A murine model of acute lung injury identifies growth factors to promote tissue repair and their biomarkers

Kurosawa, Takeyuki; Miyoshi, Shion; Yamazaki, Soh; Nishina, Takashi; Mikami, Taisei; Oikawa, Akira; Homma, Sakae; Nakano, Hiroyasu

doi:10.1111/gtc.12659

Cited by 8 publications

(4 citation statements)

References 45 publications

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“…To stimulate cell proliferation and promote tissue repair, the fibroblast growth factor, EGF, and platelet-derived growth factor are essential components. [153][154][155] Kang et al developed a hydrogel that reduces scar by activating growth factors associated with remodeling of the ECM. 156 The ECM creates a complex milieu that is essential for wound protection and healing.…”

Section: Hydrogels For the Proliferative And Remodeling Stages Of Wou...mentioning

confidence: 99%

A comprehensive exploration of hydrogel applications in multi-stage skin wound healing

Lu,

Wang,

Wang

et al. 2024

Biomater. Sci.

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Section: Hydrogels For the Proliferative And Remodeling Stages Of Wou...mentioning

confidence: 99%

A comprehensive exploration of hydrogel applications in multi-stage skin wound healing

Lu,

Wang,

Wang

et al. 2024

Biomater. Sci.

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“…Pulmonary infiltrates involve abnormal substances such as fluid, cells or inflammatory debris in the lung tissue or airspaces. ALI, on the other hand, is a severe respiratory condition triggered by various factors, including pneumonia, sepsis, burns, trauma and systemic inflammatory reactions rooted in diffuse lung cell injuries (DLCI) [5]. ALI is characterized by lung tissue damage and intense oxidative stress caused by pathogens, chemicals and trauma, making it a serious and potentially life-threatening condition [6].…”

Section: Introductionmentioning

confidence: 99%

Mechanism of Alleviating Acute Lung Injury in Mice from Serum Metabolomics Analysis of Cordyceps fumosorosea

Khan,

Zhou,

Guo

et al. 2024

Separations

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Cordyceps fumosorosea is a common species within the Cordyceps genus. In this study, the protective effect of Cordyceps fumosorosea mycelium was investigated to clarify the potential mechanism of alleviating acute lung injury in mice using serum metabolomic analysis, which could provide a theoretical basis for the clinical application of C. fumosorosea. Sixty mice were divided into six groups (NS, LPS, MIX, COR, COC and DMX). Lung cell nuclei were analyzed using hematoxylin and eosin staining and cellular changes were observed using transmission electron microscopy (TEM). Metabolomic analyses using liquid chromatography-mass spectrometry (LC-MS) were used to identify various compounds. In all six groups, lung nuclear inflammation was observed in the COR, COC and DMX groups, whereas the NS, LPS and MIX groups showed no cellular changes, indicating good health. Metabolomic analysis using LC-MS identified 1607 compounds across various classes. Statistical analyses, including the coefficient of variation and OPLS-DA, revealed distinct metabolic proles, indicating significant changes after the consumption of C. fumosorosea mycelia. Lipids constituted the largest proportion (30.37%) of the 30 identified classes and subclasses of metabolites. A total of 617 differentially accumulated metabolites (DAMs) were identified, both unique and shared between comparisons. Metabolite analysis identified 617 differentially accumulated metabolites, with 493 common to the LPS vs. MIX group, 75 in the LPS vs. NS group and 49 in the LPS vs. NS group and LPS vs. MIX group. This comprehensive investigation suggests that C. fumosorosea mycelia treatment holds promise as a therapeutic intervention for lung injury, influencing both the histopathological (lung) features and serum metabolic profiles.

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“…Pulmonary in ltrates involve abnormal substances such as uid, cells, or in ammatory debris in the lung tissue or airspaces. ALI, on the other hand, is a severe respiratory condition triggered by various factors, including pneumonia, sepsis, burns, trauma, and systemic in ammatory reactions rooted in diffuse lung cell injuries (DLCI) (Kurosawa et al, 2019). ALI is characterized by lung tissue damage and intense oxidative stress caused by pathogens, chemicals, and trauma, making it a serious and potentially life-threatening condition (LV, 2016).…”

Section: Introductionmentioning

confidence: 99%

Mechanism of alleviating acute lung injury in mice from serum metabolomics analysis of Cordyceps fumosorosea

Khan,

Zhou,

Guo

et al. 2023

Preprint

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Introduction Mechanism of alleviating acute lung injury in mice from serum metabolomics analysis of Cordyceps fumosorosea Aims This study investigated the potential anti-inflammatory effects of Cordyceps fumosorosea mycelia on lung health, with a focus on acute lung injury in mice. The aims was to elucidate the underlying metabolic pathways and provide insights into the therapeutic potential of C. fumosorosea mycelia under lung-related conditions. Methods Sixty mice were divided into six groups (NS, LPS, MIX, COR, COC, and DMX). Lung cell nuclei were analyzed using hematoxylin and eosin staining, and cellular changes were observed using transmission electron microscopy (TEM). Metabolomics analyses using liquid chromatography-mass spectrometry (LC-MS) have been used to identify various compounds. Results In all six groups, lung nuclear inflammation was observed in the COR, COC, and DMX groups, whereas the NS, LPS, and MIX groups showed no cellular changes, indicating good health. Metabolomic analysis using LC-MS identified 1,607 compounds across various classes. Statistical analyses, including the Coefficient of Variation and OPLS-DA, revealed distinct metabolic profiles, indicating significant changes after the consumption of C. fumosorosea mycelia. Lipids constituted the largest proportion (30.37%) of the 30 identified classes and subclasses of metabolites. A total of 618 differentially accumulated metabolites (DAMs) were identified, both unique and shared between comparisons. Conclusions Metabolic pathway analysis revealed differences between mice groups blood serum, which have good potential therapeutic pathways. The identified compounds further support the significant metabolic changes induced by C. fumosorosea mycelial consumption.

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A murine model of acute lung injury identifies growth factors to promote tissue repair and their biomarkers

Cited by 8 publications

References 45 publications

A comprehensive exploration of hydrogel applications in multi-stage skin wound healing

A comprehensive exploration of hydrogel applications in multi-stage skin wound healing

Mechanism of Alleviating Acute Lung Injury in Mice from Serum Metabolomics Analysis of Cordyceps fumosorosea

Mechanism of alleviating acute lung injury in mice from serum metabolomics analysis of Cordyceps fumosorosea

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