Abstract
The G protein-coupled inwardly-rectifying potassium channels (known as GIRK or Kir3) form functional heterotetramers gated by G-βγ subunits. GIRK channels participate in heart rate modulation and neuronal postsynaptic inhibition in mammals. In Xenopus laevis oocytes, GIRK5 is a functional homomultimer. Previously, we found that phosphorylation of a tyrosine (Y16) at its N-terminus downregulates the surface expression of GIRK5. In this work, we elucidated the subcellular localization and trafficking of GIRK5 in oocytes. Several EGFP-GIRK5 chimeras were produced and an ECFP construct was used to identify the endoplasmic reticulum (ER). Whereas GIRK5-WT was retained in the ER at the animal pole, the phospho-null GIRK5-Y16A was localized to the vegetal pole. Interestingly, a construct with an N-terminal Δ25 deletion produced an even distribution of the channel in the whole oocyte. Through an alanine-scan, we identified an acidic cluster/di-leucine sorting-signal recognition motif between E17 and I22. We quantified the effect of each amino acid residue within this di-leucine motif in determining the distribution of GIRK5 to the animal and vegetal poles. We found that Y16 and I22 contributed to functional expression and were dominant in the polarization of GIRK5. We thus conclude that the N-terminal acidic di-leucine motif of GIRK5 determines its retention and polarized trafficking within Xl oocytes.
Highlights
Xenopus laevis (Xl) oocytes are the best characterized model for maturation and fertilization
In order to determine the localization of GIRK5 in Xl oocytes, we initially used confocal microscopy to follow two constructs: an endoplasmic reticulum (ER)-enhanced cyan fluorescent protein marker (ECFP-ER) and enhanced green fluorescent protein (EGFP)-GIRK5
The EGFP-GIRK5 construct was localized in the perinuclear space and the ER within the animal pole, but it was detected in the nucleus (Figs. 2B and 3B)
Summary
Xenopus laevis (Xl) oocytes are the best characterized model for maturation and fertilization. Four members of this family, known as GIRK1-4 or Kir3.1-3.4, have been identified in mammals These channels are either homotetramers (GIRK2) or heterotetramers of GIRK1 that are activated by G-bc subunits. They are present in non-excitable cells such as platelets [8], lung cancer [9] and breast cancer [10,11]. Another member of this family is GIRK5, an endogenous Gprotein activated potassium channel present only in Xl oocytes [12]. In contrast to its mammalian homologues, GIRK5 contains a long Nterminus (Fig. 1)
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