Nano-Scale Stiffness and Collagen Fibril Deterioration: Probing the Cornea Following Enzymatic Degradation Using Peakforce-QNM AFM



Kazaili, Ahmed, Abdul-Amir Al-Hindy, Hayder, Madine, Jillian ORCID: 0000-0001-9963-5871 and Akhtar, Riaz ORCID: 0000-0002-7963-6874
(2021) Nano-Scale Stiffness and Collagen Fibril Deterioration: Probing the Cornea Following Enzymatic Degradation Using Peakforce-QNM AFM. Sensors, 21 (5). p. 1629.

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Abstract

<jats:p>Under physiological conditions, the cornea is exposed to various enzymes, some of them have digestive actions, such as amylase and collagenase that may change the ultrastructure (collagen morphology) and sequentially change the mechanical response of the cornea and distort vision, such as in keratoconus. This study investigates the ultrastructure and nanomechanical properties of porcine cornea following incubation with α-amylase and collagenase. Atomic force microscopy (AFM) was used to capture nanoscale topographical details of stromal collagen fibrils (diameter and D-periodicity) and calculate their elastic modulus. Samples were incubated with varying concentrations of α-amylase and collagenase (crude and purified). Dimethylmethylene blue (DMMB) assay was utilised to detect depleted glycosaminoglycans (GAGs) following incubation with amylase. Collagen fibril diameters were decreased following incubation with amylase, but not D-periodicity. Elastic modulus was gradually decreased with enzyme concentration in amylase-treated samples. Elastic modulus, diameter, and D-periodicity were greatly reduced in collagenase-treated samples. The effect of crude collagenase on corneal samples was more pronounced than purified collagenase. Amylase was found to deplete GAGs from the samples. This enzymatic treatment may help in answering some questions related to keratoconus, and possibly be used to build an empirical animal model of keratoconic corneas with different progression levels.</jats:p>

Item Type: Article
Uncontrolled Keywords: Peakforce-QNM, AFM, cornea, collagenase, amylase, nanomechanics, collagen, collagen fibril morphology, keratoconus, collagen fibril diameter
Divisions: Faculty of Health and Life Sciences
Faculty of Health and Life Sciences > Institute of Systems, Molecular and Integrative Biology
Faculty of Science and Engineering > School of Engineering
Depositing User: Symplectic Admin
Date Deposited: 09 Jul 2021 08:41
Last Modified: 18 Jan 2023 22:46
DOI: 10.3390/s21051629
Open Access URL: https://doi.org/10.3390/s21051629
Related URLs:
URI: https://livrepository.liverpool.ac.uk/id/eprint/3123052

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