Cyclin-dependent kinase 5 activates guanine nucleotide exchange factor GIV/Girdin to orchestrate migration–proliferation dichotomy

Bhandari, Deepali; López-Sánchez, Inmaculada; To, Andrew; Lo, I-Chung; Aznar, Nicolas; Leyme, Anthony; Gupta, Vijay; Niesman, Ingrid R.; Maddox, Adam L.; Garcia‐Marcos, Mikel; Farquhar, Marilyn G.; Ghosh, Pradipta

doi:10.1073/pnas.1514157112

Cited by 54 publications

(93 citation statements)

References 49 publications

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“…Although the published work led us to conclude that a main function of GIV is to orchestrate the migration-proliferation dichotomy by enhancing cell migration and inhibiting mitosis (9,11,12) and that GIV must dually couple to both Gαi and Gαs to orchestrate such dichotomy, several questions remained unanswered. For example, what determines GIV's preference for one or the other G protein, and how does dual coupling to Gαi and Gαs impact signals downstream of both G proteins and receptor tyrosine kinases and cellular responses to growth factors?…”

Section: Significancementioning

confidence: 99%

“…Thus GIV is ubiquitously expressed (10), can be recruited to different subcellular compartments (reviewed in ref. 4), binds to both Gαi and Gαs (9)(10)(11), and affects a number of important physiologic and pathologic processes.…”

mentioning

confidence: 99%

“…5). However, selective ablation of GIV's GBA motif not only disables cells' ability to migrate in response to a stimulus but also results in an unexpected gain in phenotype, i.e., cells begin to proliferate (11)(12)(13). How GIV's GBA motif actively suppresses cell proliferation remained unclear.…”

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confidence: 99%

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GIV/Girdin activates Gαi and inhibits Gαs via the same motif

Gupta

Bhandari

Leyme

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

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We previously showed that guanine nucleotide-binding (G) protein α subunit (Gα)-interacting vesicle-associated protein (GIV), a guanine-nucleotide exchange factor (GEF), transactivates Gα activity-inhibiting polypeptide 1 (Gαi) proteins in response to growth factors, such as EGF, using a short C-terminal motif. Subsequent work demonstrated that GIV also binds Gαs and that inactive Gαs promotes maturation of endosomes and shuts down mitogenic MAPK–ERK1/2 signals from endosomes. However, the mechanism and consequences of dual coupling of GIV to two G proteins, Gαi and Gαs, remained unknown. Here we report that GIV is a bifunctional modulator of G proteins; it serves as a guanine nucleotide dissociation inhibitor (GDI) for Gαs using the same motif that allows it to serve as a GEF for Gαi. Upon EGF stimulation, GIV modulates Gαi and Gαs sequentially: first, a key phosphomodification favors the assembly of GIV–Gαi complexes and activates GIV’s GEF function; then a second phosphomodification terminates GIV’s GEF function, triggers the assembly of GIV–Gαs complexes, and activates GIV’s GDI function. By comparing WT and GIV mutants, we demonstrate that GIV inhibits Gαs activity in cells responding to EGF. Consequently, the cAMP→PKA→cAMP response element-binding protein signaling axis is inhibited, the transit time of EGF receptor through early endosomes are accelerated, mitogenic MAPK–ERK1/2 signals are rapidly terminated, and proliferation is suppressed. These insights define a paradigm in G-protein signaling in which a pleiotropically acting modulator uses the same motif both to activate and to inhibit G proteins. Our findings also illuminate how such modulation of two opposing Gα proteins integrates downstream signals and cellular responses.

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Section: Significancementioning

confidence: 99%

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confidence: 99%

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GIV/Girdin activates Gαi and inhibits Gαs via the same motif

Gupta

Bhandari

Leyme

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

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“…They showed that in the case of the prototypical GEM GIV, sequential phosphorylation of 2 Ser residues that flank the bifunctional GEF/GDI motif on GIV by 2 kinases, CDK5 35 and PKCu, 36 ensures that GIV exerts its GEF and GDI activities on Gai and Gas, respectively, in a temporally and spatially segregated manner (Fig. 2).…”

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confidence: 99%

“…Schematic showing the spatially separated GEF and GDI actions of GIV-GEM on Gai and Gas, respectively. Upon EGF stimulation, activated CDK5 kinase phosphorylates GIV on S1674 35 , thereby turning 'on' its GEF function toward Gai. Subsequently, GIV is phosphorylated also at S1689 by PKCu 36 ; this phosphoevent turns 'off' GIV's GEF function, but turns 'on' its GDI function toward Gas.…”

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confidence: 99%

The GAPs, GEFs, GDIs and…now, GEMs: New kids on the heterotrimeric G protein signaling block

2017

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The Gα‐interacting vesicle‐associated protein interacts with and promotes cell surface localization of GRP78 during endoplasmic reticulum stress

et al. 2019

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Cell surface translocation of the chaperone glucose‐regulated protein 78 kDa (GRP78) is a key event that promotes cancer cell survival during endoplasmic reticulum (ER) stress. Here, we identify Gα‐interacting vesicle‐associated protein (GIV) – an enhancer of prosurvival signaling during ER stress – as a binding partner of GRP78. We show that GIV and GRP78 interact in an ER stress‐dependent manner through their respective carboxyl terminal domains and that GIV aids in the localization of GRP78 to the plasma membrane. Kaplan–Meier analysis of disease‐free survival in cancer patients shows poor prognosis for patients with high expression of both GIV and GRP78, further suggesting a vital role for these two proteins in enhancing cancer cell viability.

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Cyclin-dependent kinase 5 activates guanine nucleotide exchange factor GIV/Girdin to orchestrate migration–proliferation dichotomy

Cited by 54 publications

References 49 publications

GIV/Girdin activates Gαi and inhibits Gαs via the same motif

GIV/Girdin activates Gαi and inhibits Gαs via the same motif

The GAPs, GEFs, GDIs and…now, GEMs: New kids on the heterotrimeric G protein signaling block

The Gα‐interacting vesicle‐associated protein interacts with and promotes cell surface localization of GRP78 during endoplasmic reticulum stress

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