by Keyword: attachment
Raptopoulos, M, Fischer, NG, Aparicio, C, (2023). Implant surface physicochemistry affects keratinocyte hemidesmosome formation Journal Of Biomedical Materials Research Part a 111, 1021-1030
Previous studies have shown hydrophilic/hydrophobic implant surfaces stimulate/hinder osseointegration. An analogous concept was applied here using common biological functional groups on a model surface to promote oral keratinocytes (OKs) proliferation and hemidesmosomes (HD) to extend implant lifespans through increased soft tissue attachment. However, it is unclear what physicochemistry stimulates HDs. Thus, common biological functional groups (NH2 , OH, and CH3 ) were functionalized on glass using silanization. Non-functionalized plasma-cleaned glass and H silanization were controls. Surface modifications were confirmed with X-ray photoelectron spectroscopy and water contact angle. The amount of bovine serum albumin (BSA) and fibrinogen, and BSA thickness, were assessed to understand how adsorbed protein properties were influenced by physicochemistry and may influence HDs. OKs proliferation was measured, and HDs were quantified with immunofluorescence for collagen XVII and integrin β4. Plasma-cleaned surfaces were the most hydrophilic group overall, while CH3 was the most hydrophobic and OH was the most hydrophilic among functionalized groups. Modification with the OH chemical group showed the highest OKs proliferation and HD expression. The OKs response on OH surfaces appeared to not correlate to the amount or thickness of adsorbed model proteins. These results reveal relevant surface physicochemical features to favor HDs and improve implant soft tissue attachment.© 2023 The Authors. Journal of Biomedical Materials Research Part A published by Wiley Periodicals LLC.
JTD Keywords: attachment, chemistry, collagen, differentiation, epithelial-cells, hemidesmosome, implant, in-vitro, integrin, keratinocyte, mechanism, organosilane, physicochemistry, protein adsorption, Attachment, Cell-adhesion, Physicochemistry
Larrañaga, E, Fernández-Majada, V, Ojosnegros, S, Comelles, J, Martinez, E, (2022). Ephrin Micropatterns Exogenously Modulate Cell Organization in Organoid‐Derived Intestinal Epithelial Monolayers Advanced Materials Interfaces 9, 2201301
JTD Keywords: adhesion, attachment, growth, ligands, membrane, microcontact printing, migration, organoid-derived intestinal epithelia, receptor, tissue organization, Eph-ephrin, Stem-cells
Hristova-Panusheva, K., Keremidarska-Markova, M., Altankov, G., Krasteva, N., (2017). Age-related changes in adhesive phenotype of bone marrow-derived mesenchymal stem cells on extracellular matrix proteins Journal of New Results in Science , 6, (1), 11-19
Mesenchymal stem cells (MSCs) are a promising cell source for cell-based therapies because of their self-renewal and multi-lineage differentiation potential. Unlike embryonic stem cells adult stem cells are subject of aging processes and the concomitant decline in their function. Age-related changes in MSCs have to be well understood in order to develop clinical techniques and therapeutics based on these cells. In this work we have studied the effect of aging on adhesive behaviour of bone marrow-derived MSC and MG- 63 osteoblastic cells onto three extracellular matrix proteins: fibronectin (FN), vitronectin (VN) and collagen I (Coll I). The results revealed substantial differences in adhesive behaviour of both cell types during 21 days in culture. Bone-marrow derived MSCs decreased significantly their adhesive affinity to all studied proteins after 7th day in culture with further incubation. In contrast, MG-63 cells, demonstrated a stable cell adhesive phenotype with high affinity to FN and Coll I and low affinity to vitronectin over the whole culture period. These data suggest that adhesive behaviour of MSCs to matrix proteins is affected by aging processes unlike MG-63 cells and the age-related changes have to be considered when expanding adult stem cells for clinical applications.
JTD Keywords: Cell morphology, Cell attachment and spreading, Fibronectin, Vitronectin, Collagen I
Toromanov, Georgi, González-García, Cristina, Altankov, George, Salmerón-Sánchez, Manuel, (2010). Vitronectin activity on polymer substrates with controlled -OH density Polymer 51, (11), 2329-2336
Vitronectin (VN) adsorption on a family of model substrates consisting of copolymers of ethyl acrylate and hydroxyl ethylacrylate in different ratios (to obtain a controlled surface density of -OH groups) was investigated by Atomic Force Microscopy (AFM). It is shown that the fraction of the substrate covered by the protein depends strongly on the amount of hydroxyl groups in the sample and it monotonically decreases as the -OH density increases. Isolated globular-like VN molecules are observed on the surfaces with the higher OH density. As the fraction of hydroxyl groups decreases, aggregates of 3-5 VN molecules are observed on the sample. Overall cell morphology, focal adhesion formation and actin cytoskeleton development are investigated to assess the biological activity of the adsorbed VN on the different surfaces. Dermal fibroblast cells show excellent material interaction on the more hydrophobic samples (OH contents lower than 0.5), which reveals enhanced VN activity on this family of substrates as compared with other extracellular matrix proteins (e.g., fibronectin and fibrinogen).
JTD Keywords: Copolymers, Vitronectin, AFM, Self-assembled monolayers, Cell-adhesion, Thermal transitions, Protein adsorption, Surfaces, Fibronectin, Biomaterials, Attachment, Fibrinogen