AI Article Synopsis
- Researchers found that the beta-chemokine ESkine/CCL27 has two forms: a secreted version (ESkine) and a nuclear-targeted version (PESKY) that lacks a signal peptide.
- * The study identified that PESKY's movement into the nucleus depends on specific C-terminal residues, which are also present in ESkine, suggesting both can enter the nucleus through a similar mechanism.
- * Overexpression of PESKY in cells led to significant changes in the actin cytoskeleton and increased cell migration, indicating a possible new role for these chemokines in cellular movement and structure.*
Article Abstract
We have previously shown that the beta-chemokine ESkine/CCL27 is differentially spliced to produce two alternative forms. One is a secreted chemokine (ESkine), whereas the other (PESKY) lacks a signal peptide and is translocated to the nucleus. The role of this nuclear-targeted chemokine has not so far been defined, and it was the purpose of this study to examine this chemokine variant in more depth. To identify the region of PESKY involved in the nuclear translocation we tagged fragments with enhanced green fluorescent protein and expressed them in Chinese hamster ovary cells. We show PESKY nuclear translocation to be dependent on C-terminal residues that are shared with the signal peptide-bearing variant ESkine. Indeed we further demonstrate that ESkine can also use these C-terminal residues to enter the nucleus of cells following receptor (CCR10)-mediated internalization. To examine biological roles for PESKY we have overexpressed it in 3T3 cells. Such overexpression results in marked cytoskeletal rearrangements that are coincident with a radical reorganization of the cellular actin cytoskeleton. Microarray analyses and Ab neutralization studies indicate that these changes are mediated in part by insulin-like growth factor-1. Furthermore, monolayer wounding assays indicate that PESKY expression correlates with markedly increased migratory capacity. Thus, it is our contention that nuclear PESKY and ESkine both enter the nucleus by either intracrine or paracrine mechanisms and may facilitate cellular migration by inducing actin cytoskeletal relaxation. Therefore, nuclear ESkine/PESKY represents a novel paradigm for chemokine function.
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| http://dx.doi.org/10.4049/jimmunol.169.3.1387 | DOI Listing |
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