Rb1/Rbl1/Vhl loss induces mouse subretinal angiomatous proliferation and hemangioblastoma
Ran Wei, Xiang Ren, Hongyu Kong, Zhongping Lv, Yongjiang Chen, Yunjing Tang, Yujiao Wang, Lirong Xiao, Tao Yu, Sabiha Hacibekiroglu, Chen Liang, Andras Nagy, Rod Bremner, Danian Chen
Ran Wei, Xiang Ren, Hongyu Kong, Zhongping Lv, Yongjiang Chen, Yunjing Tang, Yujiao Wang, Lirong Xiao, Tao Yu, Sabiha Hacibekiroglu, Chen Liang, Andras Nagy, Rod Bremner, Danian Chen
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Research Article Angiogenesis Ophthalmology

Rb1/Rbl1/Vhl loss induces mouse subretinal angiomatous proliferation and hemangioblastoma

Abstract

Von Hippel–Lindau (Vhl) protein inhibits hypoxia-inducible factor (Hif), yet its deletion in murine retina does not cause the extensive angiogenesis expected with Hif induction. The mechanism is unclear. Here we show that retinoblastoma tumor suppressor (Rb1) constrains expression of Hif target genes in the Vhl–/– retina. Deleting Rb1 induced extensive retinal neovascularization and autophagic ablation of photoreceptors in the Vhl–/– retina. RNA-sequencing, ChIP, and reporter assays showed Rb1 recruitment to and repression of certain Hif target genes. Activating Rb1 by deleting cyclin D1 induced a partial defect in the retinal superficial vascular plexus. Unexpectedly, removing Vhl suppressed retinoblastoma formation in murine Rb1/Rbl1–deficient retina but generated subretinal vascular growths resembling retinal angiomatous proliferation (RAP) and retinal capillary hemangioblastoma (RCH). Most stromal cells in the RAP/RCH–like lesions were Sox9+, suggesting a Müller glia origin, and expressed Lgals3, a marker of human brain hemangioblastoma. Thus, the Rb family limit Hif target gene expression in the Vhl–/– retina, and removing this inhibitory signal generates new models for RAP and RCH.

Authors

Ran Wei, Xiang Ren, Hongyu Kong, Zhongping Lv, Yongjiang Chen, Yunjing Tang, Yujiao Wang, Lirong Xiao, Tao Yu, Sabiha Hacibekiroglu, Chen Liang, Andras Nagy, Rod Bremner, Danian Chen

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Figure 7

The cellular composition of the RCH-like and RAP-like lesions in the Rb1/Rbl1/Vhl–TKO retina.

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The cellular composition of the RCH-like and RAP-like lesions in the Rb1...
(A) P14 horizontal TKO retinal sections were stained for nuclear cells (DAPI, blue), vascular endothelial cells (IB4, green), amacrine cells (Ap2a, red), Müller cells (Sox9, red), Müller/microglial cells (Lgals3, red), and microglial cells (Aif1, red). Blowup shows that Lgals3+ cells are stromal cells but not IB4+ vascular endothelial cells. (B) P14 horizontal WT retinal sections were stained for nuclear cells (DAPI, blue), Müller/microglial cells (Lgals3, green), amacrine cells (Ap2a, red), Müller cells (Sox9, red), and microglial cells (Aif1, red). Arrow indicates RPE cells also express low levels of Sox9 but not Lgals3. (C) Genomic DNA extracted from the laser capture microdissected (LCM) RAP lesions on slides were amplified by PCR for the floxed alleles of exon 19 of Rb1 gene. Primers are Rb212 and Rb18. The 670-bp band represents the un-recombined allele; 260-bp band represents recombined allele. (D) P14 horizontal (α-Cre, Rb1fl/fl, Rbl1–/–, Vhlfl/fl, and Z/red) retinal sections were stained for nuclear cells (DAPI, blue), vascular endothelial cells (IB4, green), and DsRed (red). Arrows indicate some representative DsRed+ or α-Cre-expressing cells in the RAP-like lesion. Scale bar: 50 μm.