αVβ8 integrin targeting to prevent posterior capsular opacification
Mahbubul H. Shihan, … , Adam P. Faranda, Melinda K. Duncan
Mahbubul H. Shihan, … , Adam P. Faranda, Melinda K. Duncan
Published September 23, 2021
Citation Information: JCI Insight. 2021;6(21):e145715. https://doi.org/10.1172/jci.insight.145715.
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Research Article Cell biology Ophthalmology

αVβ8 integrin targeting to prevent posterior capsular opacification

Abstract

Fibrotic posterior capsular opacification (PCO), a major complication of cataract surgery, is driven by transforming growth factor–β (TGF-β). Previously, αV integrins were found to be critical for the onset of TGF-β–mediated PCO in vivo; however, the functional heterodimer was unknown. Here, β8 integrin–conditional knockout (β8ITG-cKO) lens epithelial cells (LCs) attenuated their fibrotic responses, while both β5 and β6 integrin–null LCs underwent fibrotic changes similar to WT at 5 days post cataract surgery (PCS). RNA-Seq revealed that β8ITG-cKO LCs attenuated their upregulation of integrins and their ligands, as well as known targets of TGF-β–induced signaling, at 24 hours PCS. Treatment of β8ITG-cKO eyes with active TGF-β1 at the time of surgery rescued the fibrotic response. Treatment of WT mice with an anti-αVβ8 integrin function blocking antibody at the time of surgery ameliorated both canonical TGF-β signaling and LC fibrotic response PCS, and treatment at 5 days PCS, after surgically induced fibrotic responses were established, largely reversed this fibrotic response. These data suggest that αVβ8 integrin is a major regulator of TGF-β activation by LCs PCS and that therapeutics targeting αVβ8 integrin could be effective for fibrotic PCO prevention and treatment.

Authors

Mahbubul H. Shihan, Samuel G. Novo, Yan Wang, Dean Sheppard, Amha Atakilit, Thomas D. Arnold, Nicole M. Rossi, Adam P. Faranda, Melinda K. Duncan

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Figure 7

Treatment of WT mice with an αVβ8-IBA causes sustained reduction of fibrosis and proliferation PCS.

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Treatment of WT mice with an αVβ8-IBA causes sustained reduction of fibr...
(AF) A single systemic treatment of WT mice with αVβ8-IBA causes sustained reduction of fibrosis through 5 days PCS as measured by the low levels of SMAD3 phosphorylation (A and B; P = 0.008) and α-SMA (A and C; P ≤ 0.001), tenascin C (A and D; P = 0.008), fibronectin (A and E; P = 0.025), and collagen I (A and F; P = 0.016) protein production. (G) Fewer cells were associated with β8ITG-cKO (P ≤ 0.001) and WT (αVβ8-IBA) (P = 0.002) capsular bags compared with WT control at 5 days PCS. (H and I) WT LCs induce expression of the cell cycle marker Ki67 at 3 days PCS while a significantly lower proportion of β8ITG-cKO (P = 0. 031) and WT (αVβ8-IBA) LCs (P = 0.048) are in the cell cycle at this time point. Scale bar: 35 μm. Control mice were treated with an isotype-matched antibody (anti–human αVβ3 integrin that does not cross-react with the mouse αVβ3 integrin protein); p-SMAD3, tenascin C, fibronectin, collagen I, and Ki67 (red); α-SMA (green); DNA detected by Draq5/DAPI (blue). All experiments had n = 3 except for G, which had n = 6. Values are expressed as mean ± SEM presented for 1 representative experiment of 2 independent experiments, with similar results; asterisks indicate statistically significant MFI/nuclei per section between 2 groups at an indicated time point PCS (*P ≤ 0.05; **P ≤ 0.01; ***P ≤ 0.001); 1-way/2-way ANOVA with Tukey’s post hoc test. Graph colors: (BF) red (WT), green (β8ITG-cKO), blue (WT [αVβ8-IBA]); (G) red — 3 days PCS for 3 conditions (WT [β8ITG-cKO]) (WT [αVβ8-IBA]), green — 5 days PCS for 3 conditions (WT, [β8ITG-cKO]) (WT [αVβ8-IBA]); (I) red (WT), green (β8ITG-cKO), blue (WT [αVβ8-IBA]). C, lens capsule; LC, remnant lens cells; PCS, post cataract surgery; αVβ8-IBA, αVβ8 integrin function blocking antibody.