通过酶反应仿生水凝胶支架用于软骨组织工程。

Biomimetic hydrogel scaffolds via enzymatic reaction for cartilage tissue engineering.

机构信息

Skull Base Research Center, The Five Senses Institute, Hazrat Rasoul Akram Hospital, School of Medicine, Iran University of Medical Sciences (IUMS), Tehran, Iran.

出版信息

BMC Res Notes. 2022 May 13;15(1):174. doi: 10.1186/s13104-022-06060-w.

DOI:10.1186/s13104-022-06060-w

PMID:35562776

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9103298/

Abstract

OBJECTIVE

We aimed to evaluate cytocompatibility of hyaluronic acid (HA) and gelatin (Gela) conjugation with phenolic groups (Phs) via enzyme-mediated crosslinking. Phenolic moieties were substituted on the backbone of HA (HA-Ph) and Gela (Gela-Ph) and subsequently were subjected for horseradish peroxidase crosslinking in the presence of HO as an electron donor to create a stable hybrid microenvironment for cellular behavior and cartilage tissue engineering.

RESULTS

Successful synthesis of biopolymers confirmed by NRM and UV-Vis spectrophotometry. The physical characteristic of hydrogels including mechanical properties and water contact angle of hydrogels enhanced with addition of Gela-Ph in HA-based hydrogel. The Gela-Ph showed longest gelation time and highest degradation rate. The cellular studies showed cells did not attach to HA-Ph hydrogel. While, proper cell attachment and proliferation observed on blend hydrogel surface compared with the neat hydrogels which interpret by the existence of cell-adhesive motifs of utilized Gela-Ph in this hydrogel. The encapsulated cells in HA-Ph hydrogel were spheroid and just maintained their viability. Hydrogels containing Gela-Ph, the cells were spindle shape with high degrees of cytoplasmic extension. Overall, the results suggest that hybrid biomimetic hydrogel can provide a superior biological microenvironment for chondrocytes in 3D cartilage tissue engineering.

摘要

目的

我们旨在评估通过酶介导交联将透明质酸 (HA) 和明胶 (Gela) 与酚基团 (Phs) 偶联的细胞相容性。通过将酚部分取代到 HA（HA-Ph）和 Gela（Gela-Ph）的主链上，并随后在 HO 作为电子供体的存在下进行辣根过氧化物酶交联，以创建用于细胞行为和软骨组织工程的稳定杂交微环境。

结果

通过 NRM 和紫外可见分光光度法成功合成了生物聚合物。水凝胶的物理特性，包括机械性能和水凝胶的接触角，随着添加 HA 基水凝胶中的 Gela-Ph 而增强。Gela-Ph 表现出最长的凝胶时间和最高的降解率。细胞研究表明细胞不会附着在 HA-Ph 水凝胶上。然而，与纯水凝胶相比，在共混水凝胶表面观察到适当的细胞附着和增殖，这可以通过利用 Gela-Ph 中的细胞黏附基序在这种水凝胶中的存在来解释。在 HA-Ph 水凝胶中包封的细胞呈球形，仅保持其活力。含有 Gela-Ph 的水凝胶，细胞呈纺锤形，细胞质延伸程度高。总体而言，这些结果表明，杂交仿生水凝胶可为 3D 软骨组织工程中的软骨细胞提供优越的生物学微环境。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5149/9103298/31bfc1664e7b/13104_2022_6060_Fig1_HTML.jpg

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通过酶反应仿生水凝胶支架用于软骨组织工程。

Biomimetic hydrogel scaffolds via enzymatic reaction for cartilage tissue engineering.

机构信息

出版信息

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RESULTS

目的

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