Lipidomic Analysis of Microfat and Nanofat Reveals Different Lipid Mediator Compositions.

IF 3.2 2区医学 Q1 SURGERY

Plastic and reconstructive surgery Pub Date : 2024-11-01 Epub Date: 2024-02-14 DOI:10.1097/PRS.0000000000011335

Lisanne Grünherz, Sedef Kollarik, Nadia Sanchez-Macedo, Michelle McLuckie, Nicole Lindenblatt

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引用次数: 0

Abstract

Background: Microfat and nanofat are commonly used in various surgical procedures, from skin rejuvenation to scar correction, to contribute to tissue regeneration. Microfat contains mainly adipocytes and is well suited for tissue augmentation, and nanofat is rich in lipids, adipose-derived stem cells, microvascular fragments, and growth factors, making it attractive for aesthetic use. The authors have previously demonstrated that the mechanical processing of microfat into nanofat significantly changes its proteomic profile. Considering that mechanical fractionation leads to adipocyte disruption and lipid release, they aimed to analyze their lipidomic profiles for their regenerative properties.

Methods: Microfat and nanofat samples were isolated from 14 healthy patients. Lipidomic profiling was performed by liquid chromatography tandem mass spectrometry. The resulting data were compared against the Human Metabolome and LIPID MAPS Structure Database. MetaboAnalyst was used to analyze metabolic pathways and lipids of interest.

Results: From 2388 mass-to-charge ratio features, metabolic pathway enrichment analysis of microfat and nanofat samples revealed 109 pathways that were significantly enriched. Microfat samples revealed higher-intensity levels of sphingosines, different eicosanoids, and fat-soluble vitamins. Increased levels of coumaric acids and prostacyclin were found in nanofat.

Conclusions: This is the first study to analyze the lipidomic profiles of microfat and nanofat, providing evidence that mechanical emulsification of microfat into nanofat leads to changes in their lipid profiles. From 109 biological pathways, antiinflammatory, antifibrotic, and antimelanogenic lipid mediators were particularly enriched in nanofat samples when compared with microfat. Although further studies are necessary for a deeper understanding of the composition of these specific lipid mediators in nanofat samples, the authors propose that they might contribute to its regenerative effects on tissue.

Clinical relevance statement: Profiling the unique lipid mediators in nanofat and microfat enhances our understanding of their different therapeutic effects and allows us to link these specific mediators to antiinflammatory, pro-regenerative, or healing properties. Ultimately, this insight can advance personalized therapeutic strategies, where a specific type of fat is selected based on its optimal therapeutic effect.

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微脂和纳米脂的脂质体分析揭示了不同的脂质介质组成。

背景：微脂和纳米脂常用于各种外科手术，从嫩肤到疤痕矫正，以促进组织再生。微脂主要含有脂肪细胞，非常适合用于组织增量，而纳米脂肪则富含脂质、脂肪衍生干细胞、微血管碎片和生长因子，使其在美容方面具有吸引力。作者曾证实，将微脂机械加工成纳米脂肪会显著改变其蛋白质组特征。考虑到机械分馏会导致脂肪细胞破坏和脂质释放，他们旨在分析其脂质组谱，以了解其再生特性：方法：从 14 名健康患者身上分离出微脂和纳米脂样本。方法：从 14 名健康患者身上分离出微脂和纳米脂样本，采用液相色谱串联质谱法进行脂质组学分析。所得数据与人类代谢组和 LIPID MAPS 结构数据库进行了比较。MetaboAnalyst 用于分析代谢途径和感兴趣的脂质：结果：从 2388 个质量电荷比特征中，对微脂和纳米脂样本进行了代谢途径富集分析，发现有 109 个途径显著富集。微脂样本中的鞘磷脂、不同的二十烷酸和脂溶性维生素含量较高。结论：这是首次分析微脂和纳米脂脂质组学特征的研究，为微脂机械乳化成纳米脂导致其脂质特征发生变化提供了证据。从 109 种生物途径来看，与微脂相比，纳米脂肪样本中抗炎、抗纤维化和抗黑色素生成的脂质介质尤其丰富。虽然要更深入地了解纳米脂肪样本中这些特定脂质介质的组成还需要进一步研究，但作者认为它们可能有助于纳米脂肪对组织的再生作用：剖析纳米脂肪和微脂中独特的脂质介质有助于加深我们对其不同治疗效果的理解，并使我们能够将这些特定介质与抗炎、促进再生或愈合特性联系起来。最终，这种洞察力可以推进个性化治疗策略，即根据最佳治疗效果选择特定类型的脂肪。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Plastic and reconstructive surgery 医学-外科

CiteScore

5.00

自引率

13.90%

发文量

1436

审稿时长

1.5 months

期刊介绍： For more than 70 years Plastic and Reconstructive Surgery® has been the one consistently excellent reference for every specialist who uses plastic surgery techniques or works in conjunction with a plastic surgeon. Plastic and Reconstructive Surgery® , the official journal of the American Society of Plastic Surgeons, is a benefit of Society membership, and is also available on a subscription basis. Plastic and Reconstructive Surgery® brings subscribers up-to-the-minute reports on the latest techniques and follow-up for all areas of plastic and reconstructive surgery, including breast reconstruction, experimental studies, maxillofacial reconstruction, hand and microsurgery, burn repair, cosmetic surgery, as well as news on medicolegal issues. The cosmetic section provides expanded coverage on new procedures and techniques and offers more cosmetic-specific content than any other journal. All subscribers enjoy full access to the Journal''s website, which features broadcast quality videos of reconstructive and cosmetic procedures, podcasts, comprehensive article archives dating to 1946, and additional benefits offered by the newly-redesigned website.