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17β-estradiol regulates microglia activation and polarization in the hippocampus following global cerebral ischemia

Oxidative Medicine and Cellular Longevity (2018) 2018
DOI: 10.1155/2018/4248526
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Abstract

17β-Estradiol (E2) is a well-known neuroprotective hormone, but its role in regulation of neuroinflammation is less understood. Recently, our lab demonstrated that E2 could regulate the NLRP3 (NOD-like receptor protein 3) inflammasome pathway in the hippocampus following global cerebral ischemia (GCI). Here, we examined the ability of E2 to regulate activation and polarization of microglia phenotype in the hippocampus after global cerebral ischemia (GCI). Our in vivo study in young adult ovariectomized rats showed that exogenous low-dose E2 profoundly suppressed microglia activation and quantitatively shifted microglia from their "activated," amoeboid morphology to a "resting," ramified morphology after GCI. Further studies using M1 "proinflammatory" and M2 "anti-inflammatory" phenotype markers showed that E2 robustly suppressed the "proinflammatory" M1 phenotype, while enhancing the "anti-inflammatory" M2 microglia phenotype in the hippocampus after GCI. These effects of E2 may be mediated directly upon microglia, as E2 suppressed the M1 while enhancing the M2 microglia phenotype in LPS- (lipopolysaccharide-) activated BV2 microglia cells in vitro. E2 also correspondingly suppressed proinflammatory while enhancing anti-inflammatory cytokine gene expression in the LPS-treated BV2 microglia cells. Finally, E2 treatment abolished the LPS-induced neurotoxic effects of BV2 microglia cells upon hippocampal HT-22 neurons. Collectively, our study findings suggest a novel E2-mediated neuroprotective effect via regulation of microglia activation and promotion of the M2 "anti-inflammatory" phenotype in the brain.

Figures

  • Figure 1: Experimental design used for in vivo and in vitro studies. (a) Young adult female rats were ovariectomized (OVX) at day 0, and the E2 group was administered with E2 pumps. The four-vessel occlusion GCI model followed this at days 6 and 7. The animals were then sacrificed at the desired time points after ischemia, and the samples were processed as needed. (b) The BV2, murine microglial cell line and hippocampal cell line, HT-22 were cultured up to 80% confluence. The BV2 cells were treated with LPS or LPS + E2 for 16 hours and harvested for further analyses. The conditioned media from these cells was taken and used to treat HT-22 cells for four hours. The conditioned media were then taken for LDH assay, and the HT-22 cells were harvested for further analyses.
  • Table 1: Primers used for RT-PCR analysis of in vivo samples.
  • Table 2: Primers used for RT-PCR analysis of in vitro samples.
  • Figure 2: Temporal pattern of microglia activation and morphological changes in the hippocampus after global cerebral ischemia and its regulation by estrogen. (a) Representative confocal images show Iba1 staining of microglia cells in the hippocampal CA1 region of control animals (sham and E2) and at days 1, 3, and 7 after global cerebral ischemia (GCI). This activation and morphological changes are suppressed under the effect of E2 as shown in the lower panel (magnification = 40x, scale bar = 50 μm). (b) Intensity quantification of Iba1 staining of controls and at days 1, 3, and 7 with and without E2 treatment after GCI. (c) Microglia cell count of controls and at days 1, 3, and 7 with and without E2 treatment after GCI. (d) Average cell area of controls and at days 1, 3, and 7 with and without E2 treatment after GCI (n= 5‐6 animals per group) (#p < 0 05, controls, 1 and 3 day GCI versus 7 day GCI, ∗p < 0 05, 7 day GCI versus 7 day GCI + E2, NS = not significant).
  • Figure 3: Estrogen suppresses gene expression of M1 markers and upregulates gene expression of M2 markers in the hippocampus after global cerebral ischemia. (a–c) mRNA samples from the hippocampus at days 3 and 7 were collected and analyzed for gene expression of M1, proinflammatory markers, TNF-α, CD68, and IL-1β. E2 treatment significantly suppressed gene expression of these markers. (d–f) mRNA samples from the hippocampus at days 3 and 7 were collected and analyzed for gene expression of M2, anti-inflammatory markers, Arginase1, CD206, and Ym1. E2 treatment significantly upregulated gene expression of these markers (n= 5-6 animals per group) (∗p < 0 05, GCI versus GCI + E2).
  • Figure 4: Estrogen suppresses protein levels of M1 markers and upregulates protein levels of M2 markers in the hippocampus after global cerebral ischemia. (a) Representative confocal microscopy images of M1 markers, CD68 and iNOS, in shams and GCI as well as GCI + E2 treatment groups at 7 days after GCI indicate upregulation after GCI and suppression under the effect of E2 (magnification = 40x, scale bar = 50μm). (b, c) Quantification of intensity of confocal microscopy staining in 5A (n= 5-6 animals per group). (d, e) Western blot analysis of classical M1 marker, CD68, in sham and GCI as well as GCI + E2 treatment groups at 7 days after GCI. Quantification of blots indicates a significant increase in CD68 after GCI and suppression under the effect of E2. (f) Representative confocal microscopy images of M2 markers, CD206 and IL1RA, in shams and GCI as well as GCI + E2 treatment groups at 7 days after GCI indicate downregulation after GCI and upregulation under the effect of E2 (magnification = 40x, scale bar = 50μm). (g, h) Quantification of intensity of confocal microscopy staining in 5F. (i, j) Western blot analysis of classical M2 marker, CD206, in sham, GCI, and GCI + E2 treatment groups at 7 days after GCI. Quantification of Western blots shows that there is not a change in CD206 expression after GCI. However, E2 treatment with GCI leads to a significant upregulation of CD206 (n= 5-6 animals per group) (#p < 0 05, sham versus GCI, ∗p < 0 05, GCI versus GCI + E2).
  • Figure 5: LPS-activated BV2 microglia cells show morphological differences in terms of activation under the effect of E2 in vitro. (a) Representative bright field microscopy images show the morphological differences between nonactivated control, LPS-activated and activated + E2-treated BV2 microglia cells in vitro. The control group showed longer processes and less rounded cells. The LPS-activated group showed more rounded cells with no thinner processes. The LPS + E2-treated groups further suppress the BV2 cell activation. (b) Quantitative measurement of BV2 cell activation in terms of number of active cells per field (n= 5-6 per group) (#p < 0 05, control versus LPS, ∗p < 0 05, LPS versus LPS + E2).
  • Figure 6: Suppression of M1 phenotype markers by E2 in the LPS-activated BV2 microglia cells in vitro. (a–c) mRNA was collected from control, LPS-activated, and LPS activated + E2-treated BV2 cells at 16 hours after activation and treatment. Quantitative RT-PCR analysis of M1 markers, CD86, iNOS, and CD32, indicates a significant upregulation after LPS activation. This upregulation is significantly suppressed by E2 treatment in the activated cells. (d, e) Western blot analysis and quantification of the M1 marker, iNOS, indicate a significant increase in expression after LPS activation and suppression by E2 treatment (n= 5-6 per group) (#p < 0 05, control versus LPS, ∗p < 0 05, LPS versus LPS + E2).

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Thakkar, R., Wang, R., Wang, J., Vadlamudi, R. K., & Brann, D. W. (2018). 17β-estradiol regulates microglia activation and polarization in the hippocampus following global cerebral ischemia. Oxidative Medicine and Cellular Longevity, 2018. https://doi.org/10.1155/2018/4248526

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