Vascular smooth muscle RbFox2 regulates the cytoskeleton and arterial stiffness by a RhoBTB1/Cullin-3 mechanism
Gaurav Kumar, Nisita Chaihongsa, Daniel T. Brozoski, Daria Golosova, Ibrahim Vazirabad, Ko-Ting Lu, Kelsey K. Wackman, Ravi K. Singh, Curt D. Sigmund
Gaurav Kumar, Nisita Chaihongsa, Daniel T. Brozoski, Daria Golosova, Ibrahim Vazirabad, Ko-Ting Lu, Kelsey K. Wackman, Ravi K. Singh, Curt D. Sigmund
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Research Article Cardiology Vascular biology

Vascular smooth muscle RbFox2 regulates the cytoskeleton and arterial stiffness by a RhoBTB1/Cullin-3 mechanism

Abstract

The RhoBTB1/Cullin-3 (CUL3) pathway in smooth muscle cells (SMCs) controls the ubiquitination and proteasomal degradation of target proteins that regulate vasodilation, vasoconstriction, and the actin cytoskeleton and, through this, blood pressure (BP) and arterial stiffness. Using proximity labeling coupled with mass spectrometry in A7R5 SMCs, we identified proteins that bound to the C-terminal half of RhoBTB1, which functions as an adaptor to deliver substrates to CUL3. We examined the physiological relevance of one of these substrates, RbFox2. Coimmunoprecipitation validated the interaction of RbFox2 with RhoBTB1. RbFox2 expression was elevated in response to inhibition of the ubiquitination-proteasomal pathway, CUL3 deficiency, and RhoBTB1 inhibition by either siRNA or angiotensin II (ANG). RbFox2 was ubiquitinated in a RhoBTB1- and CUL3-dependent manner, suggesting its regulation through the RhoBTB1/CUL3-dependent ubiquitin-proteasome pathway. Inhibition of RbFox2 impaired the actin cytoskeleton in A7R5 cells and in primary SMCs from RbFox2fl/fl mice and decreased the levels of globular and filamentous actin. ANG increased BP and arterial stiffness of RbFox2fl/fl mice, but the progression of arterial stiffness was halted after SMC-specific RbFox2 deletion despite a continued rise in BP. We conclude that RhoBTB1 and RbFox2 are important regulators of arterial stiffness through a mechanism that influences cytoskeletal integrity.

Authors

Gaurav Kumar, Nisita Chaihongsa, Daniel T. Brozoski, Daria Golosova, Ibrahim Vazirabad, Ko-Ting Lu, Kelsey K. Wackman, Ravi K. Singh, Curt D. Sigmund

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Figure 4

Validation of RbFox2 as a target of the RhoBTB1/CUL3 proteasomal pathway.

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Validation of RbFox2 as a target of the RhoBTB1/CUL3 proteasomal pathway...
(A) Immunoblot demonstrating the regulation of RbFox2 by CUL3-dependent ubiquitin-proteasome pathway in A7R5 cells treated with MLN4924 alone or in combination with MG132 for 24 hours. GAPDH was a protein loading control. The experiment was performed in duplicate with independent samples and is quantified below. (B) Relative levels of RbFox2 and CUL3 in HEK293WT and HEK293CUL3KO cells. Hsp90 was used an internal control. Data are quantified below. Data represent mean ± SEM; *P < 0.05 by 2-tailed t test; N = 6 each. (C) Relative levels of RbFox2 and RhoBTB1 in A7R5 cells transfected with scrambled control (SC CON) and siRNA targeting RhoBTB1 (siRhoBTB1) for 72 hours. UT, untransfected cells. Hsp90 was used as an internal control for protein loading. Data are quantified below and represent mean ± SEM; *P < 0.05 by 2-tailed t test; N = 4 for control scrambled siRNA; N = 6 for RhoBTB1 siRNA. Immunoblots were probed with indicated antisera. Molecular weight markers were transferred from the original blots.