Generation of Connective Tissue-Free Microvascular Fragment Isolates from Subcutaneous Fat Tissue of Obese Mice.

IF 4.4 4区 医学 Q2 CELL & TISSUE ENGINEERING Tissue engineering and regenerative medicine Pub Date : 2023-12-01 Epub Date: 2023-10-02 DOI:10.1007/s13770-023-00571-8
Friederike C Meßner, Wolfgang Metzger, Julia E Marschall, Caroline Bickelmann, Michael D Menger, Matthias W Laschke
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Abstract

Background: Microvascular fragment (MVF) isolates are generated by short-term enzymatic digestion of adipose tissue and contain numerous vessel segments for the vascularization of tissue defects. Recent findings indicate that the functionality of these isolates is determined by the quality of the fat source. Therefore, we compared MVF isolates from subcutaneous adipose tissue of obese and lean mice.

Methods: MVF isolates were generated from subcutaneous adipose tissue of donor mice, which received a high fat or control diet for 12 weeks. The isolates were analyzed in vitro and in vivo.

Results: Feeding of mice with a high fat diet induced obesity with adipocyte hypertrophy, resulting in a significantly lower collagen fraction and microvessel density within the subcutaneous fat depots when compared to lean controls. Accordingly, MVF isolates from obese mice also contained a reduced number of MVF per mL adipose tissue. However, these MVF tended to be longer and, in contrast to MVF from lean mice, were not contaminated with collagen fibers. Hence, they could be freely seeded onto collagen-glycosaminoglycan scaffolds, whereas MVF from lean controls were trapped in between large amounts of collagen fibers that clogged the pores of the scaffolds. In line with these results, scaffolds seeded with MVF isolates from obese mice exhibited a significantly improved in vivo vascularization after implantation into full-thickness skin defects.

Conclusion: Subcutaneous adipose tissue from obese mice facilitates the generation of connective tissue-free MVF isolates. Translated to clinical conditions, these findings suggest that particularly obese patients may benefit from MVF-based vascularization strategies.

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从肥胖小鼠皮下脂肪组织分离的无结缔组织微血管片段的产生。
背景:微血管片段(MVF)分离物是通过脂肪组织的短期酶消化产生的,含有许多用于组织缺陷血管化的血管片段。最近的发现表明,这些分离物的功能是由脂肪来源的质量决定的。因此,我们比较了从肥胖和瘦小鼠皮下脂肪组织中分离的MVF。方法:从接受高脂肪或对照饮食12周的供体小鼠皮下脂肪组织中分离MVF。对分离株进行了体外和体内分析。结果:与瘦对照组相比,用高脂肪饮食喂养小鼠会诱导脂肪细胞肥大的肥胖,导致皮下脂肪库中的胶原蛋白含量和微血管密度显著降低。因此,来自肥胖小鼠的MVF分离物也含有每毫升脂肪组织中MVF数量减少的MVF。然而,这些MVF往往更长,并且与瘦小鼠的MVF相比,没有被胶原纤维污染。因此,它们可以自由地接种到胶原-糖胺聚糖支架上,而来自瘦对照的MVF被困在堵塞支架孔隙的大量胶原纤维之间。与这些结果一致,用来自肥胖小鼠的MVF分离物接种的支架在植入全层皮肤缺损后表现出显著改善的体内血管形成。结论:来自肥胖小鼠的皮下脂肪组织促进了无结缔组织MVF分离株的产生。转化为临床条件,这些发现表明,特别肥胖的患者可能受益于基于MVF的血管化策略。
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来源期刊
Tissue engineering and regenerative medicine
Tissue engineering and regenerative medicine CELL & TISSUE ENGINEERING-ENGINEERING, BIOMEDICAL
CiteScore
6.80
自引率
5.60%
发文量
83
审稿时长
6-12 weeks
期刊介绍: Tissue Engineering and Regenerative Medicine (Tissue Eng Regen Med, TERM), the official journal of the Korean Tissue Engineering and Regenerative Medicine Society, is a publication dedicated to providing research- based solutions to issues related to human diseases. This journal publishes articles that report substantial information and original findings on tissue engineering, medical biomaterials, cells therapy, stem cell biology and regenerative medicine.
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