Astrocytes propel neurovascular dysfunction during cerebral cavernous malformation lesion formation
Miguel Alejandro Lopez-Ramirez, … , Issam A. Awad, Mark H. Ginsberg
Miguel Alejandro Lopez-Ramirez, … , Issam A. Awad, Mark H. Ginsberg
Published May 27, 2021
Citation Information: J Clin Invest. 2021;131(13):e139570. https://doi.org/10.1172/JCI139570.
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Research Article Angiogenesis Cell biology

Astrocytes propel neurovascular dysfunction during cerebral cavernous malformation lesion formation

Abstract

Cerebral cavernous malformations (CCMs) are common neurovascular lesions caused by loss-of-function mutations in 1 of 3 genes, including KRIT1 (CCM1), CCM2, and PDCD10 (CCM3), and generally regarded as an endothelial cell-autonomous disease. Here we reported that proliferative astrocytes played a critical role in CCM pathogenesis by serving as a major source of VEGF during CCM lesion formation. An increase in astrocyte VEGF synthesis is driven by endothelial nitric oxide (NO) generated as a consequence of KLF2- and KLF4-dependent elevation of eNOS in CCM endothelium. The increased brain endothelial production of NO stabilized HIF-1α in astrocytes, resulting in increased VEGF production and expression of a “hypoxic” program under normoxic conditions. We showed that the upregulation of cyclooxygenase-2 (COX-2), a direct HIF-1α target gene and a known component of the hypoxic program, contributed to the development of CCM lesions because the administration of a COX-2 inhibitor significantly prevented the progression of CCM lesions. Thus, non–cell-autonomous crosstalk between CCM endothelium and astrocytes propels vascular lesion development, and components of the hypoxic program represent potential therapeutic targets for CCMs.

Authors

Miguel Alejandro Lopez-Ramirez, Catherine Chinhchu Lai, Shady Ibrahim Soliman, Preston Hale, Angela Pham, Esau J. Estrada, Sara McCurdy, Romuald Girard, Riya Verma, Thomas Moore, Rhonda Lightle, Nicholas Hobson, Robert Shenkar, Orit Poulsen, Gabriel G. Haddad, Richard Daneman, Brendan Gongol, Hao Sun, Frederic Lagarrigue, Issam A. Awad, Mark H. Ginsberg

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Figure 8

Loss of brain endothelial Pdcd10 increases NO production and induces astrocyte-derived VEGF.

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Loss of brain endothelial Pdcd10 increases NO production and induces ast...
(A) Total NO production from the media of Pdcd10ECKO and Pdcd10fl/fl BMECs cultured for 36 hours (SEM, n = 7). (B) NO release in Pdcd10ECKO and Pdcd10ECKO Nos3+/– BMECs or following incubation with L-NAME (150 μM) (SEM, n = 3). (C) Quantification of eNOS protein from Pdcd10ECKO and Pdcd10ECKO Nos3+/– BMECs (SEM, n = 5). Culture media was supplemented with 500 uM l-arginine and was deficient in serum. Lanes in this panel were run on the same gel but were noncontiguous. (D) β-gal/VEGF expression (black) and staining for GFAP (red) of primary cultured astrocytes cocultured with Pdcd10ECKO BMECs compared with Pdcd10fl/fl BMEC controls for 48 hours (n = 2). (E) RT-qPCR analysis of β-gal and (F) Vegfa mRNA in primary cultured astrocytes cocultured with Pdcd10ECKO BMEC compared with Pdcd10fl/fl BMEC controls (SEM, n = 4). (G) Quantification of HIF-1α protein from primary astrocytes cocultured with Pdcd10ECKO BMEC and Pdcd10ECKO Nos3+/– BMECs (SEM, n = 4). (H) Neonatal hindbrain at P10 from Pdcd10ECKO Nos3+/+ Vegfatm1.1Nagy (Pdcd10ECKO eNOS+/+) and Pdcd10fl/fl Nos3+/– Vegfatm1.1Nagy (Pdcd10ECKO eNOS+/–) littermate controls stained for GFAP-positive astrocytes (red), β-gal/VEGF (black), isolectin B4 (green). Asterisks indicate vascular lumen of CCM lesions (n = 3). (I and J) Quantification of Nos3 (I) and Vegf (J) mRNA levels in P10 Pdcd10ECKO Nos3+/– and Pdcd10ECKO and Pdcd10fl/fl Nos3+/– hindbrains when compared with littermate Pdcd10fl/fl controls, as assessed by RT-qPCR (SEM, n = 9 or 12 mice in each group). (K) Micro-CT analysis from mice at P14 Pdcd10BECKO Nos3+/+ and Pdcd10BECKO Nos3+/– mice (SEM, n =18 or 21 mice in each group). (L) Vegf mRNA levels in P14 Pdcd10BECKO Nos3+/– and Pdcd10BECKO Nos3+/+ cerebral tissue (SEM, n = 7 mice in each group, except for Pdcd10fl/fl Nos3+/+ n = 2). Data are mean ± SEM. *, #P < 0.05, ##P < 0.01, ***, ###P < 0.001 (*comparison to Pdcd10ECKO Nos3+/– and #comparison to L-NAME or Pdcd10fl/fl eNOs+/+), as determined by Student’s t test and 1-way ANOVA, followed by the Tukey post hoc test. Scale bars: 100 μm (D and H).