Efficacy of an Experiential, In-School Educational Program for Improving Elementary School Students' Attitudes and Knowledge about the Environment

Burger, Leslie M

13 December 2014

Stagnant science achievement by students, greater demands and stresses on natural resources and environmental systems, and societal disengagement from nature highlight the need for education programs to ameliorate subsequent consequences. One attempt to address science performance and environmental apathy is Youth Environmental Science (YES), an environmental education program initiated in 2011 in a rural, minority-dominated, upper elementary school in Mississippi. The program provides five consecutive days (30 hours) of experiential learning in natural sciences. During 2011-2013, I studied cognitive and affective responses of fourth and fifth grade students to YES participation using a pretest-posttest-delayed posttest design. The influence of demographic factors (race/ethnicity, gender, and economic status) on student responses was also examined. Compared to pretest scores, posttest knowledge and attitude scores were higher for YES participants, indicating the pedagogy was effective at promoting knowledge gains and positive environmental attitudes. Higher values were associated with female, non-Black, or higher income students; however, gains in both knowledge and attitude were similar across all demographic groupings, suggesting students from diverse backgrounds benefitted equally. Year-end proficiency exams indicated natural science knowledge gained by fourth and fifth grade students during their participation in YES did not decline with time, demonstrating retention and application of content knowledge. Moreover, although Black and low income fifth grade students had lower proficiency scores, these groups showed generally increasing trends in exam performance with elapsed time. This pattern suggests experiential and intensive environmental education interventions scheduled early in the academic year may be effective for sensitizing students for classroom learning that follows later in the year. This may be particularly impactful to those students who may experience fewer science enrichment and outdoor opportunities and thereby provide a mechanism for reducing achievement gaps among demographic groups.

achievement gap

elementary science

environmental education

Electrical transport properties of n-Type InP

Beaudoin, Mario

January 1988

No description available.

Narrow gap semiconductors

Indium phosphide -- Electric properties.

Stem Cell-based Adipose Tissue Engineering - Engineering of Prevascularized Adipose Tissue Constructs In Vitro & Investigation on Gap Junctional Intercellular Communication in Adipose-derived Stem Cells / Stammzellbasiertes Tissue Engineering von Fettgewebe - Entwicklung eines prävaskularisierten Fettgewebekonstrukts in vitro & Untersuchung der interzellulären Kommunikation über Gap Junctions in Stammzellen aus dem Fettgewebe

Wiesner, Miriam

January 2020

In reconstructive and plastic surgery, there exists a growing demand of adequate tissue implants, since currently available strategies for autologous transplantation are limited by complications including transplant failure and donor site morbidity. By developing in vitro and in vivo autologous substitutes for defective tissue sites, adipose tissue engineering can address these challenges, although there are several obstacles to overcome. One of the major limitations is the sufficient vascularization of in vitro engineered large constructs that remains crucial and demanding for functional tissues. Decellularized jejunal segments may represent a suitable scaffolding system with preexisting capillary structures that can be repopulated with human microvascular endothelial cells (hMVECs), and a luminal matrix applicable for the adipogenic differentiation of human adipose-derived stem cells (hASCs). Hence, co-culture of these cells in jejunal segments, utilizing a custom-made bioreactor system, was characterized in terms of vascularization and adipose tissue development. Substantial adipogenesis of hASCs was demonstrated within the jejunal lumen in contrast to non-induced controls, and the increase of key adipogenic markers was verified over time upon induction. The development of major extracellular matrix components of mature adipose tissue, such as laminin and collagen IV, was shown within the scaffold in induced samples. Successful reseeding of the vascular network with hMVECs was demonstrated in long-term culture and co-localization of vascular structures and adipogenically differentiated hASCs was observed. Therefore, these results represent a novel approach for in vitro engineering of vascularized adipose tissue constructs that warrants further investigations in preclinical studies. Another still existing obstacle in adipose tissue engineering is the insufficient knowledge about the applied cells, for instance the understanding of how cells can be optimally expanded and differentiated for successful engineering of tissue transplants. Even though hASCs can be easily isolated from liposuction of abdominal fat depots, yielding low donor site morbidity, huge numbers of cells are required to entirely seed complex and large 3D matrices or scaffolds. Thus, cells need to be large-scale expanded in vitro on the premise of not losing their differentiation capacity caused by replicative aging. Accordingly, an improved differentiation of hASCs in adipose tissue engineering approaches remains still desirable since most engineered constructs exhibit an inhomogeneous differentiation pattern. For mesenchymal stem cells (MSCs), it has been shown that growth factor application can lead to a significant improvement of both proliferation and differentiation capacity. Especially basic fibroblast growth factor (bFGF) represents a potent mitogen for MSCs, while maintaining or even promoting their osteogenic, chondrogenic and adipogenic differentiation potential. As there are currently different contradictory information present in literature about the applied bFGF concentration and the explicit effect of bFGF on ASC differentiation, here, the effect of bFGF on hASC proliferation and differentiation capacity was investigated at different concentrations and time points in 2D culture. Preculture of hASCs with bFGF prior to adipogenic induction showed a remarkable effect, whereas administration of bFGF during culture did not improve adipogenic differentiation capacity. Furthermore, the observations indicated as mode of action an impact of this preculture on cell proliferation capacity, resulting in increased cellular density at the time of adipogenic induction. The difference in cell density at this time point appeared to be pivotal for increased adipogenic capacity of the cells, which was confirmed in a further experiment employing different seeding densities. Interestingly, furthermore, the obtained results suggested a cell-cell contact-mediated mechanism positively influencing adipogenic differentiation. As a consequence, subsequently, studies were conducted focusing on intercellular communication of these cells, which has hardly been investigated to date. Despite the multitude of literature on the differentiation capacity of ASCs, little is reported about the physiological properties contributing to and controlling the process of lineage differentiation. Direct intercellular communication between adjacent cells via gap junctions has been shown to modulate differentiation processes in other cell types, with connexin 43 (Cx43) being the most abundant isoform of the gap junction-forming connexins. Thus, in the present study we focused on the expression of Cx43 and gap junctional intercellular communication (GJIC) in hASCs, and its significance for adipogenic differentiation of these cells. Cx43 expression in hASCs was demonstrated histologically and on the gene and protein expression level and was shown to be greatly positively influenced by cell seeding density. Functionality of gap junctions was proven by dye transfer analysis in growth medium. Adipogenic differentiation of hASCs was shown to be also distinctly elevated at higher cell seeding densities. Inhibition of GJIC by 18α-glycyrrhetinic acid significantly compromised adipogenic differentiation, as demonstrated by histology, triglyceride quantification, and adipogenic marker gene expression. Flow cytometry analysis showed a lower proportion of cells undergoing adipogenesis when GJIC was inhibited, further indicating the importance of GJIC in the differentiation process. Altogether, these results demonstrate the impact of direct cell-cell communication via gap junctions on the adipogenic differentiation process of hASCs and may contribute to further integrate direct intercellular crosstalk in rationales for tissue engineering approaches. / In der rekonstruktiven und plastischen Chirurgie besteht ein wachsender Bedarf an adäquaten Gewebetransplantaten, da die derzeit verfügbaren Strategien für autologe Transplantationen von Geweben durch Komplikationen wie beispielsweise Transplantatversagen sowie Morbiditäten an der Entnahmestelle beeinträchtigt werden. Das Tissue Engineering kann dieser Problematik jedoch durch die Entwicklung von in vitro und in vivo gezüchtetem, autologen Gewebeersatz für defekte Gewebestellen begegnen, wobei es dabei noch mehrere Hindernisse zu überwinden gilt. Eine der größten Limitationen ist die ausreichende Vaskularisierung der in vitro hergestellten, großen Konstrukte, welche für die Funktion des Gewebes entscheidend ist. Hierfür können dezellularisierte, jejunale Segmente ein geeignetes Gerüstsystem darstellen, deren bereits vorhandene Kapillarstrukturen mit humanen, mikrovaskulären Endothelzellen (hMVECs) und deren luminale Matrix mit humanen Stammzellen aus dem Fettgewebe (hASCs), mit anschließender adipogen Differenzierung, besiedelt werden können. Im Rahmen der vorliegenden Arbeit wurden diese Konstrukte mit Hilfe eines maßgeschneiderten Bioreaktorsystems kultiviert und die Kokultur der Zellen in der jejunalen Matrix hinsichtlich der Fettgewebeentwicklung untersucht. Im Gegensatz zu nicht-induzierten Kontrollen wurde nach adipogener Induktion innerhalb des jejunalen Lumens eine substanzielle Fettgewebebildung der hASCs, sowie ein Anstieg wichtiger adipogener Marker im zeitlichen Verlauf nachgewiesen. Die Bildung wesentlicher extrazellulärer Matrixkomponenten des reifen Fettgewebes, wie beispielsweise Laminin und Kollagen IV, wurde innerhalb der Matrix bei induzierten Proben ebenso beobachtet. Die erfolgreiche Neubesiedlung des Gefäßnetzes mit hMVECs konnte in der Langzeitkultur gezeigt und eine Kolokalisation von Gefäßstrukturen und differenzierten hASCs beobachtet werden. Somit stellen diese Ergebnisse einen vielversprechenden, neuen Ansatz für die in vitro Entwicklung von vaskularisierten Fettgewebekonstrukten dar, welcher jedoch noch weitere Untersuchungen in präklinischen Studien erfordert. Eine weitere Limitation in der Entwicklung von Fettgewebe ist das unzureichende Wissen über die verwendeten Zellen – so zum Beispiel wie Zellen optimal expandiert und differenziert werden können, um einen Gewebeersatz erfolgreich herzustellen. Auch wenn hASCs leicht aus abdominalen Liposuktionen, welche zu einer relativ geringen Morbidität an der Entnahmestelle führen, isoliert werden können, ist eine sehr große Anzahl an Zellen erforderlich, um komplexe und große 3D-Matrizes vollständig mit Zellen zu besiedeln. So müssen Zellen in vitro im großen Maßstab expandiert werden, wobei auf die Erhaltung ihrer Differenzierungskapazität und die Vermeidung des replikativen Alterns geachtet werden muss. Da viele der entwickelten Konstrukte des Weiteren ein inhomogenes Differenzierungsmuster aufweisen, ist eine Verbesserung der adipogenen Differenzierung von ASCs im Rahmen von Tissue Engineering Ansätzen wünschenswert. Für mesenchymale Stammzellen (MSCs) wurde bereits gezeigt, dass die Anwendung von Wachstumsfaktoren zu einer deutlichen Verbesserung der Proliferations- und Differenzierungskapazität führen kann. Insbesondere der Wachstumsfaktor bFGF (basic fibroblast growth factor) stellt ein starkes Mitogen für MSCs dar, wobei er das osteogene, chondrogene und adipogene Differenzierungspotenzial der Zellen aufrechterhält und sogar fördert. Da es in der Literatur derzeit unterschiedliche und teilweise widersprüchliche Informationen über die verwendeten bFGF Konzentrationen und den expliziten Effekt von bFGF auf die Differenzierung von ASCs gibt, wurde der Effekt von bFGF auf die Proliferations- und Differenzierungsfähigkeit mit unterschiedlichen Konzentrationen und zu unterschiedlichen Zeitpunkten in der 2D Kultur untersucht. Die Vorkultur der hASCs mit bFGF vor der adipogenen Induktion hatte einen beachtlichen Effekt auf die Differenzierung, während die Verabreichung von bFGF während der Kultur, die adipogene Differenzierungsfähigkeit der Zellen nicht verbesserte. Darüber hinaus zeigten die Ergebnisse einen Einfluss der Vorkultur auf die Zellproliferation, was zu einer erhöhten Zelldichte zum Zeitpunkt der adipogenen Induktion führte. Der Unterschied in der Zelldichte zu diesem Zeitpunkt schien entscheidend für die gesteigerte Differenzierungskapazität der Zellen zu sein, was sich in einem weiteren Experiment mit unterschiedlichen Aussaatdichten bestätigte. Interessanterweise deuteten die Ergebnisse außerdem darauf hin, dass ein Zell-Zell-Kontakt-vermittelter Mechanismus die adipogene Differenzierung positiv beeinflusst. Daher wurden anschließend Untersuchungen zur interzellulären Kommunikation dieser Zellen durchgeführt, welche bisher kaum erforscht wurde. Trotz der Vielzahl an Literatur über die Differenzierungsfähigkeit von ASCs ist wenig über die physiologischen Prozesse bekannt, die zur Differenzierung in verschiedene Zelltypen beitragen und diese kontrollieren. So wurde gezeigt, dass die direkte interzelluläre Kommunikation zwischen benachbarten Zellen über Gap Junctions Differenzierungsprozesse moduliert. Connexin 43 (Cx43) stellt dabei die häufigste Isoform der Gap Junction-bildenden Connexine dar. Im Rahmen dieser Arbeit wurde die Expression von Cx43 und die interzelluläre Kommunikation durch Gap Junctions (gap junctional intercellular communication; GJIC) in hASCs, sowie ihre Bedeutung für die adipogene Differenzierung untersucht. Die Cx43 Expression in hASCs wurde histologisch und auf Gen- und Proteinexpressionsebene nachgewiesen und wurde durch die Zellaussaatdichte nachweislich stark beeinflusst. Die Funktionalität der Gap Junctions konnte mit Hilfe eines Assays zur Übertragung von Farbstoffen untersucht werden. Es zeigte sich hierbei eine zelldichteabhängige, adipogene Differenzierungkapazität der hASCs. Die Hemmung der GJIC durch 18α-Glycyrrhetinsäure beeinträchtigte die adipogene Differenzierung deutlich, wie sich durch die Histologie, die Triglyceridquantifizierung und die adipogene Markergenexpression beobachten ließ. Bei Hemmung der GJIC zeigte sich mit Hilfe der Durchflusszytometrie, dass weniger Zellen adipogen differenzieren konnten, was die Bedeutung von GJIC im Differenzierungsprozess hervorhebt. Zusammenfassend veranschaulichen diese Ergebnisse den Einfluss direkter Zell-Zell-Kommunikation über Gap Junctions auf den adipogenen Differenzierungsprozess von hASCs und könnten somit in Zukunft dazu beitragen, direkte interzelluläre Kommunikation in Tissue Engineering Ansätze zu integrieren.

Tissue Engineering

Fettgewebe

Gap Junction

ddc:570

Investigating viral subversion of intercellular communication

Calhoun II, Patrick James

19 June 2020

Adenoviruses are non-enveloped, dsDNA tumor viruses responsible for a breadth of pathogenesis including acute respiratory disease and viral myocarditis. Gap junctions, which are formed by connexin proteins, directly couple the cytoplasms of apposed cells enabling immunological, metabolic, and electrical intercellular communication. The gap junction protein connexin43 (Cx43; gene name – GJA1) is the most widely expressed human connexin protein and is the predominant connexin in the working myocardium. Given the immunological role for Cx43 gap junctions, we hypothesized that gap junctions would be targeted during adenoviral infection. We find reduced Cx43 protein due to suppression of GJA1 transcription dependent upon β-catenin during adenoviral infection, with viral protein E4orf1 sufficient to induce β-catenin phosphorylation. Loss of gap junction function occurs prior to reduced Cx43 protein levels with Ad5 infection rapidly inducing Cx43 phosphorylation at residues previously demonstrated to alter gap junction conductance. Direct Cx43 interaction with ZO-1 plays a critical role in gap junction regulation. We find loss of Cx43/ZO-1 complexing during Ad5 infection by co-immunoprecipitation, with complementary studies in human induced pluripotent stem cell derived-cardiomyocytes revealing Cx43 gap junction remodeling concomitant with reduced ZO-1 complexing. These findings demonstrate specific targeting of gap junction function by Ad5 leading to disruptions in intercellular communication which would contribute to dangerous pathological states including arrhythmias in infected hearts. Intercellular junction proteins belonging to classically defined unique junctions exhibit extensive cross-talk and interdependency for expression and localization. We find reduced connexin43 (Cx43) phosphorylation at a known internalization motif, leading us to hypothesize that gap junctions are maintained during adenoviral infection in order to stabilize intercellular junctions and adenoviral receptors therein. Utilizing immunofluorescence confocal microscopy, we demonstrate that Cx43 reductions are primarily cytosolic with Cx43 preservation at the plasma membrane. Click-IT chemistry, a non-radioactive pulse-chase technique, reveals that Cx43 ½ life is extended during adenoviral infection. In order to test if remaining Cx43 exists in de facto gap junctions (i.e. not undocked or cytosolic connexons) we utilized 1 % Triton X-100 solubility fractionation and find Cx43 is indeed primarily junctional during adenoviral infection. Having demonstrated increases in junctional Cx43, we next asked how tightly coupled cells were during adenoviral infection and by ECIS measurements of electrical resistance we demonstrate a transient increase in mechanical coupling during infection. Our future aims are to uncover changes in Coxsackievirus and adenovirus receptor (CAR) protein localization to determine if adenoviral-induced changes to subcellular architecture predisposes neighboring cells to infection and enhances viral spread. These findings will add to the existing model of adenoviral infection and more broadly, contribute to the therapeutic design of adenoviral vectors for cancer and gene therapy. / Doctor of Philosophy / The human heart will beat more than 3 billion times during the average lifetime. This is accomplished by billions of individual heart muscle cells, called cardiomyocytes, contracting in synchrony. Cardiomyocytes require direct cell to cell communication in order to receive the proper cues and work in concert. Outside of the heart, including the lining of the lungs which acts as a first line of defense against invading pathogens, direct cell to cell communication is important for mounting proper immune responses. A primary means by which cells communicate directly with neighboring cells is through gap junctions which are formed of proteins called connexins. Six connexin proteins form a channel in the cell surface that binds to a similar channel on an apposing cell to create a continuous gap junction channel, coupling the cell interiors directly. The most widely expressed human connexin, and the most abundant connexin in the heart, is connexin43 (Cx43; gene name – GJA1). Adenoviruses are pathogens commonly associated with respiratory illnesses in addition to more serious diseases including viral myocarditis, or infection of the heart. Given that Cx43 gap junctions enable direct intercellular communication important in initiating immune responses, we hypothesized that adenovirus would target Cx43 and gap junctions during infection. We find reduced Cx43 protein in cells infected with human adenovirus, and revel that the expression of the GJA1 gene is suppressed. We next focused on potential signaling pathways that are changed during adenoviral infection. β-catenin is a factor with several cellular roles including regulating expression of specific genes including GJA1 (Cx43). We demonstrate β-catenin is activated during adenoviral infection and that this is necessary for reducing Cx43 transcripts. A pathway that activates β-catenin in this manner is the PI3K/Akt signaling axis, which has previously been shown to be turned on during adenovirus infection by a viral protein called E4orf1. We find the adenoviral protein E4orf1 is sufficient to induce β-catenin activation revealing a potential therapeutic target for future studies. We next determined that direct cell to cell communication through gap junctions is reduced before loss of the gap junction protein Cx43 during infection. Gap junctions are modified by the cell to change their ability to couple cells independently of protein levels alone and we find gap junction modifications consistent with altered communication ability. Furthermore, the gap junction protein Cx43 interacts with the cellular skeleton protein Zonula Occludens-1 (ZO-1) during movement into and out of gap junction clusters. We determined alterations in Cx43/ZO-1 interactions consistent with gap junction remodeling. In complimentary studies we find the same gap junction remodeling in cardiomyocytes revealing arrhythmogenic potential during acute adenoviral infection in human heart cells. Localized with gap junctions are several other junction proteins including the Coxsackievirus and adenovirus receptor (CAR) which is critical in cardiac development and also the primary receptor for species C adenoviruses (used in our studies). CAR expression has been demonstrated to alter Cx43 levels and indeed, many junctional proteins influence the expression and/or localization of other junctional proteins. Interestingly, despite reduced Cx43 levels and reduced gap junction function (cell to cell communication), we detected decreases in a gap junction modification that is associated with gap junction degradation, suggesting that new gap junction protein Cx43 is not being made but already synthesized Cx43 is degraded more slowly. We hypothesized Cx43 is maintained during adenoviral infection in order to recruit other junctional components, principally CAR, on uninfected neighbor cells to predispose them to infection. We observed using microscopy that Cx43 reductions are primarily inside the cell but Cx43 is preserved on the cell surface and at junctions between cells. We next asked if the protein is being degraded more slowly and find Cx43 exists for longer in infected cells signifying that it is being degraded more slowly. Utilizing a fractionation technique to separate gap junction connexin from connexon that is non-junctional or inside the cell, we detect an increase in junctional Cx43, revealing maintenance of Cx43 gap junction structures. Having now identified adenoviral-mediated maintenance of Cx43 gap junction structures, we next wanted to test for changing in mechanical coupling (i.e. how tightly are the cells connected to one another) where we demonstrate an increase in mechanical coupling during adenoviral infection. Our future directions are to determine if this increase in Cx43 gap junction maintenance and mechanical coupling is concomitant with changes in CAR expression/localization on uninfected neighboring cells and if altered, does this predispose uninfected neighbors of infected cells to infection.

adenovirus

gap junction

beta catenin

connexin

myocarditis

Arrhythmogenic mechanisms of acute cardiac infection

Padget, Rachel Lee

06 April 2022

Cardiovascular disease is the leading cause of death world-wide, with 42% of sudden cardiac death in young adults caused by myocarditis. Viruses represent the main cause of myocarditis, with adenovirus being a leading pathogen. However, it is not understood how adenoviruses cause sudden cardiac arrest. Myocarditis is defined by two phases, acute and chronic. The acute phase involves viral-mediated remodeling of subcellular structures in the myocardium, which is thought to contribute to arrhythmogenesis. The chronic phase is immune response-mediated, where the host immune system causes damage that induces gross remodeling of the heart, which can result in cardiac arrest or heart failure. Electrical impulses of the heart are propagated by cardiomyocytes, via gap junctions, ion channels, and intracellular junctions, creating the healthy heartbeat. Cx43, the primary gap junction protein in the myocardium, not only propagates electrical signals, but also anti-viral molecules. Viral targeting of gap junction function leads to reduced anti-viral responses in neighboring cells. However, reduced cellular communication would dangerously alter cardiac conduction. Using a cardiotropic adenovirus, MAdV-3, we find that viral genomes are significantly enriched in the heart, with a decrease of gap junction and ion channel mRNA in infected hearts, however, their protein levels were unchanged. Phosphorylation of Cx43 at serine 368, known to reduce gap junction open probability, was increased in infected hearts. Ex vivo optical mapping illustrated decreased conduction velocity in the infected heart and patch clamping of isolated cardiomyocytes revealed prolonged action potential duration, along with decreased potassium current density during infection. Pairing mouse work with human induced pluripotent stem cell-derived cardiomyocytes, we found that human adenovirus type-5 infection increased pCx43-Ser368 and perturbation of intercellular coupling, as we observed with in vivo MAdV-3 infection. Allowing adenovirus infection to progress in vivo, we find myocardium remodeling and immune cell infiltration. Together, these data demonstrate the complexity of cardiac infection from viral-infection induced subcellular alterations in electrophysiology to immune-mediated cardiomyopathy of cardiac adenoviral infection. Our data describe virally induced mechanisms of arrhythmogenesis, which could lead to the development of new diagnostic tools and therapies, to help protect patients from arrhythmia following infection. / Doctor of Philosophy / Viral infection has long thought to be a cause of unexplained sudden cardiac death, especially in young adults. Viruses have been identified to cause many cases of deleterious remodeling of the heart, which can result in heart failure. The heart relies on electrical signaling that moves in a coordinated fashion to contract and pump blood throughout the body. The cells within the heart that do this are called cardiomyocytes, and they join end-to-end to communicate with each other via gap junctions. Gap junctions are tunnels that allow for ions that create electrical impulses to pass, and molecules, such as ones that are important in immune responses to infection. In addition to gap junctions in the heart, ion channels, which are highly selective to allow only one ion flow, unlike gap junctions, create the healthy heartbeat. The most common gap junction in the heart comprises Cx43 proteins. If a virus were to alter how Cx43 connects to a neighboring cell, this would cause a better environment for the virus, as this would keep anti-viral surveillance low, however, this would change how the electrical signal moves throughout the heart, creating arrhythmias. Adenoviruses are a common cold virus, but have been found in the hearts of many cardiac arrest patients. However, little is known on how adenoviruses may cause cardiac arrest, because human adenoviruses are only successful in humans, and mouse adenoviruses are only successful in mice. This creates a challenge when studying the dynamic heart, which does not translate well to cells in a dish. A mouse adenovirus, called Mouse Adenovirus Type-3 (MAdV-3) was reported to favor infecting the heart in mice, but no research has been published on if this virus can answer how adenoviruses change the heart. Because of this virus, and our prior research that adenoviruses can decrease Cx43 within skin cells in a dish, we used MAdV-3 to understand if, how adenoviruses could cause sudden cardiac arrest, and if longer infection could change the overall structure of the heart. We find that MAdV-3 infection prefers the heart to other organs, and that early stages, reduce both the speed of the electrical signal moves through heart and, looking within a cardiomyocyte, how it creates that electrical signal. These changes are arrhythmogenic and accompany modification of Cx43 that would close the gap junction between two cells, changing how ions and molecules move between cells. Using a human adenovirus infection in human cardiomyocytes created from stem cells, this result is also observed. If infection is allowed to continue in the mouse to cause chronic infection, the heart itself changes shape and is diseased. Together, this work shows that adenoviruses create a diseased heart, first the virus changes how the electrical signal moves and then later, causes thinning of the heart muscle. These data illustrate the role viruses play in causing cardiac arrest and could lead to diagnostic or drug targets.

adenovirus

arrhythmias

Connexin43

gap junctions

ion channels

Gatekeeper Connexin43 Phosphorylation Events Regulate Cardiac Gap Junction Coupling During Stress

Carlson, Alec David

13 September 2023

Rapid and well-orchestrated action potential propagation through the myocardium is essential to each heartbeat. Gap junctions comprising primarily Cx43 reside within the intercalated discs connecting cardiomyocytes, effecting not only direct intercellular electrical coupling, but the localization of other junctional structures and ion channels. Alterations in Cx43 expression occur in essentially all forms of heart disease and is therefore a topic of intense study. Posttranslational modification of Cx43 is understood to impact trafficking, conduction, and stability. Altered Cx43 phosphorylation is well described during pathological remodeling of gap junctions in response to cellular stress. Research has revealed how phosphorylation of specific residues elicit specific effects on Cx43, but the complexity of this process has left much unknown. In particular, the role phosphorylation of a triplet of double serine residues, Ser365, Ser368, and Ser373, plays in GJ function and Cx43/14-3-3 interaction has been called into question. Using an ex vivo whole heart ischemia model we find a decrease in pS368 in mice lacking the ability to phosphorylate S365 and S373 while under stress. In vitro transfection of human induced pluripotent stem cell-derived cardiomyocytes when stressed with PMA were also carried out. These data allow us to piece together the exquisite interplay of gatekeeper phosphorylation events upstream of channel closure, altered protein-protein interactions, and gap junction internalization and degradation. It is hoped that our increasing understanding of this important area of gap junction biology will facilitate better understanding of arrhythmogenesis, and potential therapeutic strategies to restore or preserve normal electrical coupling in diseased hearts. / Master of Science / The heart, an electrically active organ, relies on the propagation of an electrical signal throughout its entirety in order to produce a healthy heartbeat. In order to do so, the heart uses specialized muscle cells known as cardiomyocytes which can not only contract but pass along chemical signals to the cardiomyocyte next in line to signal it to contract as well. The passage of signals occurs through protein units called gap junctions and are made predominantly of Cx43 proteins in the heart. Gap junctions look and function like tubes that travel from the inside space of one cell to the other and allow a flow of small molecules to occur; these small molecules, namely ions, are part of the signal needed to initiate contraction in the adjacent cell. Cx43, like many proteins in our bodies, is slightly altered after it is produced through a process known as posttranslational modification. This allows the cell to alter the localization and function of the protein and tailor it for the needs of the cell. Rather than changing the backbone composition of the protein, small chemical groups are attached, and this imparts a change to how the protein interacts with other proteins or its environment. In particular, one form of modification is known as phosphorylation where a phosphate group is attached to the protein at specific locations along its chain. Cx43 too can be phosphorylated, and while under pathological stress, such as a lack of oxygen or infection, cardiomyocytes increase the amount of phosphorylated Cx43 at a site known to cause pathological changes to the function of Cx43. These changes include how well the gap junctions can transmit signals or associate with other proteins and, in the heart, can predispose the development of arrhythmias or unhealthy heartbeats. However, not all phosphorylation is bad and phosphorylation at other locations also occurs during normal healthy functions of the cardiomyocyte can affect how other sites along Cx43 are phosphorylated. The process of one phosphorylated site affecting another is known as the gatekeeper effect and add a new layer to our understanding of how cells use phosphorylated Cx43 to fine tune its effects. Using cells that do not produce their own Cx43 and subsequently giving them the instructions to produce specific forms of mutant Cx43 that can and cannot be phosphorylated at specific sites, we can understand with greater detail of how cardiomyocytes respond to stress and how some of those responses can be pathological. This will allow future research into the creation of therapies that prevent negative Cx43 phosphorylation after illness, potentially avoiding the development of dangerous arrhythmias.

Cx43

Phosphorylation

Gatekeeper

Posttranslational Modification

Gap Junctions

Gap Size Effect on Low Reynolds Number Wind Tunnel Experiments

Saha, Nilanjan

11 April 1999

A system was designed to measure the effect of gap size on semi-span low Reynolds number wind tunnel experiments. The lift forces on NACA 1412, NACA 2412 and NACA 4412 half wings were measured using a strain gauge balance at chord Reynolds numbers of 100,000 and 200,000 and three different gap sizes including sealed gap. Pressure distributions on both airfoil top and bottom surfaces in the chord-wise direction near the gap were recorded for these airfoils. Also recorded was the span wise pressure distribution on both the airfoil surfaces at the quarter chord section. The results revealed that the presence of the gap, however small, affects the measurements. These effects were mainly observed in drop of lift and change in zero lift angle of attack and change in stall angle for the airfoil. The size of the gap is not linearly related to these changes, which also depend on the camber of the airfoil. These changes occur due to the flow through the gap from the lower surface to the upper surface of the model. The wing/end plate gap effect reduces along the span but is not fully restricted to the base of the model and the model behaves more like a full three-dimensional wing than a semi-span model. This study was made possible with the support of Department of Aerospace and Ocean Engineering, Virginia Polytechnic Institute and State University under the supervision of Dr. James Marchman / Master of Science

wind tunnel

pressure distribution

Gap size

New extended Computer Science curriculum model: USE-VQP-VCP (University, Students and Employers – Vendor Qualification Providers – Value Chain Partnership)

Panesar, K,, Panesar, Kulvinder

07 October 2020

Yes / Empirically Computer Science (CS) and IT-related graduates are failing to secure specialist posts in the first three years after graduation due to limited skills and specialist experience. This issue contributes to the future skills gap of professionals for our technology-driven world. Consequently there is a growing vendor qualifications market; creditability of digital wallets and their global acceptance. We propose a new CS curriculum business value model comprising academia; embedded yearly industry qualifications; annual short placements (increased employer engagement); industrial placement; an extended academic year; fees (marginal increase). Benefits include: expediting graduates to achieve their long-term goals; skills gap minimised; and employers recruiting ready professionals.

Computer Science

Curriculum model

Skills gap

ROLE OF GAP JUNCTIONS IN THE GENESIS OF CARDIAC ARRHYTHMIAS

Eloff, Benjamin Charles

24 January 2005

No description available.

Gap Junctions

Cardiac Arrhythmias

Cardiac Electrophysiology

THE EFFECTS OF PHYSICAL ACTIVITY AND A SINGLE GENDER LEARNING COMMUNITY ON THE SUCCESS OF FIRST YEAR COLLEGE MALES

Taylor, Cory D.

22 June 2007

No description available.

Gender Gap

Higher Education

Male

College Success