Browsing by Author "García-Caballero, Agustín"
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- ItemOpen AccessThe Cavβ subunit prevents RFP2-mediated ubiquitination and proteasomal degradation of L-type channels(Nature, 2011-02) Altier, Christophe; You, Haitao; Chen, Lina; Walcher, Jan; Hermosilla, Tamara; García-Caballero, Agustín; Simms, Brent A.; Tedford, H. William; Zamponi, Gerald W.It is well established that the auxiliary Cavβ subunit regulates calcium channel density in the plasma membrane, but the cellular mechanism by which this occurs has remained unclear. We found that the Cavβ subunit increased membrane expression of Cav1.2 channels by preventing the entry of the channels into the endoplasmic reticulum-associated protein degradation (ERAD) complex. Without Cavβ, Cav1.2 channels underwent robust ubiquitination by the RFP2 ubiquitin ligase and interacted with the ERAD complex proteins derlin-1 and p97, culminating in targeting of the channels to the proteasome for degradation. On treatment with the proteasomal inhibitor MG132, Cavβ-free channels were rescued from degradation and trafficked to the plasma membrane. The coexpression of Cavβ interfered with ubiquitination and targeting of the channel to the ERAD complex, thereby facilitating export from the endoplasmic reticulum and promoting expression on the cell surface. Thus, Cavββ regulates the ubiquitination and stability of the calcium channel complex.
- ItemOpen AccessA cell-permeant peptide corresponding to the cUBP domain of USP5 reverses inflammatory and neuropathic pain(Sage Publishing, 2016-01-01) García-Caballero, Agustín; Gadotti, Vinícius Maria; Chen, Lina; Zamponi, Gerald W.Cav3.2 T-type calcium currents in primary afferents are enhanced in various painful pathological conditions, whereas inhibiting Cav3.2 activity or expression offers a strategy for combating the development of pain hypersensitivity. We have shown that Cav3.2 channel surface density is strongly regulated by the ubiquitination machinery and we identified the deubiquitinase USP5 as a Cav3.2 channel interacting protein and regulator of its cell surface expression. We also reported that USP5 is upregulated in chronic pain conditions. Conversely, preventing its binding to the channel in vivo mediates analgesia in inflammatory and neuropathic pain models.