Irene Estadella scite author profile

Fortunately, Kv1.3 is characterized by a very selective and potent pharmacology that has been demonstrated to ameliorate autoimmune and metabolic symptoms in disease-animal models without major side effects. Moreover, Kv1.3 blockers are showing positive results in preclinical trials. Considering this evidence, the implication of Kv1.3 in a wide repertoire of human pathologies indicates this channel is an important therapeutic target.

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Kv1.3: a multifunctional channel with many pathological implications

Serrano-Albarrás

Estadella

Cirera-Rocosa

et al. 2017

Expert Opinion on Therapeutic Targets

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Endocytosis: A Turnover Mechanism Controlling Ion Channel Function

Estadella

Pedrós-Gámez

Colomer-Molera

et al. 2020

Cells

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Ion channels (IChs) are transmembrane proteins that selectively drive ions across membranes. The function of IChs partially relies on their abundance and proper location in the cell, fine-tuned by the delicate balance between secretory, endocytic, and degradative pathways. The disruption of this balance is associated with several diseases, such as Liddle’s and long QT syndromes. Because of the vital role of these proteins in human health and disease, knowledge of ICh turnover is essential. Clathrin-dependent and -independent mechanisms have been the primary mechanisms identified with ICh endocytosis and degradation. Several molecular determinants recognized by the cellular internalization machinery have been discovered. Moreover, specific conditions can trigger the endocytosis of many IChs, such as the activation of certain receptors, hypokalemia, and some drugs. Ligand-dependent receptor activation primarily results in the posttranslational modification of IChs and the recruitment of important mediators, such as β-arrestins and ubiquitin ligases. However, endocytosis is not a final fate. Once internalized into endosomes, IChs are either sorted to lysosomes for degradation or recycled back to the plasma membrane. Rab proteins are crucial participants during these turnover steps. In this review, we describe the major ICh endocytic pathways, the signaling inputs triggering ICh internalization, and the key mediators of this essential cellular process.

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Fighting rheumatoid arthritis: Kv1.3 as a therapeutic target

Serrano-Albarrás

Cirera-Rocosa

Sastre

et al. 2019

Biochemical Pharmacology

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S-acylation-dependent membrane microdomain localization of the regulatory Kvβ2.1 subunit

Roig

Cassinelli

Navarro-Pérez

et al. 2022

Cell. Mol. Life Sci.

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The voltage-dependent potassium (Kv) channel Kvβ family was the first identified group of modulators of Kv channels. Kvβ regulation of the α-subunits, in addition to their aldoketoreductase activity, has been under extensive study. However, scarce information about their specific α-subunit-independent biology is available. The expression of Kvβs is ubiquitous and, similar to Kv channels, is tightly regulated in leukocytes. Although Kvβ subunits exhibit cytosolic distribution, spatial localization, in close contact with plasma membrane Kv channels, is crucial for a proper immune response. Therefore, Kvβ2.1 is located near cell surface Kv1.3 channels within the immunological synapse during lymphocyte activation. The objective of this study was to analyze the structural elements that participate in the cellular distribution of Kvβs. It was demonstrated that Kvβ peptides, in addition to the cytoplasmic pattern, targeted the cell surface in the absence of Kv channels. Furthermore, Kvβ2.1, but not Kvβ1.1, targeted lipid raft microdomains in an S-acylation-dependent manner, which was concomitant with peptide localization within the immunological synapse. A pair of C-terminal cysteines (C301/C311) was mostly responsible for the specific palmitoylation of Kvβ2.1. Several insults altered Kvβ2.1 membrane localization. Therefore, growth factor-dependent proliferation enhanced surface targeting, whereas PKC activation impaired lipid raft expression. However, PSD95 stabilized Kvβ2.1 in these domains. This data shed light on the molecular mechanism by which Kvβ2.1 clusters into immunological synapses during leukocyte activation.

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Irene Estadella

The voltage-gated potassium channel Kv1.3 is a promising multitherapeutic target against human pathologies

Kv1.3: a multifunctional channel with many pathological implications

Endocytosis: A Turnover Mechanism Controlling Ion Channel Function

Fighting rheumatoid arthritis: Kv1.3 as a therapeutic target

S-acylation-dependent membrane microdomain localization of the regulatory Kvβ2.1 subunit

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