Modulation of Mouse Anti-Trinitrophenyl Plaque-Forming Cell Affinity by Adjuvants or Lectins

Poly(l-lactide) (PLLA), a versatile biodegradable polymer, is one of the most commonly-used materials for tissue engineering applications. To improve cell affinity for PLLA, poly(ethylene glycol) (PEG) was used to develop diblock copolymers. Human bone marrow stromal cells (hBMSCs) were cultured on MPEG-b-PLLA copolymer films to determine the effects of modification on the attachment and proliferation of hBMSC. The mRNA expression of 84 human extracellular matrix (ECM) and adhesion molecules was analyzed using RT-qPCR to understand the underlying mechanisms. It was found that MPEG-b-PLLA copolymer films significantly improved cell adhesion, extension, and proliferation. This was found to be related to the significant upregulation of two adhesion genes, CDH1 and CTNND2, which encode 1-cadherin and delta-2-catenin, respectively, two key components for the cadherin-catenin complex. In summary, MPEG-b-PLLA copolymer surfaces improved initial cell adhesion by stimulation of adhesion molecule gene expression.

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Enhanced cell affinity of poly(l-lactide) film by immobilizing phosphonized chitosan

Applied Surface Science ◽

10.1016/j.apsusc.2008.06.073 ◽

2008 ◽

Vol 255 (2) ◽

pp. 446-448 ◽

Cited By ~ 6

Author(s):

Ye Tian ◽

Chang-ren Zhou ◽

Qing-hui Zeng ◽

Ju-lin Yang ◽

Feng-xian Han ◽

...

Keyword(s):

Cell Affinity

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Simulation of B Cell Affinity Maturation Explains Enhanced Antibody Cross-Reactivity Induced by the Polyvalent Malaria Vaccine AMA1

The Journal of Immunology ◽

10.4049/jimmunol.1401054 ◽

2014 ◽

Vol 193 (5) ◽

pp. 2073-2086 ◽

Cited By ~ 40

Author(s):

Sidhartha Chaudhury ◽

Jaques Reifman ◽

Anders Wallqvist

Keyword(s):

B Cell ◽

Malaria Vaccine ◽

Cross Reactivity ◽

Affinity Maturation ◽

Cell Affinity

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Retinoic acid coordinately proximalizes regenerate pattern and blastema differential affinity in axolotl limbs

Development ◽

10.1242/dev.102.4.687 ◽

1988 ◽

Vol 102 (4) ◽

pp. 687-698 ◽

Cited By ~ 5

Author(s):

K. Crawford ◽

D.L. Stocum

Keyword(s):

Retinoic Acid ◽

Dorsal Surface ◽

Blastema Cell ◽

Specific Affinity ◽

Cell Affinity ◽

Differential Affinity ◽

Regeneration Blastema

An assay that detects position-related differences in affinity of axolotl regeneration blastema cells in vivo was used to test whether retinoic acid, which proximalizes regenerate pattern, simultaneously proximalizes blastema cell affinity. The assay involved autografting or homografting late bud forelimb blastomas derived from the wrist, elbow or midupper arm levels to the dorsal surface of the blastema-stump junction of an ipsilateral, medium-bud-stage hindlimb regenerating from the midthigh level. The grafted blastemas consistently displaced to their corresponding levels on the proximodistal axis of the host regenerate, indicating the existence of level-specific differences in blastema cell affinity. Retinoic acid proximalized the pattern of donor forelimb regenerates to the level of the girdle and abolished their displacement behaviour on untreated host hindlimbs. Conversely, untreated forelimb donor blastemas displaced distally to their corresponding levels on host ankle regenerates, that had been proximalized to the level of the girdle by retinoic acid. These results indicate that positional memory in regenerating limbs is directly related to blastema cell affinity, and that very similar or identical sets of level-specific affinity properties are shared by forelimb and hindlimb cells.

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3D Printing of Artificial Skin Patches with Bioactive and Optically Active Polymer Materials for Anti-Infection and Augmenting Wound Repair

Materials Horizons ◽

10.1039/d1mh00508a ◽

2021 ◽

Author(s):

Hao Zhao ◽

Jingwen Xu ◽

Haitao Yuan ◽

Endong Zhang ◽

Nan Dai ◽

...

Keyword(s):

3D Printing ◽

Human Skin ◽

Wound Repair ◽

Optically Active ◽

The Body ◽

Polymer Materials ◽

Artificial Skin ◽

Optically Active Polymer ◽

Cell Affinity

Inspired by the skin biofunction of protecting the body from microorganism invasion, artificially manufacturing human skin in vitro with promising antibacterial capability and cell affinity is urgently required in wound...

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Cell Affinity Chromatography for a Marine Nitrifying Bacterium

Lecture Notes on Coastal and Estuarine Studies - Immunochemical Approaches to Coastal, Estuarine and Oceanographic Questions ◽

10.1007/978-1-4684-7642-2_6 ◽

1988 ◽

pp. 100-116 ◽

Cited By ~ 1

Author(s):

U. Heyman ◽

B. Heyman ◽

Bess B. Ward

Keyword(s):

Affinity Chromatography ◽

Cell Affinity

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Photo–cross-linkable, insulating silk fibroin for bioelectronics with enhanced cell affinity

Proceedings of the National Academy of Sciences ◽

10.1073/pnas.2003696117 ◽

2020 ◽

Vol 117 (27) ◽

pp. 15482-15489 ◽

Cited By ~ 1

Author(s):

Jie Ju ◽

Ning Hu ◽

Dana M. Cairns ◽

Haitao Liu ◽

Brian P. Timko

Keyword(s):

Silk Fibroin ◽

Electronic Communication ◽

Brain Slices ◽

Chemical Properties ◽

Multielectrode Arrays ◽

Tissue Integration ◽

Cardiac Model ◽

Cell Affinity ◽

Support Devices ◽

And Chemical Properties

Bioelectronic scaffolds that support devices while promoting tissue integration could enable tissue hybrids with augmented electronic capabilities. Here, we demonstrate a photo–cross-linkable silk fibroin (PSF) derivative and investigate its structural, electrical, and chemical properties. Lithographically defined PSF films offered tunable thickness and <1-µm spatial resolution and could be released from a relief layer yielding freestanding scaffolds with centimeter-scale uniformity. These constructs were electrically insulating; multielectrode arrays with PSF-passivated interconnects provided stable electrophysiological readouts from HL-1 cardiac model cells, brain slices, and hearts. Compared to SU8, a ubiquitous biomaterial, PSF exhibited superior affinity toward neurons which we attribute to its favorable surface charge and enhanced attachment of poly-d-lysine adhesion factors. This finding is of significant importance in bioelectronics, where tight junctions between devices and cell membranes are necessary for electronic communication. Collectively, our findings are generalizable to a variety of geometries, devices, and tissues, establishing PSF as a promising bioelectronic platform.

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