SpAD Biofunctionalized Cellulose Acetate Scaffolds Inhibit Adherence in a Coordinating Function with the Von Willebrand A1 Domain (vWF A1)

Overview

Journal J Funct Biomater

Specialty Biomedical Engineering

Date 2022 Feb 28

PMID 35225984

Authors

Stefanos Pendas

Antonis Asiminas

Alexandros Katranidis

Costas Tsioptsias

Maria Pitou

Georgios Papadopoulos

Theodora Choli-Papadopoulou

Affiliations

Soon will be listed here.

Abstract

is one of the major pathogens causing and spreading hospital acquired infections. Since it is highly resistant to new generation antibiotics, novel strategies have to be developed such as the construction of biofunctionalized non-adherent surfaces that will prevent its tethering and subsequent spread in the hospital environment. In this frame, the domain D of protein A (SpAD) of has been immobilized onto cellulose acetate scaffolds by using the streptavidin/biotin interaction, in order to study its interaction with the A1 domain of von Willebrand factor (vWF A1), a protein essential for hemostasis, found in human plasma. Subsequently, the biofunctionalized cellulose acetate scaffolds were incubated with in the presence and absence of vWF A1 at different time periods and their potential to inhibit growth was studied with scanning electron microscopy (SEM). The SpAD biofunctionalized scaffolds perceptibly ameliorated the non-adherent properties of the material, and in particular, the interaction between SpAD and vWF A1 effectively inhibited the growth of . Thus, the exhibition of significant non-adherent properties of scaffolds addresses their potential use for covering medical equipment, implants, and stents.

Citing Articles

Bacterial Cellulose/Cellulose Imidazolium Bio-Hybrid Membranes for In Vitro and Antimicrobial Applications.

Salama A, Saleh A, Cruz-Maya I, Guarino V J Funct Biomater. 2023; 14(2).

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On the Thermochemical Transition Depression of Cellulose Acetate Composite Membranes.

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