Lucas Ferrer scite author profile

SUMMARY Resting mitochondrial matrix Ca2+ is maintained through a MICU1-established threshold inhibition of MCU activity. It is not known how MICU1 interacts with MCU to establish this Ca2+ threshold for mitochondrial Ca2+ uptake and MCU activity. Here, we show that MICU1 localizes to the mitochondrial matrix side of the inner mitochondrial membrane and MICU1/MCU binding is determined by a MICU1 N-terminal polybasic domain and two interacting coiled-coil domains of MCU. Further investigation reveals MICU1 forms homo-oligomers, and this oligomerization is independent of the polybasic region. However the polybasic region confers MICU1 oligomeric binding to MCU and controls mitochondrial Ca2+ current (IMCU). Moreover, MICU1 EF-hands regulate MCU channel activity but do not determine MCU binding. Loss of MICU1 promotes MCU activation leading to oxidative burden and a halt to cell migration. These studies establish a molecular mechanism for MICU1 control of MCU-mediated mitochondrial Ca2+ accumulation, and dysregulation of this mechanism likely enhances vascular dysfunction.

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Inhibition of Caspase-1 Activation in Endothelial Cells Improves Angiogenesis

Lopez-Pastraña

Ferrer

et al. 2015

Journal of Biological Chemistry

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Background:The interplay between dyslipidemia-induced inflammation and angiogenesis remains poorly understood. Results: Inhibition of caspase-1 improves VEGFR-2 signaling, tube formation, and blood perfusion in ischemic tissues. Conclusion:The suppression of caspase-1 improves angiogenesis and ischemia prognosis. Significance: Caspase-1 suppression is a novel therapeutic target for improvement of angiogenesis and ischemia under inflammatory environments.

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Caspase-1 Plays a Critical Role in Accelerating Chronic Kidney Disease-Promoted Neointimal Hyperplasia in the Carotid Artery

Ferrer

Monroy

Lopez-Pastraña

et al. 2016

J. of Cardiovasc. Trans. Res.

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To determine whether caspase-1 is critical in chronic kidney disease (CKD)-mediated arterial neointimal hyperplasia (NH), we utilized caspase−/− mice and induced NH in carotid artery in a CKD environment, and uremic sera-stimulated human vascular smooth muscle cells (VSMC). We made the following findings: (1) Caspase-1 inhibition corrected uremic sera-mediated downregulation of VSMC contractile markers, (2) CKD-promoted NH was attenuated in caspase−/− mice, (3) CKD-mediated downregulation of contractile markers was rescued in caspase null mice, and (4) expression of VSMC migration molecule αvβ3 integrin was reduced in caspase−/− tissues. Our results suggested that caspase-1 pathway senses CKD metabolic danger signals. Further, CKD-mediated increase of contractile markers in VSMC and increased expression of VSMC migration molecule αvβ3 integrin in NH formation were caspase-1 dependent. Therefore, caspase-1 is a novel therapeutic target for the suppression of CKD-promoted NH.

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“Permissive hypoventilation” in a swine model of hemorrhagic shock

Taghavi

Jayarajan

Ferrer

et al. 2014

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Lucas Ferrer

MICU1 Motifs Define Mitochondrial Calcium Uniporter Binding and Activity

Inhibition of Caspase-1 Activation in Endothelial Cells Improves Angiogenesis

Caspase-1 Plays a Critical Role in Accelerating Chronic Kidney Disease-Promoted Neointimal Hyperplasia in the Carotid Artery

“Permissive hypoventilation” in a swine model of hemorrhagic shock

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