TAFI deficiency causes maladaptive vascular remodeling after hemophilic joint bleeding
Tine Wyseure, Tingyi Yang, Jenny Y. Zhou, Esther J. Cooke, Bettina Wanko, Merissa Olmer, Ruchi Agashe, Yosuke Morodomi, Niels Behrendt, Martin Lotz, John Morser, Annette von Drygalski, Laurent O. Mosnier
Tine Wyseure, Tingyi Yang, Jenny Y. Zhou, Esther J. Cooke, Bettina Wanko, Merissa Olmer, Ruchi Agashe, Yosuke Morodomi, Niels Behrendt, Martin Lotz, John Morser, Annette von Drygalski, Laurent O. Mosnier
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Research Article Angiogenesis Hematology

TAFI deficiency causes maladaptive vascular remodeling after hemophilic joint bleeding

Abstract

Excessive vascular remodeling is characteristic of hemophilic arthropathy (HA) and may contribute to joint bleeding and the progression of HA. Mechanisms for pathological vascular remodeling after hemophilic joint bleeding are unknown. In hemophilia, activation of thrombin-activatable fibrinolysis inhibitor (TAFI) is impaired, which contributes to joint bleeding and may also underlie the aberrant vascular remodeling. Here, hemophilia A (factor VIII–deficient; FVIII-deficient) mice or TAFI-deficient mice with transient (antibody-induced) hemophilia A were used to determine the role of FVIII and TAFI in vascular remodeling after joint bleeding. Excessive vascular remodeling and vessel enlargement persisted in FVIII-deficient and TAFI-deficient mice, but not in transient hemophilia WT mice, after similar joint bleeding. TAFI-overexpression in FVIII-deficient mice prevented abnormal vessel enlargement and vascular leakage. Age-related vascular changes were observed with FVIII or TAFI deficiency and correlated positively with bleeding severity after injury, supporting increased vascularity as a major contributor to joint bleeding. Antibody-mediated inhibition of uPA also prevented abnormal vascular remodeling, suggesting that TAFI’s protective effects include inhibition of uPA-mediated plasminogen activation. In conclusion, the functional TAFI deficiency in hemophilia drives maladaptive vascular remodeling in the joints after bleeding. These mechanistic insights allow targeted development of potentially new strategies to normalize vascularity and control rebleeding in HA.

Authors

Tine Wyseure, Tingyi Yang, Jenny Y. Zhou, Esther J. Cooke, Bettina Wanko, Merissa Olmer, Ruchi Agashe, Yosuke Morodomi, Niels Behrendt, Martin Lotz, John Morser, Annette von Drygalski, Laurent O. Mosnier

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Figure 9

Overexpression of a stabilized TAFI variant normalizes vascular dysfunction in hemophilic mice after joint injury.

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Overexpression of a stabilized TAFI variant normalizes vascular dysfunct...
(A) Experimental schematic. Asterisk indicates time of joint injury in FVIII-KO mice at time point day 0 (D0). Hematocrit (Hct) was determined at D2 after injury to assess joint bleeding severity. Mice were randomized based on their Hct and received either saline or TAFI-CIIYQ–encoding plasmid by hydrodynamic gene delivery. At week 2 (W2) after injury, vascular permeability, total vessel count, and large vessel count were determined. (B) Hct at baseline (BL) and D2 after injury of FVIII-KO treated with saline or TAFI-CIIYQ (n = 7–10). Joint bleeding was inferred from a postinjury drop in Hct compared with BL. (C) In vivo expression levels (% of normal human plasma [NHP] TAFI level) of circulating TAFI-CIIYQ 2 days after hydrodynamic gene delivery (n = 6) versus saline injection (n = 3). (D) Vascular permeability (fold increase versus contralateral) in the joints of FVIII-KO mice at BL (n = 8) or W2 after injury treated with saline (n = 8) or TAFI-CIIYQ (n = 5). (E and F) Total CD31+ vessel count (E) and large CD31+ vessel count (with diameter ≥ 20 μm) (F) in medial knee joint sections per high-power field (HPF) averaged (n = 4–5 HPF) per mouse joint at BL or W2 after injury treated with saline or TAFI-CIIYQ (n = 4–6 mice). (G) Representative images of medial joint sections (examples from 2 mice, #1 and #2) of soft tissue at the anterior meniscus (M) from FVIII-KO mice W2 after injury stained for CD31 (red), αSMA (green), and nuclei (Hoechst, blue) treated with saline (top) and TAFI-CIIYQ (bottom). Open arrowheads indicate CD31+ vessels with a diameter ≥ 20 μm. Original magnification 20×. Scale bar: 100 μm. Data are represented as mean ± SD and were analyzed using 1-way ANOVA with Tukey’s multiple comparisons test (B and DF). **P < 0.01; ***P < 0.001; ****P < 0.0001.