José Mario Ortega-Olvera scite author profile

Zonula occludens-2 (ZO-2) is a tight junction (TJ) cytoplasmic protein, whose localization varies according to cell density and Ca2+ in the media. In cells cultured in low calcium (LC), ZO-2 displays a diffuse cytoplasmic distribution, but activation of the Ca2+ sensing receptor (CaSR) with Gd3+ triggers the appearance of ZO-2 at the cell borders. CaSR downstream signaling involves activation of protein kinase C, which phosphorylates and activates with no lysine kinase-4 that phosphorylates ZO-2 inducing its concentration at TJs. In LC, ZO-2 is protected from degradation by association to 14-3-3 proteins. When monolayers are transferred to normal calcium, the complexes ZO-2/14-3-3ζ and ZO-2/14-3-3σ move to the cell borders and dissociate. The 14-3-3 proteins are then degraded in proteosomes, whereas ZO-2 integrates to TJs. From the plasma membrane residual ZO-2 is endocyted and degradaded in lysosomes. The unique region 2 of ZO-2, and S261 located within a nuclear localization signal, are critical for the interaction with 14-3-3 ζ and σ and for the efficient nuclear importation of ZO-2. These results explain the molecular mechanism through which extracellular Ca2+ triggers the appearance of ZO-2 at TJs in epithelial cells and reveal the novel interaction between ZO-2 and 14-3-3 proteins, which is critical for ZO-2 protection and intracellular traffic.

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The organophosphate pesticide methamidophos opens the blood-testis barrier and covalently binds to ZO-2 in mice

Ortega-Olvera

Winkler

Quintanilla‐Vega

et al. 2018

Toxicology and Applied Pharmacology

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Methyl parathion causes genetic damage in sperm and disrupts the permeability of the blood-testis barrier by an oxidant mechanism in mice

et al. 2020

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Strategies that Target Tight Junctions for Enhanced Drug Delivery

González‐Mariscal

Posadas²,

Miranda³

et al. 2016

CPD

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Ions and molecules move across epithelial barriers by two pathways, the transcellular and the paracellular. The former is taken by lipophilic compounds, or by ions and molecules that move across the plasma membrane through pumps, carriers or exchangers. The second route is regulated by the tight junction (TJ) that through paracellular channels, allows the transport of ions across epithelial barriers. Since, a wide variety of bioactive molecules like peptides, proteins and oligonucleotides cannot use the transcellular route, due to their hydrophilic nature, interest has arisen in devising procedures to open the TJ in a reversible manner for paracellular drug delivery. Here, we describe how different strategies have been devised to enhance the paracellular intestinal absorption of drugs; to open the blood-brain barrier (BBB) to allow the penetration of drugs for the treatment of disorders and tumors of the central nervous system; or to deliver antigens into the subjacent mucosa associated lymphoid tissues, for the development of mucosal vaccines. The strategies described, include the use of peptides, antibodies and miRNAs that target proteins of the apical junctional complex, as well as toxins derived from microorganisms that open the TJ by inducing the contraction of the cortical actomyosin ring. Also, we describe how paracellular absorption, is enhanced by drugs that extract cholesterol from the plasma membrane, surfactants, fatty acids, oligosaccharides, cationic polymers, nitric oxide donors and calcium chelators. Likewise, we explain how the BBB has been opened by employing tumor necrosis factor-α, bradykinin, short chain alkylglycerols, hyperosmotic mannitol and focused ultrasound.

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