缺氧通过激活的巨噬细胞调节胎盘血管生成。

Hypoxia regulates placental angiogenesis via alternatively activated macrophages.

机构信息

Department of Pediatrics, Stanford University School of Medicine, Stanford, CA, USA.

出版信息

Am J Reprod Immunol. 2018 Sep;80(3):e12989. doi: 10.1111/aji.12989. Epub 2018 Jun 22.

DOI:10.1111/aji.12989

PMID:29932269

Abstract

PROBLEM

Uterine and placental macrophages play critical roles in maintaining a normal pregnancy. The majority of these macrophages are believed to be alternatively activated macrophages (M2).

METHOD OF STUDY

Mouse bone marrow cells were differentiated into macrophages and polarized to M2 in vitro by treatment with IL-4 [M2a] or IL-10 [M2c] and M1 with LPS/IFN-γ as controls. Macrophage subtypes were confirmed by surface markers and characterized by gene expression profiles.

RESULTS

Compared to M1, M2 showed strong pro-angiogenic activity by expressing higher mRNA for angiogenic-associated factors (Cxcl12, Vegfa, PlGF, Mmp2). M2c produced the highest levels of PlGF, Mmp2, and Cxcr4. To mimic the normal placental microenvironment, M2 were exposed to hypoxia and sex hormones (progesterone, estrogen). In both M2c and M2a, severe hypoxic (1%-3% O ) exposure significantly suppressed PlGF, Cxcl12, and Mmp2 mRNA, but not Vegfa, compared to normoxia (21% O ) or physiological hypoxia (5% O ). mRNA expression returned to normal when hypoxic cells were returned to normoxia. Hypoxia (1%) reduced antioxidant levels in M2 and re-exposure to normoxia significantly increased superoxide dismutase (Sod1, Sod2) and heme oxygenase-1 (HO-1) levels in M2a, and only glutathione peroxidase (Gpx1, Gpx3, Gpx4) in M2c. However, progesterone and estrogen treatment had minimal effects on angiogenic factor expression in M2.

CONCLUSION

M2, particularly M2c, displayed strong pro-angiogenic potential, which decreased under severe hypoxia such as in early pregnancy. Thus, conditions that alter the placental oxygen microenvironment or macrophage response in early pregnancy might cause aberrant angiogenesis and vascular remodeling, and lead to abnormal placental vascular development.

摘要

问题

子宫和胎盘巨噬细胞在维持正常妊娠中起着关键作用。这些巨噬细胞大多数被认为是交替激活的巨噬细胞（M2）。

方法

通过用白细胞介素 4（IL-4）[M2a]或白细胞介素 10（IL-10）[M2c]和 LPS/IFN-γ处理将小鼠骨髓细胞分化为巨噬细胞并体外极化到 M2，作为对照。通过表面标志物确认巨噬细胞亚型，并通过基因表达谱进行特征描述。

结果

与 M1 相比，M2 通过表达更高的血管生成相关因子（Cxcl12、Vegfa、PlGF、Mmp2）的 mRNA 显示出强烈的促血管生成活性。M2c 产生最高水平的 PlGF、Mmp2 和 Cxcr4。为了模拟正常胎盘微环境，将 M2 暴露于缺氧和性激素（孕酮、雌激素）中。在 M2c 和 M2a 中，与常氧（21%O2）或生理缺氧（5%O2）相比，严重缺氧（1%-3%O2）暴露显著抑制了 PlGF、Cxcl12 和 Mmp2 mRNA，但不抑制 Vegfa。当缺氧细胞恢复常氧时，mRNA 表达恢复正常。缺氧（1%）降低了 M2 的抗氧化水平，而重新暴露于常氧显著增加了 M2a 中的超氧化物歧化酶（Sod1、Sod2）和血红素加氧酶-1（HO-1）水平，仅在 M2c 中增加了谷胱甘肽过氧化物酶（Gpx1、Gpx3、Gpx4）水平。然而，孕激素和雌激素处理对 M2 中血管生成因子的表达影响很小。

结论

M2，特别是 M2c，表现出强烈的促血管生成潜力，在早期妊娠等严重缺氧下会降低。因此，改变早期妊娠胎盘氧微环境或巨噬细胞反应的条件可能导致异常的血管生成和血管重塑，并导致异常的胎盘血管发育。

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缺氧通过激活的巨噬细胞调节胎盘血管生成。

Hypoxia regulates placental angiogenesis via alternatively activated macrophages.

机构信息

出版信息

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METHOD OF STUDY

RESULTS

CONCLUSION

问题

方法

结果

结论

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