging tools. In this thesis I present a series of studies where I exam the impact of alternative manipulation/ASL methods on CVR measures, and ways to improve the sensitivity and reliability of these measures. I have also included in this thesis a theoretical paper, where I exam the possible contribution of an unappreciated factor in the CVR phenomenon: the changes in blood osmotic pressure induced by the products of CO2 dissolution. Apart from a general introduction (Chapter 1) and conclusion (Chapter 6), this thesis comprises 4 other chapters, in which five different research studies are presented in the form of articles accepted for publication in scientific journals. Each of these chapters begins with its own specific introduction, which consists of a description of the background motivating the study and a brief summary of conveyed findings. A detailed account of methods and results can be found in the accompanying manuscript(s). The study composing Chapter 2 compares the sensitivity of two state-of-the-art ASL techniques and show that a recent implementation of continuous ASL, pCASL, affords more robust measures of CVR than older pulsed methods. The study described in Chapter 3 compares pCASL CVR measures obtained using 4 different respiratory methods to manipulate arterial CO2 (PaCO2) and shows that results can differ significantly when manipulations are not designed to operate at the linear range of the CO2 dose-response curve. Chapter 4 encompasses two complementary studies seeking to determine the degree of reproducibility that can be attained measuring CVR using the most recent methods. The first study resulted in the technical development of a breathing apparatus allowing simple, safe and robust respiratory CO2 manipulations. The improved respiratory method was used in the second – neuroimaging – study, in which I and co-authors investigate the sensitivity and reproducibility of pCASL measuring CVR. The pCASL imaging technique was able to detect CO2-induced perfusion responses in about 90% of the human brain cortex and the reproducibility of its measures was comparable to other hemodynamic measures already adopted in the clinical practice. Finally, in Chapter 5 I present a mathematical model that describes CVR in terms of PaCO2-related changes in blood osmolarity. The responses predicted by this model correspond closely to the hemodynamic changes measured with pCASL, suggesting an additional contribution to the reactivity of cerebral vasculature to CO2.

dyoxide de carbone

IRM fonctionnelle

Arterial Spin Labeling

perfusion cérébrale

pression osmotique du sang

Cerebrovascular reactivity

carbon dioxide

functional MRI

Arterial Spin Labeling

cerebral perfusion

blood osmotic pressure

Controlled Human Exposures to Concentrated Ambient Fine Particles and Ozone: Individual and Combined Effects on Cardiorespiratory Outcomes

Urch, R. Bruce

17 February 2011

Epidemiological studies have shown strong and consistent associations between exposure to air pollution and increases in morbidity and mortality. Key air pollutants that have been identified include fine particulate matter (PM) and ozone (O3), both major contributors to smog. However, there is a lack of understanding of the mechanisms involved and the relative contributions of individual pollutants. A controlled human exposure facility was used to carry out inhalation studies of concentrated ambient fine particles (CAP), O3, CAP+O3 and filtered air following a randomized design. Exposures were 2 hrs in duration at rest. Subjects included mild asthmatics and non-asthmatics. This thesis focuses on acute cardiovascular responses including blood pressure (BP), brachial artery reactivity (flow-mediated dilatation [FMD]) and markers of systemic inflammation (blood neutrophils and interleukin [IL]-6). Results showed that for CAP-containing exposures (CAP, CAP+O3) there were small but significant transient increases in diastolic BP (DBP) during exposures. Furthermore, neutrophils and IL-6 increased 1 - 3 hrs after and FMD decreased 20 hrs after CAP-containing exposures. Responses to O3 were smaller, comparable to filtered air. The data suggests that adverse responses were mainly driven by PM. The DBP increase was rapid-developing and quick to dissipate, which points to an autonomic irritant response. The magnitude of the DBP increase was strongly negatively associated with the high frequency component of heart rate variability, suggesting parasympathetic withdrawal as a mechanism. In comparison, IL-6, neutrophil and FMD responses were slower to develop, indicative of an inflammatory mechanism. An intriguing finding was that IL-6 increased 3 hrs after CAP, but not after CAP+O3. Further investigation revealed that exposure to CAP+O3 in some individuals may trigger a reflex inhibition of inspiration, decreasing their tidal volume and inhaled pollutant dose, leading to a reduction in systemic IL-6, a potential protective mechanism. Together the findings support the epidemiological evidence of adverse fine PM health effects. Many questions remain to be answered about the health effects of air pollution including a better understanding of how inhaled pollutants result in cardiovascular effects. It is hoped that the insights gained from this thesis will advance the understanding of air pollution health effects.

blood pressure

air pollution

particulate matter

ozone

inflammation

vasculature

controlled human exposures

concentrated ambient particles

vascular dysfunction

heart rate variability

asthma

IL-6

cardiovascular

cardiorespiratory

neutrophils

flow-mediated dilatation

0768

0566

Controlled Human Exposures to Concentrated Ambient Fine Particles and Ozone: Individual and Combined Effects on Cardiorespiratory Outcomes

Urch, R. Bruce

17 February 2011

Epidemiological studies have shown strong and consistent associations between exposure to air pollution and increases in morbidity and mortality. Key air pollutants that have been identified include fine particulate matter (PM) and ozone (O3), both major contributors to smog. However, there is a lack of understanding of the mechanisms involved and the relative contributions of individual pollutants. A controlled human exposure facility was used to carry out inhalation studies of concentrated ambient fine particles (CAP), O3, CAP+O3 and filtered air following a randomized design. Exposures were 2 hrs in duration at rest. Subjects included mild asthmatics and non-asthmatics. This thesis focuses on acute cardiovascular responses including blood pressure (BP), brachial artery reactivity (flow-mediated dilatation [FMD]) and markers of systemic inflammation (blood neutrophils and interleukin [IL]-6). Results showed that for CAP-containing exposures (CAP, CAP+O3) there were small but significant transient increases in diastolic BP (DBP) during exposures. Furthermore, neutrophils and IL-6 increased 1 - 3 hrs after and FMD decreased 20 hrs after CAP-containing exposures. Responses to O3 were smaller, comparable to filtered air. The data suggests that adverse responses were mainly driven by PM. The DBP increase was rapid-developing and quick to dissipate, which points to an autonomic irritant response. The magnitude of the DBP increase was strongly negatively associated with the high frequency component of heart rate variability, suggesting parasympathetic withdrawal as a mechanism. In comparison, IL-6, neutrophil and FMD responses were slower to develop, indicative of an inflammatory mechanism. An intriguing finding was that IL-6 increased 3 hrs after CAP, but not after CAP+O3. Further investigation revealed that exposure to CAP+O3 in some individuals may trigger a reflex inhibition of inspiration, decreasing their tidal volume and inhaled pollutant dose, leading to a reduction in systemic IL-6, a potential protective mechanism. Together the findings support the epidemiological evidence of adverse fine PM health effects. Many questions remain to be answered about the health effects of air pollution including a better understanding of how inhaled pollutants result in cardiovascular effects. It is hoped that the insights gained from this thesis will advance the understanding of air pollution health effects.

blood pressure

air pollution

particulate matter

ozone

inflammation

vasculature

controlled human exposures

concentrated ambient particles

vascular dysfunction

heart rate variability

asthma

IL-6

cardiovascular

cardiorespiratory

neutrophils

flow-mediated dilatation

0768

0566

Angiopoietin 1 and 2-regulated Tie2 receptor translocation in endothelial cells and investigation of Angiopoietin-2 splice variant 443

Pietilä, R. (Riikka)

19 May 2015

Abstract Angiopoietins 1 and 2 (Ang1 and Ang2) are the ligands of the Angiopoietin/Tie signalling system, which is a binary pathway offering mechanisms for healthy vessels to reach and maintain their quiescence but also to rapidly respond to activating stimuli leading to a remodelling of endothelium. The latter is linked to disease settings such as inflammation and cancer where endothelial cell (EC) integrity is compromised and is often related to an increase in Ang2 expression. This study focused on the mechanisms enabling Ang1 to mediate both EC stability and migration and molecular and cellular determinants for ligand-specific functions of Ang2 and its isoform Ang2443. The findings revealed that Ang1 induces differential signalling depending on whether it anchors and activates Tie2 in cell-cell junctions in quiescent ECs, or in cell-matrix contacts in mobile ECs, thus leading to cellular phenotypes characteristic of resting and mobile ECs, respectively. In the second part of the thesis Ang2-Tie2 specific cell-extracellular matrix (ECM) contact sites were studied. Formation of Ang2/Tie2 EC-ECM contact sites was dependent on the collagen I and IV matrices, low Ang2 oligomerization state, α2β1-integrins, and intact microtubules. In the third part of the thesis the comparison of Ang2 mRNA splice variant Ang2443 with full length Ang2 (Ang2FL) revealed both redundant and ligand form–specific effects, expression of Ang2443443 increased the amount of monomeric ligand forms due to proteolytic processing and promoted transendothelial migration of cancer cells in vitro. On the other hand, both Ang2443 and Ang2FL were stored in endothelial Weibel-Palade bodies (WPBs), similarly induced Ang2-specific Tie2 cellular redistribution, and were mostly comparable in developmental angio- and lymphangiogenesis. / Tiivistelmä Angiopoietiinit 1 ja 2 (Ang1 ja Ang2) ovat Ang/Tie signalointireitin kasvutekijöitä. Ang1 kasvutekijää tarvitaan sydämen ja verisuoniston sikiöaikaiseen kehittymiseen, se vähentää Tie2 reseptorin kautta verisuonten läpäisevyyttä, mutta edistää myös yksittäisten endoteelisolujen liikkumista. Saman Tie2 signalointireitin toisen kasvutekijän Ang2:n ilmeneminen johtaa verisuonten läpäisevyyden kasvuun tulehduksessa, uusien verisuonten muodostumiseen syöpäkasvaimissa ja syöpäsolujen leviämiseen elimistössä. Väitöskirjatutkimuksessa selvitettiin niitä solutason mekanismeja, joilla Ang1 kykenee välittämään sekä endoteelisolujen tiiviyttä että liikkumista. Lisäksi tutkittiin niitä molekyyli- ja solutason mekanismeja, joilla Ang2 ja sen isomuoto Ang2443 välittävät kasvutekijäspesifisiä vaikutuksiaan. Väitöskirjassa osoitettiin että Tie2 reseptori paikantuu verisuonten endoteelisoluissa Ang1 sitoutumisen seurauksena joko solu-soluliitoksiin, tai yksittäisissä endoteelisoluissa solu-soluväliaine rajapinnalle. Tie2:n siirtyminen solu-soluliitoksiin aktivoi soluissa signalointireittejä, jotka ovat tyypillisiä normaaleille tiiviille verisuonille ja solu-soluväliaineliitoksissa liikkuville endoteelisoluille tyypillisiä piirteitä. Väitöskirjatyön toisessa osassa tutkittiin Ang2:lle ominaisia vaikutuksia ja Ang2-Tie2 kompleksin paikantumista erityisiin solu-soluväliaineliitoksiin. Tämä oli riippuvaista Ang2:n oligomerisaatiosta, kollageenisoluväliaineesta, α2β1-integriinistä ja normaalista mikrotubulusverkostosta. Väitöskirjatyön kolmannessa osassa osoitettiin että Ang2443 isomuodolla on sekä yhteisiä että isomuotospesifisiä piirteitä verrattuna kokopitkään Ang2:een (Ang2FL). Liukoinen Ang2443, mutta ei Ang2FL, esiintyi yleisesti monomeerisenä ligandimuotona proteiinin multimerisaatio-osan pilkkomisen seurauksena. Ang2443 lisäsi myös syöpäsolujen liikkumista endoteelisolujen läpi. Toisaalta sekä Ang2443 että Ang2FL varastoitiin endoteelisoluissa Weibel-Palade varastokappaleisin, ne välittivät samanlaista Tie2 reseptorin paikantumista endoteelisoluissa ja toimivat pääsääntöisesti samanlaisina kasvutekijöinä veri- ja imusuonten kehityksen aikana hiiressä.

Angiopoietin-1

Angiopoietin-2

Weibel-Palade body

alternative mRNA splicing

cell adhesion

cell-cell junctions

endothelial cell

extracellular matrix

proteolytic processing

vasculature

Angiopoietiini-1

Angiopoietiini-2

Weibel-Palade kappale

endoteelisolu

mRNA:n vaihtoehtoinen silmukointi

proteolyyttinen muokkaus

solu-soluliitokset

soluväliaine

verisuonisto

Tie2

Chemosensitive Neurons of the Locus Coeruleus and the Nucleus Tractus Solitarius: Three Dimensional Morphology and Association with the Vasculature

Graham, Cathy D.

03 September 2014

No description available.

Physiology

Neurosciences

Biomedical Research

Morphology

chemosensitive

morphology

central chemosensitivity

NTS

chemoreceptor

CO2 sensor

vasculature

blood vessels

capillaries

blood brain barrier

pH

blood gases