Soluble urokinase plasminogen activator receptor and cardiovascular function in African and Caucasian populations : the SAfrEIC study / Anélda Smith

Smith, Anélda

January 2010

Motivation Soluble urokinase plasminogen activator receptor (suPAR) is a known inflammatory marker, which is found in various body fluids. SuPAR reflects the immune and pro–inflammatory status of patients caused by HIV and tuberculosis, amongst others. However, recent studies have shown that suPAR is related to cardiovascular function. The cardiovascular health of the black South African population is a major health concern as this group suffers mostly from hypertension and stroke, leading to an alarming increase in cardiovascular morbidity and mortality. SuPAR may be able to contribute to early detection and prevention of cardiovascular diseases. No studies regarding the associations of suPAR with cardiovascular function have been investigated on black South Africans. Objectives To investigate suPAR as a possible marker of cardiovascular function in African and Caucasian men and women, by determining possible gender and ethnic–specific associations of suPAR with cardiovascular function. Methodology There were 207 African and 314 Caucasian men and women (aged 20–79 yrs.) included in this study. High–sensitivity C–reactive protein, glucose, lipids and creatinine were determined in fasting serum and suPAR was analyzed in plasma samples. Blood pressure was measured using the OMRON apparatus (HEM–747), with a 5–min rest interval between measurements. The Finometer device was used to determine the Windkessel compliance and the carotid dorsalis–pedis pulse wave velocity (PWV) was measured with the Complior (SP acquisition system) on the left side of each subject in the supine position. The means, adjusted means and proportions were compared between the groups by using independent t–tests, analysis of co–variance and the chi–square test, respectively. Associations were investigated between cardiovascular variables and suPAR using single and multiple regression analyses with either pulse wave velocity, systolic blood pressure, diastolic blood pressure or Windkessel compliance as dependent variable. Covariates included were age, body mass index, smoking, alcohol use, physical activity, glucose and high–density lipoprotein cholesterol. Results and conclusion SuPAR levels were significantly higher in Africans (P<0.001) compared to Caucasians. After adjusting for body mass index, suPAR increased significantly with age in all groups, except for African women. Moreover, the suPAR levels of African men and women were significantly higher than the Caucasians within each age quartile. While adjusting for age and body mass index, the cardiovascular profiles of the African and Caucasian men were less favourable compared to women, but suPAR levels were significantly higher in Caucasian women compared to men. In single regression, various measures of cardiovascular function correlated with suPAR in African men and Caucasian men and women. After adjusting for confounders the associations disappeared in Caucasian women, and remained nonsignificant in the African women. However, the association between PWV and suPAR remained significant in African men (B=0.19; P=0.030), while the association of systolic blood pressure (B=0.20; P=0.017), diastolic blood pressure (B=0.17; P=0.020) and Windkessel compliance (B=–0.14; P=0.004) with suPAR remained significant in Caucasian men. In conclusion, Africans presented higher suPAR levels compared to Caucasians, even when stratified by age. Gender specific associations indicated that suPAR was associated with arterial stiffness in African and Caucasian men only, therefore, indicating that suPAR could be a possible biomarker for predicting cardiovascular dysfunction. / Thesis (M.Sc. (Physiology))--North-West University, Potchefstroom Campus, 2011.

Cardiovascular function

Ethnicity

Gender

Age

Kardiovaskulêre funksie

Etnisiteit

Geslag

Ouderdom

Soluble urokinase plasminogen activator receptor and cardiovascular function in African and Caucasian populations : the SAfrEIC study / Anélda Smith

Smith, Anélda

January 2010

Motivation Soluble urokinase plasminogen activator receptor (suPAR) is a known inflammatory marker, which is found in various body fluids. SuPAR reflects the immune and pro–inflammatory status of patients caused by HIV and tuberculosis, amongst others. However, recent studies have shown that suPAR is related to cardiovascular function. The cardiovascular health of the black South African population is a major health concern as this group suffers mostly from hypertension and stroke, leading to an alarming increase in cardiovascular morbidity and mortality. SuPAR may be able to contribute to early detection and prevention of cardiovascular diseases. No studies regarding the associations of suPAR with cardiovascular function have been investigated on black South Africans. Objectives To investigate suPAR as a possible marker of cardiovascular function in African and Caucasian men and women, by determining possible gender and ethnic–specific associations of suPAR with cardiovascular function. Methodology There were 207 African and 314 Caucasian men and women (aged 20–79 yrs.) included in this study. High–sensitivity C–reactive protein, glucose, lipids and creatinine were determined in fasting serum and suPAR was analyzed in plasma samples. Blood pressure was measured using the OMRON apparatus (HEM–747), with a 5–min rest interval between measurements. The Finometer device was used to determine the Windkessel compliance and the carotid dorsalis–pedis pulse wave velocity (PWV) was measured with the Complior (SP acquisition system) on the left side of each subject in the supine position. The means, adjusted means and proportions were compared between the groups by using independent t–tests, analysis of co–variance and the chi–square test, respectively. Associations were investigated between cardiovascular variables and suPAR using single and multiple regression analyses with either pulse wave velocity, systolic blood pressure, diastolic blood pressure or Windkessel compliance as dependent variable. Covariates included were age, body mass index, smoking, alcohol use, physical activity, glucose and high–density lipoprotein cholesterol. Results and conclusion SuPAR levels were significantly higher in Africans (P<0.001) compared to Caucasians. After adjusting for body mass index, suPAR increased significantly with age in all groups, except for African women. Moreover, the suPAR levels of African men and women were significantly higher than the Caucasians within each age quartile. While adjusting for age and body mass index, the cardiovascular profiles of the African and Caucasian men were less favourable compared to women, but suPAR levels were significantly higher in Caucasian women compared to men. In single regression, various measures of cardiovascular function correlated with suPAR in African men and Caucasian men and women. After adjusting for confounders the associations disappeared in Caucasian women, and remained nonsignificant in the African women. However, the association between PWV and suPAR remained significant in African men (B=0.19; P=0.030), while the association of systolic blood pressure (B=0.20; P=0.017), diastolic blood pressure (B=0.17; P=0.020) and Windkessel compliance (B=–0.14; P=0.004) with suPAR remained significant in Caucasian men. In conclusion, Africans presented higher suPAR levels compared to Caucasians, even when stratified by age. Gender specific associations indicated that suPAR was associated with arterial stiffness in African and Caucasian men only, therefore, indicating that suPAR could be a possible biomarker for predicting cardiovascular dysfunction. / Thesis (M.Sc. (Physiology))--North-West University, Potchefstroom Campus, 2011.

Cardiovascular function

Ethnicity

Gender

Age

Kardiovaskulêre funksie

Etnisiteit

Geslag

Ouderdom

The relation between salivary suPAR and arthritis in the temporomandibular joint

Lam, Julia, Vekariya, Sandip

January 2015

Syfte: Att utreda sambandet mellan den lösliga formen av urokinas-receptorn (suPAR) i saliv hos patienter med artrit i käkleden (A-TMJ) och friska kontroller, för att skapa en grund för vidare forskning av suPAR som prediktor för inflammationsgraden i käkleden hos patienter med A-TMJ.Material och metod: En fall-kontrollstudie utfördes med 6 kontroller (medelåldern 31±11år) och 5 patienter med A-TMJ (medelåldern 24±5år). Undersökningen bestod av salivprov, registrering av blödning vid sondering (BoP), blodprovstagning, och undersökning av tuggsystemet där antalet smärtsamma käkledsrörelser (PM) mättes. Sist samlades käkledvätska in. Halten suPAR analyserades i saliv, plasma och käkledsvätska. Resultat: En signifikant skillnad mellan suPAR i saliv kunde ej påvisas (A-TMJ 4,4±3,91ng/ml, kontroller 4,96±4,80ng/ml), emellertid hade patienter en signifikant högre halt av suPAR i plasma (A-TMJ 2,71±0,62ng/ml, kontroller: 1,86±0,35ng/ml, P=0,017). Halten av suPAR i käkledsvätska mättes till 1,57±1,50ng/ml hos patienter men kunde inte detekteras hos kontroller. BoP mättes till 16±9% hos patienter och 14±7% hos kontroller, och median(IQR) för PM var 3(1) i höger käkled och 0(3) i vänster käkled hos patienter. Slutsatser: (i) Ingen slutsats kan dras gällande sambandet mellan suPAR i saliv och A-TMJ, men (ii) patienter med A-TMJ har till viss mån en högre smärta i käkleden vid käkledsrörelse medan deras koncentration av suPAR i plasma är högre jämfört med friska kontroller. Det verkar som (iii) BoP skulle kunna vara kopplat till suPAR i saliv. Resultat från denna studie bör tolkas med försiktighet på grund av litet stickprov, fortsatt forskning behövs för att klargöra sambandet mellan suPAR i saliv och A-TMJ. / Aims: To investigate the levels of soluble urokinase plasminogen activator receptor (suPAR) in saliva between patients with arthritis in the temporomandibular joint (A-TMJ) and healthy controls to create a foundation for further research of the potential predictive value of suPAR in patients with A-TMJ.Materials and method: A case- control study was conducted, 6 controls (mean age 31±11years) and 5 patients with A-TMJ (mean age 24±5years) enrolled in the study. Saliva, blood, synovial fluid (SF) were sampled, and the masticatory system was examined according to DC/TMD, and bleeding on probing (BoP) was assessed, as was painful mandibular movement (PM). The level of suPAR was analyzed in saliva, plasma and SF.Results: Level of salivary suPAR did not differ significantly between A-TMJ patients and healthy controls (P > 0.05). Patients had a significantly higher level of suPAR in plasma than controls (A-TMJ 2.71±0.62ng/mL, controls: 1.86±0.35ng/mL, P=0.017). suPAR level in SF was measured to 1.57±1.50ng/mL in A-TMJ patients and not detected in controls. BoP was 16±9% in patients and 14±7% in controls, and median(IQR) of PM was 3(1) in the right TMJ and 0(3) in the left in patients.Conclusions: (i) No conclusion can be drawn regarding suPAR in saliva and A-TMJ, but (ii) to some degree A-TMJ patients have higher PM meanwhile their plasma concentration of suPAR is higher than controls. A trend that (iii) higher BoP is connected with higher suPAR in saliva could be distinguished. Results must be interpreted with caution due to small study sample, more research is required to further elucidate the association between suPAR in saliva and A-TMJ.

biological markers

arthritis

temporomandibular joint disorders

Medical and Health Sciences

Medicin och hälsovetenskap

EPIGENTIC LANDSCAPE OF THE PLASMINOGEN ACTIVATOR UROKINASE LOCUS IN QUEBEC PLATELET DISORDER

Soomro, Asim

January 2016

Quebec platelet disorder (QPD) is a bleeding disorder characterized by a gain of function defect in fibrinolysis. The hallmark feature of QPD is the marked overexpression of urokinase plasminogen activator (uPA) in megakaryocytes (MK) and platelets. The genetic cause of QPD is a tandem duplication of a ~78 kb region that encompasses the uPA gene, PLAU. As the mechanism of PLAU overexpression is unknown, gene regulatory mechanisms specifically epigenetics were evaluated at the PLAU locus in QPD MK and granulocytes, a QPD unaffected lineage. The aims of the thesis were to assess if QPD is associated with 1) genome wide methylation changes of promoter CpG islands, particularly at PLAU and 2) genome wide changes of active histone modifications H3K27Ac, H3K36me3 and H3K4me2, particularly at the region of PLAU duplication. Methylation and active histone enrichment analysis revealed that in QPD and control subjects, PLAU promoter CpG island was characterized by unaltered hypo-methylation and changes in active histone peak enrichments that were within the realm of having one extra copy of PLAU in both MK and granulocytes. The findings imply that the PLAU CNV mutation does not induce altered promoter methylation status and/or significantly alter active histone markers as the reason for the marked PLAU overexpression in QPD MK. Instead, the rearrangement of an active enhancer element, particularly an H3K27Ac enhancer expressed in MK but not granulocytes, that is upstream of the second copy of PLAU might underlie the marked PLAU expression by differentiated QPD MK. The thesis provides novel insights into the epigenetic regulation of PLAU that will be crucial to identifying the mechanism underlying the aberrant PLAU expression in QPD. / Thesis / Master of Science (MSc)

Investigating spatial distribution and dynamics of membrane proteins in polymer-tethered lipid bilayer systems using single molecule-sensitive imaging techniques

Ge, Yifan

12 1900

Indiana University-Purdue University Indianapolis (IUPUI) / Plasma membranes are complex supramolecular assemblies comprised of lipids and membrane proteins. Both types of membrane constituents are organized in highly dynamic patches with profound impact on membrane functionality, illustrating the functional importance of plasma membrane fluidity. Exemplary, dynamic processes of membrane protein oligomerization and distribution are of physiological and pathological importance. However, due to the complexity of the plasma membrane, the underlying regulatory mechanisms of membrane protein organization and distribution remain elusive. To address this shortcoming, in this thesis work, different mechanisms of dynamic membrane protein assembly and distribution are examined in a polymer-tethered lipid bilayer system using comple-mentary confocal optical detection techniques, including 2D confocal imaging and single molecule-sensitive confocal fluorescence intensity analysis methods [fluorescence correlation spectroscopy (FCS) autocorrelation analysis and photon counting histogram (PCH) method]. Specifically, this complementary methodology was applied to investigate mechanisms of membrane protein assembly and distribution, which are of significance in the areas of membrane biophysics and cellular mechanics. From the membrane biophysics perspective, the role of lipid heterogeneities in the distribution and function of membrane proteins in the plasma membrane has been a long-standing problem. One of the most well-known membrane heterogeneities are known as lipid rafts, which are domains enriched in sphingolipids and cholesterol (CHOL). A hallmark of lipid rafts is that they are important regulators of membrane protein distribution and function in the plasma membrane. Unfortunately, progress in deciphering the mechanisms of raft-mediated regulation of membrane protein distribution has been sluggish, largely due to the small size and transient nature of raft domains in cellular membranes. To overcome this challenge, the current thesis explored the distribution and oligomerization of membrane proteins in raft-mimicking lipid mixtures, which form stable coexisting CHOL-enriched and CHOL-deficient lipid domains of micron-size, which can easily be visualized using optical microscopy techniques. In particular, model membrane experiments were designed, which provided insight into the role of membrane CHOL level versus binding of native ligands on the oligomerization state and distribution of GPI-anchored urokinase plasminogen activator receptor (uPAR) and the transmembrane protein αvβ3 integrin. Experiments on uPAR showed that receptor oligomerization and raft sequestration are predominantly influenced by the binding of natural ligands, but are largely independent of CHOL level changes. In contrast, through a presumably different mechanism, the sequestration of αvβ3 integrin in raft-mimicking lipid mixtures is dependent on both ligand binding and CHOL content changes without altering protein oligomerization state. In addition, the significance of membrane-embedded ligands as regulators of integrin sequestration in raft-mimicking lipid mixtures was explored. One set of experiments showed that ganglioside GM3 induces dimerization of α5β1 integrins in a CHOL-free lipid bilayer, while addition of CHOL suppresses such a dimerization process. Furthermore, GM3 was found to recruit α5β1 integrin into CHOL-enriched domains, illustrating the potential sig-nificance of GM3 as a membrane-associated ligand of α5β1 integrin. Similarly, uPAR was observed to form complexes with αvβ3 integrin in a CHOL dependent manner, thereby causing the translocation of the complex into CHOL-enriched domains. Moreover, using a newly developed dual color FCS and PCH assay, the composition of uPAR and integrin within complexes was determined for the first time. From the perspective of cell mechanics, the characterization of the dynamic assembly of membrane proteins during formation of cell adhesions represents an important scientific problem. Cell adhesions play an important role as force transducers of cellular contractile forces. They may be formed between cell and extracellular matrix, through integrin-based focal adhesions, as well as between different cells, through cadherin-based adherens junctions (AJs). Importantly, both types of cell adhesions act as sensitive force sensors, which change their size and shape in response to external mechanical signals. Traditionally, the correlation between adhesion linker assembly and external mechanical cues was investigated by employing polymeric substrates of adjustable substrate stiffness containing covalently attached linkers. Such systems are well suited to mimic the mechanosensitive assembly of focal adhesions (FAs), but fail to replicate the rich dynamics of cell-cell linkages, such as treadmilling of adherens junctions, during cellular force sensing. To overcome this limitation, the 2D confocal imaging methodology was applied to investigate the dynamic assembly of N-cadherin-chimera on the surface of a polymer-tethered lipid multi-bilayer in the presence of plated cells. Here, the N-cadherin chimera-functionalized polymer-tethered lipid bilayer acts as a cell surface-mimicking cell substrate, which: (i) allows the adjustment of substrate stiffness by changing the degree of bilayer stacking and (ii) enables the free assembly of N-cadherin chimera linkers into clusters underneath migrating cells, thereby forming highly dynamic cell-substrate linkages with remarkable parallels to adherens junctions. By applying the confocal methodology, the dynamic assembly of dye-labeled N-cadherin chimera into clusters was monitored underneath adhered cells. Moreover, the long-range mobility of N-cadherin chimera clusters was analyzed by tracking the cluster positions over time using a MATLAB-based multiple-particle tracking method. Disruption of the cytoskeleton organization of plated cells confirmed the disassembly of N-cadherin chimera clusters, emphasizing the important role of the cytoskeleton of migrating cells during formation of cadherin-based cell-substrate linkages. Size and dynamics of N-cadherin chimera clusters were also analyzed as a function of substrate stiffness.

membrane protein

membrane biophysics

polymer-tethered lipid bilayer

integrin

cadherin

urokinase plasminogen activator receptor

confocal microscope

single molecule detection

cell mechanosensation

Biochemical And Genetic Studies of Quebec Platelet Disorder

Diamandis, Maria

05 1900

<p> Inherited bleeding disorders can be caused by mutations affecting platelet, coagulation, or fibrinolytic proteins. Quebec platelet disorder (QPD) is a rare, autosomal dominant disorder associated with increased expression of the fibrinolytic enzyme urokinase plasminogen activator (uPA) in platelets. Individuals with QPD experience delayed-onset bleeding after hemostatic challenges that is attenuated with fibrinolytic inhibitor therapy. The aims of this thesis were to: 1) determine if increased platelet uPA contributes to QPD clot lysis in vitro; 2) investigate whether QPD individuals have increased urinary uPA, as some individuals experience hematuria; and 3) map the genetic locus of QPD, and look for the putative mutation. Studies of clot lysis indicated that QPD platelets induce a gain-of-function defect in fibrinolysis when platelets are incorporated into clots. This suggests that accelerated fibrinolysis may contribute to QPD bleeding. Studies of urinary uPA in QPD showed that uPA is not increased, indicating that hematuria in QPD is likely a consequence of increased platelet uPA. This finding also suggests that uPA overexpression in QPD may be megakaryocyte-specific. Linkage studies showed that QPD is strongly linked to a 2 megabase region on chromosome 10 that harbors the uPA gene, PLA U. No mutations in PLA U or its regulatory regions were identified; however, a common haplotype for a 32.5 kilobase region around PLA U, including inheritance of a rare, linked polymorphism, suggests this is the most likely locus for QPD. mRNA studies in QPD platelets showed that QPD selectively increases expression of the linked PLAU allele, without similar increases in megakaryocyte progenitors or in saliva. These findings implicate a cis-mutation near PLA U as the cause of QPD. This thesis provides novel insights on the fibrinolytic abnormality in QPD blood, and on the QPD genetic locus. which will be important for identifying the precise mutation that converts normally prohemostatic platelets to profibrinolytic cells. </p> / Thesis / Doctor of Philosophy (PhD)

disorders

bleeding

inherited bleeding disorders

mutations

platelet

coagulation

QPD

Quebec Platelet Disorder

Autosomal Diominant Disorder

urokinase plasminogen activator

uPA

genetic

clot lysis

fibrinolysis

hematuria

Mécanismes transcriptionnels gouvernés par Fra-1 et Fra-2 dans les cancers du sein agressifs / Transcriptionnal mechanisms governed by Fra1 and Fra-2 in agressive breast cancer.

Moquet-Torcy, Gabriel

13 December 2011

Le cancer du sein est la principale cause de mortalité par cancer chez la femme. Deux des facteurs de transcription de la famille Fos, Fra-1 et Fra-2, sont surexprimés dans les cancers du sein agressifs et contribuent au phénotype tumoral en favorisant entre autres, la prolifération, la motilité et l'invasivité. De façon surprenante, les mécanismes moléculaires via lesquels Fra-1 et Fra-2 (et plus généralement le complexe transcriptionnel AP-1 dont ils sont des constituants) gouvernent la transcription de leurs gènes cibles sont quasi-inconnus. Dans ce contexte, en combinant diverses approches (immunoprécipitation de chromatine, interférence à l'ARN…), j'ai étudié les mécanismes moléculaires par lesquels Fra-1 et Fra-2 contrôlent la transcription dérégulée du gène de l'urokinase ou uPA (sérine protéase cruciale dans la progression tumorale et l'établissement de métastases) qui est l'un des nouveaux marqueurs utilisés en clinique pour la mise en place des choix thérapeutiques. Mes travaux montrent de façon originale que (i) Fra-1 et Fra-2 agissent de façon non redondante et coopèrent pour réguler l'expression d'uPA via leur fixation sur un enhancer AP-1 localisé à -1,9 kb du site d'initiation de la transcription (TSS), (ii) Fra-2 est nécessaire au recrutement de RNA Pol II au niveau de l'enhancer, tandis que Fra-1 stimule le passage de RNA Pol II de sa forme initiatrice à sa forme élongatrice et (iii) que la polymérase recrutée à l'enhancer rejoint le TSS par un mécanisme de « tracking », très rarement décrit dans la littérature, en produisant de petits ARNs non codants, bidirectionnels et instables. / Breast cancer is the most frequent malignant disease among women. Two transcription factors, Fra-1 and Fra-2, belonging to the Fos family members, are overexpressed in aggressive breast cancers and contribute to the tumorigenic phenotype by favoring proliferation, motility and invasion. Surprisingly, the molecular mechanisms governed by Fra-1 and Fra-2 (and more generally by the AP-1 transcriptional complex, which they are components of) for the transcription of their target genes are still largely unknown. In this context, by combining different approaches (chromatin immunoprecipitation, RNA interference…), I studied the molecular mechanisms orchestrated by Fra-1 and Fra-2 for the expression of the urokinase (or uPA) gene (encoding a serine protease crucial for tumor progression and metastasis), which is one of the new diagnostic markers now taken into consideration for deciding therapeutic strategies. Interestingly, my results show that (i) Fra-1 and Fra-2 have non redundant functions and cooperate for the transcriptional regulation of uPA through their binding to AP-1 enhancer located 1.9 kb upstream of the transcriptional start site (TSS), (ii) Fra-2 is required for the recruitment of RNA Pol II on this enhancer while Fra-1 allows the conversion of RNA Pol II initiating form into its elongating form and (iii) enhancer-recruited RNA Pol II reaches the TSS by a tracking mechanism, mechanism very rarely described in the literature, during which it synthetizes small, unstable bidirectional, non coding RNAs.

Fra-1; Fra-2; AP-1

Enhancer

Régulation de la transcription

UPA (urokinase)

Activateur du plasminogène

RNA Pol II-Trackingcancer du sein

Fra-1; Fra-2; AP-1

Enhancer

Transcription regulation

Urokinase plasminogen activator

RNA Pol II-Tracking

Breast cancer