ENGINEERED INTERACTION BETWEEN PERFLUORINATED SULFONIC-ACID IONOMER (NAFION®) AND ELASTIN-LIKE PEPTIDES THROUGH PEPTIDE LENGTH AND GUEST RESIDUE

Kim, ChulOong

28 August 2019

No description available.

Chemical Engineering

Chemistry

Cannabinoid Receptor Type 2 (CB2) Deficiency Alters Atherosclerotic Lesion Formation in Hyperlipidemic Ldlr-Null Mice

Netherland, Courtney D., Pickle, Theresa G., Bales, Alicia, Thewke, Douglas P.

01 November 2010

Objective: To determine if cannabinoid receptor 2 (CB2) plays a role in atherosclerosis, we investigated the effects of systemic CB2 gene deletion on hyperlipidemia-induced atherogenesis in low density lipoprotein receptor-deficient (Ldlr-/-) mice. Methods and results: Ldlr-/- and CB2/Ldlr double knockout (CB2-/-Ldlr-/-) mice were fed an atherogenic diet for 8 and 12 weeks. Morphometric analysis revealed no significant difference between the atherosclerotic lesion area in the proximal aortas of Ldlr-/- and CB2-/-Ldlr-/- mice after 8 or 12 weeks on the atherogenic diet. The macrophage and smooth muscle cell (SMC) content, as revealed by immunohistochemical staining, did not differ significantly between Ldlr-/- and CB2-/-Ldlr-/- lesions after 8 weeks. However, after 12 weeks, CB2-/-Ldlr-/- lesions displayed greater macrophage content (86.6±4.1 versus 75.2±7.5%, P<0.05) and SMC content (11.1±5.1 versus 4.2±2.4%, P<0.05) compared to controls. Lesional apoptosis, as determined by in situ TUNEL analysis, was reduced ∼50% in CB2-/-Ldlr-/- lesions after 12 weeks. CB2-/-Ldlr-/- lesions displayed significantly reduced collagen content and increased elastin fiber fragmentation after 12 weeks, which was associated with an ∼57% increase in matrix metalloproteinase 9 (MMP) levels. In vitro, CB2-/- macrophages secreted ∼1.8-fold more MMP9 activity than CB2+/+ macrophages. Conclusions: CB2 receptor deficiency affects atherogenesis in Ldlr-null mice by increasing lesional macrophage and SMC content, reducing lesional apoptosis and altering extracellular matrix components, in part, by upregulating MMP9. These results suggest that pharmacological manipulation of CB2 receptors might exert multiple and complex effects on atherogenesis and plaque stability.

apoptosis

atherosclerosis

cannabinoid receptor 2

collagen

elastin

macrophages

matrix metalloproteinase 9

smooth muscle cells

Biomedical Sciences

Development of an elastic sealant for surgical applications

Dehghani, Bijan

08 April 2016

The need to close wounds and prevent air/liquid leakage is commonly faced in surgical operations. It is a necessary step required for proper post-operative tissue function and healing. In the past, sutures and staples have been used to carry out this function; however, these different methods each come with limitations based on material and application. Recent studies have shown sealant glues to be a new method with much promise in connecting tissues. Several commercially available products have shown biocompatibility, along with ease of application and strong adherence; however, these come with their own set of limitations. In this project I present a novel tissue adhering substance made from human protein elastin. This protein sealant will allow us to address several issues in tissue-engineered materials such as biocompatibility, cytotoxicity, adhesion strength, binding in wet environment and elasticity. Using recombinant technology, we have been able to purify this protein monomer and form glue-like hydrogels using a cross-linker and UV light activator. This sealant was tested in in vitro models and porcine ex vivo lung model. The results indicate an increased adherence to the tissue as well as a high elasticity allowing the sealant to move more naturally with the tissue. Further testing in large animal in vivo studies will be performed to show safety and efficacy before being implemented into clinical practice.

Biomedical engineering

Biomaterials

Elastin

Human recombinant protein

Sealant

Surgery

Tissue engineering

Electron-beam assisted synthesis and application of a collagen-elastin composite network: from biomimetic crosslinking to thermoactuation

Wilharm, Nils

30 June 2023

No description available.

info:eu-repo/classification/ddc/530

ddc:530

Biomechanical and Molecular Approaches to Aortic Valve Disease in a Mouse Model

Krishnamurthy, Varun K.

January 2012

No description available.

Biomedical Research

elastin haploinsufficiency

aortic valve

aorta

micropipette aspiration

matrix remodeling

Elastogenesis Correlates With Pigment Production in Murine Aortic Valve Leaflets

Hutcheson, Joshua D., Schlotter, Florian, Creager, Michael D., Li, Xiaoshuang, Pham, Tan, Vyas, Payal, Higashi, Hideyuki, Body, Simon C., Aikawa, Masanori, Singh, Sasha A., Kos, Lidia, Aikawa, Elena

04 April 2023

Objective: Aortic valve (AV) leaflets rely on a precise extracellular matrix (ECM) microarchitecture for appropriate biomechanical performance. The ECM structure is maintained by valvular interstitial cells (VICs), which reside within the leaflets. The presence of pigment produced by a melanocytic population of VICs in mice with dark coats has been generally regarded as a nuisance, as it interferes with histological analysis of the AV leaflets. However, our previous studies have shown that the presence of pigment correlates with increased mechanical stiffness within the leaflets as measured by nanoindentation analyses. In the current study, we seek to better characterize the phenotype of understudied melanocytic VICs, explore the role of these VICs in ECM patterning, and assess the presence of these VICs in human aortic valve tissues. Approach and Results: Immunofluorescence and immunohistochemistry revealed that melanocytes within murine AV leaflets express phenotypic markers of either neuronal or glial cells. These VIC subpopulations exhibited regional patterns that corresponded to the distribution of elastin and glycosaminoglycan ECM proteins, respectively. VICs with neuronal and glial phenotypes were also found in human AV leaflets and showed ECM associations similar to those observed in murine leaflets. A subset of VICs within human AV leaflets also expressed dopachrome tautomerase, a common melanocyte marker. A spontaneous mouse mutant with no aortic valve pigmentation lacked elastic fibers and had reduced elastin gene expression within AV leaflets. A hyperpigmented transgenic mouse exhibited increased AV leaflet elastic fibers and elastin gene expression. Conclusions: Melanocytic VIC subpopulations appear critical for appropriate elastogenesis in mouse AVs, providing new insight into the regulation of AV ECM homeostasis. The identification of a similar VIC population in human AVs suggests conservation across species.

info:eu-repo/classification/ddc/610

ddc:610

In Vivo and In Vitro Application of Elastin-Like Polypetides

Ge, Xin

05 1900

Elastin-like polypeptides (ELP) are artificially designed protein biopolymers that can be produced by living organisms. These proteins have the unique ability to undergo reversible inverse phase transition, in response to changes in temperature and/or addition of chaotropic salts. Below the transition temperature (T1) , ELP is soluble in water. Increasing the temperature above Ti, ELP coacervates into an aqeous ELP-rich phase. In this thesis, this unique feature of ELP was used in for recombinant protein purification and for the formation of aqueous multiple-phase systems. For protein purification, ELP was fused with an intein and a model protein (thioredoxin), to demonstrate a simple and inexpensive approach for recombinant protein purification. The ELP tags replace the chromatographic media and the intein replaces the use of the protease in conventional methods. Using ELP tags was found to be consistent with large -scale recombinant protein production/purification by purifying an ELP tagged protein using a stirred cell equipped with a microfiltration membrane. When the temperature and/or salt concer.tration is increased for mixtures containing free ELP and ELP tagged proteins, simultaneous phase transition takes place. This served as the basis for the development of a method suitable for selectively recovering molecules from complex mixtures with high specificity, full reversibility, and virtually unlimited affinity. The second parts of this thesis focus on the ability of ELP to form aqueous twophase systems (A TPS) in vitro and most importantly, in vivo- with the formation of aqueous microcompartments in living cells. These compartments exclude the protein making machinery of the cell, acting as depots for newly expressed protein. It is also shown (in vitro) that ELP bastd droplets exclude proteases, protecting proteins from degradation. These observations are important for high-level production of recombinant proteins. Also described, is the formation of protein based aqueous multiphasic systems, with tunable morphologies. / Thesis / Doctor of Philosophy (PhD)

elastin-like polypeptides

protein biopolymers

aqueous multi-phase system

reversible inverse phase transition

recombinant proteins

Non-equilibrium Dynamics of Nanoscale Soft Matter Deformation

Fergusson, Austin D.

12 September 2014

Life is soft. From the fluid-like structure of lipid bilayers to the flexible folding of proteins, the realm of nanoscale soft matter is a complex and vibrant area of research. The lure of personalized medicine, advanced sensing technology, and understanding life at a fundamental level pushes research forward. This work considers to areas: (1) lipid bilayer dynamics in the presence of substrate defects and (2) the inverse temperature transition of elastic proteins. Molecular dynamics simulations as well as umbrella sampling were employed. The behavior of the bilayers discussed in the work provides evidence that small defects on confining surfaces can promote nucleation of lipid tethers. Results the second part of this work indicate elastin-like peptides experiencing inverse temperature transitions may be capable of performing amounts of work similar to RNA polymerase; additionally, resilin's inverse temperature transition may be closely linked to the molecule's ability to efficiently transmit energy through the similar coil-β secondary structure transition seen in both cases. These insights into the inverse transition temperature are relevant for the design of bio-inspired sensors and energy storage devices. / Master of Science

lipid bilayer

elastin

resilin

inverse temperature transition

umbrella sampling

potential of mean force

Elastogenic characterization of rat BM-MSC-derived SMCS towards use in soft Tissue Engineering

Wintrich, Sahithya

07 November 2012

No description available.

Biomedical Engineering

elastin

bone marrow

mesenchymal stem cells

differentiation

rat

MSC

BM-MSC

Characterization of Highly Concentrated Elastin-like Polypeptide Solutions:Rheometric Properties and Phase Separation Analysis

Otto, Kevin Michael

20 May 2015

No description available.

Chemical Engineering

Polymers

Elastin-like polypeptides

phase transition

rheology

protein based polymer

multiphase system