Nonhematopoietic Nrf2 dominantly impedes adult progression of sickle cell anemia in mice
Samit Ghosh, Chibueze A. Ihunnah, Rimi Hazra, Aisha L. Walker, Jason M. Hansen, David R. Archer, Amma T. Owusu-Ansah, Solomon F. Ofori-Acquah
Samit Ghosh, Chibueze A. Ihunnah, Rimi Hazra, Aisha L. Walker, Jason M. Hansen, David R. Archer, Amma T. Owusu-Ansah, Solomon F. Ofori-Acquah
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Research Article Hematology Vascular biology

Nonhematopoietic Nrf2 dominantly impedes adult progression of sickle cell anemia in mice

Abstract

The prevention of organ damage and early death in young adults is a major clinical concern in sickle cell disease (SCD). However, mechanisms that control adult progression of SCD during the transition from adolescence are poorly defined with no cognate prophylaxis. Here, we demonstrate in a longitudinal cohort of homozygous SCD (SS) mice a link between intravascular hemolysis, vascular inflammation, lung injury, and early death. Prophylactic Nrf2 activation in young SS mice stabilized intravascular hemolysis, reversed vascular inflammation, and attenuated lung edema in adulthood. Enhanced Nrf2 activation in endothelial cells in vitro concurred with the dramatic effect on vascular inflammation in the mice. BM chimeric SS mice lacking Nrf2 expression in nonhematopoietic tissues were created to dissect the role of nonerythroid Nrf2 in SCD progression. The SS chimeras developed severe intravascular hemolysis despite having erythroid Nrf2. In addition, they developed premature vascular inflammation and pulmonary edema and died younger than donor littermates with intact nonhematopoietic Nrf2. Our results reveal a dominant protective role for nonhematopoietic Nrf2 against tissue damage in both erythroid and nonerythroid tissues in SCD. Furthermore, we show that prophylactic augmentation of Nrf2-coordinated cytoprotection effectively impedes onset of the severe adult phenotype of SCD in mice.

Authors

Samit Ghosh, Chibueze A. Ihunnah, Rimi Hazra, Aisha L. Walker, Jason M. Hansen, David R. Archer, Amma T. Owusu-Ansah, Solomon F. Ofori-Acquah

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Figure 4

Nrf2 activation reverses endothelial inflammation and impedes lung damage in sickle mice.

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Nrf2 activation reverses endothelial inflammation and impedes lung damag...
(A and B) Oral gavage with D3T reduced the plasma concentration of sVCAM while treatment with DMSO did not change the progressive increase in this endothelial injury marker (n = 7–8). (C) Protein concentration of sVE-cadehrin in plasma determined by ELISA. Data shows progressive increase with aging in the vehicle, which is halted by D3T. (D) Assessment of lung edema by wet/dry weight ratio indicate D3T treatment attenuated vascular leakage in the lungs of SS mice (n = 7–8). (E) Representative H&E staining of lung tissue sections of SS mice treated with D3T or vehicle (n = 3–4) for 5 months. Images were acquired at original magnification of ×40 (labeled ×4) and then at an original higher magnification of ×100 (labeled ×10) in the highlighted region. (F) Cumulative histological injury score derived from edema, congestion, and alveolar wall thickness from H&E-stained lung sections (n = 3–4) *P < 0.05 and ***P < 0.001 (paired t test while comparing “pre” and “3mo” within vehicle or D3T group; unpaired t test while comparing vehicle versus D3T group). Nrf2, nuclear factor erythroid-2- related factor 2; D3T, 3H-1, 2-dithiole-3-thione; sVCAM, soluble vascular cell adhesion molecule; sVE-cadherin, soluble vascular endothelial cadherin; SS, transgenic sickle; “pre”, prior to treatment; “3mo”, after 3 months of treatment.