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Automated DNA
sequencing
K P L H S N K Y Y D R YT S K L P T W V L T S SF N P H Q F I K P P K KT S K L P T W V L T S SK P L H S N K Y Y D R YV A A P A K A T M S S T
Bindingsequences
Amplification
pH (2.0)elution
Specific binding
to surface
Incubation with surface
PPy
Repeat Interaction (4-5x)
PPy
Commercially availablephage library
with 1012 random peptide inserts
12-mer peptides
Molecular Tissue EngineeringMolecular Tissue Engineering
““Our ultimate goal is to develop therapeutic devices that either aid Our ultimate goal is to develop therapeutic devices that either aid or augment the function and/or regeneration of damaged nerves.”or augment the function and/or regeneration of damaged nerves.”
Synthetic Electroactive MaterialsSynthetic Electroactive Materials Natural Materials and Cell MechanismsNatural Materials and Cell MechanismsCurrent projects in this area focus on the design and characterization of electrically conducting polymers, polypyrrole (PPy) and polythiophene (PT). The body has inherent electrical properties and responds to electrical fields, and evidence suggests that electrical stimulation from conducting materials will potentially enhance nerve regeneration.
Natural materials offer advantages for the repair of damaged tissue, as they inherently have many physical, chemical, and biological properties suited to wound healing environments. Projects in our lab focus on taking advantage of the properties of natural molecules and tissues and their interactions with cells to encourage peripheral nerve regeneration and vascularization of regenerating tissues.
membrane
membrane
HA molecule
Kate BivensCHE
Size-dependent Effects of Hyaluronic AcidSize-dependent Effects of Hyaluronic Acid
Scott ZawkoCHE
Hyaluronic Acid Biomaterials for Drug Release ApplicationsHyaluronic Acid Biomaterials for Drug Release Applications
OCOOH
OH
HO
OO
O
NH
CH3
O
OH
HO
5000
O
O
HO
HO
OH
O
OOH
HO
OH
O
OOH
HO
OH
O
OOH
HO
HO
O
OOH
OH
HO
OOHO
OH
OH
O
OHO
OHHO
+UV light
Hyaluronic acid Cyclodextrin Hydrogel
OCOOH
OH
HO
OO
O
NH
CH3
O
OH
HO
5000
OCOOH
OH
HO
OO
O
NH
CH3
O
OH
HO
5000
O
O
HO
HO
OH
O
OOH
HO
OH
O
OOH
HO
OH
O
OOH
HO
HO
O
OOH
OH
HO
OOHO
OH
OH
O
OHO
OHHO
+UV light
Hyaluronic acid Cyclodextrin Hydrogel
We are designing a novel hydrogel for drug release applications. The hydrogel consists of HA and cyclodextrin (CD) derivatized with photoreactive groups. CD is a starch derivative consisting of seven glucose rings that form a hollow cone. The hollow interior of CD is more hydrophobic than the exterior which causes CD to form complexes with many poorly water soluble, low molecular weight molecules. The majority of the hydrogel consists of HA for biodegradability and biocompatibility. Cyclodextrin is included to confer on the hydrogel the property of molecule complexation.
Jae Young LeeCHE
Natalia Gomez CHE
In this project, we are investigating neuron polarization (i.e., axon formation) on biomaterials with different surface properties. In particular, silicone polymers have been designed to simultaneously present physical cues (i.e., microchannels) and chemical cues (i.e., immobilized nerve growth factor, NGF) to nerve cells. Two different schemes are being investigated - Combination of both types of cues (see Figure A), and competition of both cues (see Figure B).
Neuronal Responses to Physical and Chemical StimuliNeuronal Responses to Physical and Chemical Stimuli
Vs.
B Competition
Physical stimulus: grooves
Chemical stimulus: NGF
A Combination
Physical + Chemical stimuli
Conductive Polymer-Biological Molecule Composites as Bioactive Platforms for Cell Adhesion/Proliferation
CONH
N
n
Protein
SyntheticMetal
CONH
N
n
Protein
SyntheticMetal C NH
=O
RGDRGD
50m
PPyCOOH-g-RGD PPyCOOH (Control)
50m50m50m
PPyCOOH-g-RGD PPyCOOH (Control)
50mC NH
=O
RGDRGD
50m
PPyCOOH-g-RGD PPyCOOH (Control)
50m50m50m
PPyCOOH-g-RGD PPyCOOH (Control)
50m50m
We present the potential use of electrically conductive poly(1-(2-carboxyethyl)pyrrole) (PPyCOOH) for surface modification and cell attachment. The ability to tailor the surface of biomaterials is critical to tissue engineering applications. HUVEC cells cultured on a PPyCOOH surface modified with cell-adhesive RGDs motif demonstrate an improved ability to attach to the surface and spread. The strategy to promote cell attachment brings this acid-functionalized PPy one step closer to the development of PPy composites with a variety of biological molecules, e.g., bioactive conducting platforms for specific biomedical purposes.
Nathalie Guimard Chemistry
Our goal is to synthesize a biocompatible, biodegradable polymer that is electrically conductive. To render the biomaterial electroconductive quaterthiophene units will be incorporated into the
backbone of the polymer. These quaterthiophene oligomers will be linked by esters, which will permit the biodegradation of our polymer in vivo. Long-term work consists of functionalization of the polymer.
Synthesis of Novel Electroactive PT-based Biomaterials
Use of a versatile phage display technique for selecting high affinity peptides against polypyrrole. By selecting and identifying specific peptide sequences for PPy that bind tightly, one can quickly and easily modify the polymer surfaces using peptides containing the polymer binding sequence on one end, and a sequence that binds to cells, growth factors, enzymes, etc. on the other
Optimization of Nerve Regeneration FactorsOptimization of Nerve Regeneration Factors
Curt DeisterCHE
We are using an in vitro model (dorsal root ganglia explanted into hydrogels) to determine conditions that maximize neurite extension. We vary the concentration of neurotrophic factors (NGF, GDNF, CNTF) and proteins (collagen 1, fibronectin, laminin) in the hydrogel. The optimum determined with these experiments will serve as the design criteria for future nerve conduits.
Stephanie Seidlits BME
‘‘Direct-Write’ of 3D Submicron Structures in Hyaluronic Acid BiomaterialDirect-Write’ of 3D Submicron Structures in Hyaluronic Acid Biomaterial
A) Optical transmission imagesB) Confocal microscope image
A)
B)Our research explores the ability to ‘direct-write’ novel 3D biomaterials with submicron size scales that more closely mimic natural materials. Direct fabrication of crosslinked, 3D structures of biomolecules can be achieved using multiphoton excitation, where crosslinking is confined to the focal area of a femtosecond laser. Hyaluronic acid is an attractive material for tissue engineering applications because it is a biocompatible, bioactive, naturally occurring polysaccharide in the extracellular matrix that promotes wound healing.
Clustering of CD44 receptors may be responsible for cell activation by small HA molecules. Changes in conformation, such as intra-molecular vs. intermolecular (up and down arrows, B) hydrogen bonding may take place dependent upon HA chain length, and may alter recognition of HA by CD44.
http://www.bme.utexas.edu/faculty/schmidthttp://www.bme.utexas.edu/faculty/schmidt
PI: Christine SchmidtPI: Christine Schmidt
Polypyrrole (PPy) FunctionalizationPolypyrrole (PPy) Functionalization
Kiko SernaBME
Joo-Woon Lee Post Doc
Jon NickelsBME
Shalu SurIBME
We are developing natural-based hydrogels from hyaluronan (hyaluronic acid, HA) for use in peripheral nerve applications, and studying the mechanism of size-dependent effects on cells of large and small HA molecules via the CD44 receptor. Two possible but not exclusive explanations include clustering of CD44 by HA binding and differential recognition of different sizes of HA by CD44 based on tertiary structure in solution.
Chemical Structure of Polypyrrole SEM images of PPy film surface and cross section
Christine E. Schmidt, Ph.D.The Laurence E. McMakin, Jr. Associate Professor of Biomedical Engineering & Chemical [email protected]. 512-471-1690