VEGF Receptor 1-Expressing Macrophages Recruited from Bone Marrow Enhances Angiogenesis in Endometrial Tissues

Sekiguchi, Kazuki; Yoshiya, Ikuto; Hattori, Kyoko; Inoue, Takuya; Hosono, Kanako; Honda, Masahito; Numao, Akiko; Aoki, Hideki; Shibuya, Masabumi; Unno, Nobuya; Murakami, Masataka

doi:10.1038/s41598-019-43185-8

Cited by 45 publications

(59 citation statements)

References 52 publications

(58 reference statements)

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“…Using bone marrow chimeras they demonstrated that VEGFR1 + cells in lesions were bone marrow derived CD11b + macrophages (125). WT endometriosis mice were also treated with clophosome N which depleted phagocytic cells in the peritoneal cavity at the time of endometriosis induction, and demonstrated that growth and angiogenesis in lesions was reduced (125). A similar study using liposomal bisphosphonate to deplete phagocytic peritoneal populations also demonstrated reduced growth of endometriosis lesions in a rat model (138).…”

Section: Macrophage Phenotype and Function In Endometriosismentioning

confidence: 94%

“…Although, peritoneal macrophages contribute to inflammation in endometriosis, it remains unknown whether they infiltrate endometriosis lesions and thus the role these cells play within the ectopic tissue is not known. Using bone marrow chimeras Sekiguchi et al demonstrated that CD11b + cells from the bone marrow infiltrate and accumulate in endometriosis lesions in a mouse model (125). These cells could represent a monocyte/macrophage population, although CD11b + cells could also constitute neutrophils, eosinophils and or certain subsets of dendritic cells (126).…”

Section: Macrophage Ontogeny In Endometriosismentioning

confidence: 99%

“…Sekiguchi et al demonstrated that VEGFR1 knockout mice had smaller and less vascularized lesions than WT in a mouse model where sections of uterus were sutured onto the peritoneal wall. Using bone marrow chimeras they demonstrated that VEGFR1 + cells in lesions were bone marrow derived CD11b + macrophages (125). WT endometriosis mice were also treated with clophosome N which depleted phagocytic cells in the peritoneal cavity at the time of endometriosis induction, and demonstrated that growth and angiogenesis in lesions was reduced (125).…”

Section: Macrophage Phenotype and Function In Endometriosismentioning

confidence: 99%

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Endometriosis-Associated Macrophages: Origin, Phenotype, and Function

2020

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Endometriosis is a complex, heterogeneous, chronic inflammatory condition impacting ∼176 million women worldwide. It is associated with chronic pelvic pain, infertility, and fatigue, and has a substantial impact on health-related quality of life. Endometriosis is defined by the growth of endometrial-like tissue outside the uterus, typically on the lining of the pelvic cavity and ovaries (known as "lesions"). Macrophages are complex cells at the center of this enigmatic condition; they are critical for the growth, development, vascularization, and innervation of lesions as well as generation of pain symptoms. In health, tissue-resident macrophages are seeded during early embryonic life are vital for development and homeostasis of tissues. In the adult, under inflammatory challenge, monocytes are recruited from the blood and differentiate into macrophages in tissues where they fulfill functions, such as fighting infection and repairing wounds. The interplay between tissue-resident and recruited macrophages is now at the forefront of macrophage research due to their differential roles in inflammatory disorders. In some cancers, tumor-associated macrophages (TAMs) are comprised of tissue-resident macrophages and recruited inflammatory monocytes that differentiate into macrophages within the tumor. These macrophages of different origins play differential roles in disease progression. Herein, we review the complexities of macrophage dynamics in health and disease and explore the paradigm that under disease-modified conditions, macrophages that normally maintain homeostasis become modified such that they promote disease. We also interrogate the evidence to support the existence of multiple phenotypic populations and origins of macrophages in endometriosis and how this could be exploited for therapy.

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Section: Macrophage Phenotype and Function In Endometriosismentioning

confidence: 94%

Section: Macrophage Ontogeny In Endometriosismentioning

confidence: 99%

Section: Macrophage Phenotype and Function In Endometriosismentioning

confidence: 99%

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Endometriosis-Associated Macrophages: Origin, Phenotype, and Function

2020

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“…Moreover, there exists a synergistic effect between bFGF and VEGFA to form new vessels through platelet-derived growth factor signal pathway [3]. It has been demonstrated that tumorigenesis will be withdrawn if the signal pathways of tumor angiogenesis are blockaded [4]. Thus, angiogenesis inhibition may be a viable treatment approach for the highly vascular tumor types, such as ovarian cancer, lung cancer and breast cancer [5][6][7].…”

Section: Introductionmentioning

confidence: 99%

Large‐scale production, purification, and function of a tumor multi‐epitope vaccine: Peptibody with bFGF/VEGFA

Zhang

Jiang

Chen

et al. 2020

Engineering in Life Sciences

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In tumor tissue, basic fibroblast growth factor (bFGF) and vascular endothelial growth factor A (VEGFA) promote tumorigenesis by activating angiogenesis, but targeting single factor may produce drug resistance and compensatory angiogenesis. The Peptibody with bFGF/VEGFA was designed to simultaneously blockade these two factors. We were aiming to produce this Fc fusion protein in a large scale. The biological characterizations of Peptibody strains were identified as Escherichia coli and the fermentation mode was optimized in the shake flasks and 10‐L bioreactor. The fermentation was scaled up to 100 L, with wet cell weight (WCW) 126 g/L, production 1.41 g/L, and productivity 0.35 g/(L·h) of IPTG induction. The target protein was isolated by cation‐exchange, hydrophobic and Protein A chromatography, with total recovery of 60.28% and HPLC purity of 86.71%. The host cells protein, DNA, and endotoxin residues were within the threshold. In mouse model, immunization of Peptibody vaccine could significantly suppressed the tumor growth and angiogenesis, with inhibition rate of 57.73 and 39.34%. The Peptibody vaccine could elicit high‐titer anti‐bFGF and anti‐VEGFA antibodies, which inhibited the proliferation and migration of Lewis lung cancer cell cells by decreasing the Akt/MAPK signal pathways. Therefore, the Peptibody with bFGF/VEGFA might be used as a therapeutic tumor vaccine. The large‐scale process we developed could support its industrial production and pre‐clinical study in the future.

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“…Among these, a main angiogenic mediator that has attracted much attention is vascular endothelial growth factor (VEGF), which has been suggested to play an important role in the development of endometriosis in combination with its endothelial selective receptor, VEGFR2 (16), also known as kinase insert domain receptor (KDR) (17). VEGF proteins play specific roles in controlling the growth of new blood vessels, while VEGF receptor signal transduction mediates endothelial cell proliferation, migration, organization into functional vessels and the remodeling of the vessel network (18,19). VEGF is produced by endothelial cells, monocytes and fibroblasts in response to hypoxia, which is the major physiological signal for angiogenesis through the activation of its receptor, VEGFR2, which is a member of the tyrosine kinase superfamily (20).…”

Section: Introductionmentioning

confidence: 99%

Implication of VEGFR2 in endometriosis: A structural biological and genetic approach

et al. 2019

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Vascular endothelial growth factor receptor 2 (VEGFR2) is a tyrosine kinase receptor, which exerts its activity by binding to VEGF, a major mediator of angiogenesis. Endometriosis is one of the most common gynecological diseases in women of reproductive age, characterized mainly by pelvic pain and infertility. Among the various hypotheses that have been suggested thus far for the development of this condition, it is considered that it is closely related to angiogenic responses. Polymorphisms of the VEGFR2 gene have already been shown to be associated with vascular diseases, such as coronary heart disease (CHD). In the present study, the authors sought to clarify the structural/functional consequences of rs2305948, a common single nucleotide polymorphism (SNP) of VEGFR2 in endometriosis and to investigate the association of this SNP with susceptibility to endometriosis, probably by influencing endothelial cells. This study comprised 162 patients with endometriosis (stages I-IV) hospitalized for endometriosis, diagnosed by laparoscopic intervention and histologically confirmed, and 170 women in the control group from a genetic homogeneous population. Genotyping of the V297I (rs2305948) polymorphism was performed through TaqMan technology. Three-dimensional (3D) homology modelling was applied for the localization of the polymorphism under study on the VEGFR2 protein. Modelling revealed that the V297I polymorphism may affect the efficiency of trans-autophosphorylation and cell signaling. The results of statistical analysis revealed that there was no significant allelic and genotypic association of the rs2305948 SNP between the disease (stages I-IV) and the control group. Further analysis did not reveal any association of this SNP with an increased susceptibility to endometriosis for stages I and II or III and IV of the disease only. Apart from structural data that suggest that the rs2305948 SNP of VEGFR2 gene may contribute to the pathogenesis of endometriosis by impairing VEGF signaling and increasing angiogenesis, in the present study, this SNP was not found to be associated with an increased susceptibility to endometriosis.

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VEGF Receptor 1-Expressing Macrophages Recruited from Bone Marrow Enhances Angiogenesis in Endometrial Tissues

Cited by 45 publications

References 52 publications

Endometriosis-Associated Macrophages: Origin, Phenotype, and Function

Endometriosis-Associated Macrophages: Origin, Phenotype, and Function

Large‐scale production, purification, and function of a tumor multi‐epitope vaccine: Peptibody with bFGF/VEGFA

Implication of VEGFR2 in endometriosis: A structural biological and genetic approach

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