Clathrin promotes incorporation of cargo into coated pits by activation of the AP2 adaptor μ2 kinase

Jackson, Antony P.; Flett, Alexander; Smythe, Carl; Hufton, Lindsay; Wettey, Frank R.; Smythe, Elizabeth

doi:10.1083/jcb.200304079

Cited by 63 publications

(64 citation statements)

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“…A conformational switch between the active and the inactive forms of the kinase may explain these results, as the inactive kinase may not enable interaction with other endocytic adaptors (28) and consequent stabilization of monoubiquitinated Notch. Clathrin binding is known to stimulate AAK1 kinase activity and promote cargo recruitment into coated pits (28,29). AAK1 also exhibits multiple binding sites for accessory endocytic components such as AP2 and EH-containing proteins (21,22) and thus acts as a scaffolding hub for the recruitment of several endocytic partners.…”

Section: Discussionmentioning

confidence: 99%

“…AAK1, via phosphorylation of Thr-156 of the 2 subunit, increases the affinity of AP2 for membranes and induces a conformational change enabling cargo recruitment by this adaptor (26,27). Clathrin assembly stimulates AAK1 activity thus suggesting a role in clathrin-mediated cargo uptake (28,29). Besides its function at the internalization step, AAK1 was recently shown to act at the level of early/sorting endosome and to colocalize with EEA1 (30).…”

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confidence: 99%

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The Adaptor-associated Kinase 1, AAK1, Is a Positive Regulator of the Notch Pathway

Gupta-Rossi

Ortica

Meas-Yedid

et al. 2011

Journal of Biological Chemistry

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The Notch pathway is involved in cell-cell signaling during development and adulthood from invertebrates to higher eukaryotes. Activation of the Notch receptor by its ligands relies upon a multi-step processing. The extracellular part of the receptor is removed by a metalloprotease of the ADAM family and the remaining fragment is cleaved within its transmembrane domain by a presenilin-dependent ␥-secretase activity. ␥-Secretase processing of Notch has been shown to depend upon monoubiquitination as well as clathrin-mediated endocytosis (CME). We show here that AAK1, the adaptor-associated kinase 1, directly interacts with the membrane-tethered active form of Notch released by metalloprotease cleavage. Active AAK1 acts upstream of the ␥-secretase cleavage by stabilizing both the membrane-tethered activated form of Notch and its monoubiquitinated counterpart. We propose that AAK1 acts as an adaptor for Notch interaction with components of the clathrin-mediated pathway such as Eps15b. Moreover, transfected AAK1 increases the localization of activated Notch to Rab5-positive endocytic vesicles, while AAK1 depletion or overexpression of Numb, an inhibitor of the pathway, interferes with this localization. These results suggest that after ligand-induced activation of Notch, the membrane-tethered form can be directed to different endocytic pathways leading to distinct fates.The Notch gene encodes a receptor, matured by furin, and present at the cell surface as an heterodimer (1, 2). Notch activation is induced upon ligand binding and leads to its extracellular cleavage by TNF-␣-converting enzyme (TACE) 2 (3, 4), followed by a second cleavage within the transmembrane domain by a ␥-secretase complex. The released intracellular domain of Notch translocates to the nucleus and induces transcription of target genes together with the CSL and Mastermind cofactors. Ligand-induced activation of Notch is strictly regulated at several levels, both at the extracellular and the intracellular levels (5-7).An increasing number of data reveals that the activity of both Notch receptor and its ligands is regulated by internalization as well as ubiquitination events (8,9). A large repertoire of Notch pathway regulators has been identified, mainly in invertebrates, and conflicting data have emerged regarding Notch activity and trafficking (5). On one hand, endocytosis appears important for Notch activation in the signal-receiving cell (10 -13) while other studies point to an inhibitory effect (14 -18). Our data suggest that, in mammalian cells, both monoubiquitination and endocytosis are required before ␥-secretase cleavage of ligandactivated Notch (10).As the Notch pathway is conserved throughout evolution, we scanned the literature for genetic modulators of the pathway in invertebrates to further understand the intracellular events that control Notch activation. Loss of worm sel-5 (SEL for suppressor/enhancer of Lin12) results in suppression of the constitutive activity of lin-12(d) (equivalent to the metalloprotease-cleaved Notch or ⌬E c...

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Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

The Adaptor-associated Kinase 1, AAK1, Is a Positive Regulator of the Notch Pathway

Gupta-Rossi

Ortica

Meas-Yedid

et al. 2011

Journal of Biological Chemistry

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“…In either of these models, the exact role of clathrin is not clear. Clathrin could either function as a scaffolding protein that restricts Hrs and, thereby, ubiquitylated 2002), serve as a mechanical barrier to inhibit membrane fusion (Sun et al, 2003), act as an allosteric regulator of Hrs or other proteins involved in the sorting process (Jackson et al, 2003), or mediate budding of vesicles from vacuolar endosomes (although such buds have not been detected by electron microscopy). It thus seems pertinent to design experiments that can address the function of clathrin on vacuolar endosomes.…”

Section: Introductionmentioning

confidence: 99%

Flat clathrin coats on endosomes mediate degradative protein sorting by scaffolding Hrs in dynamic microdomains

Raiborg

Wesche

Malerød

et al. 2006

Journal of Cell Science

137

118

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Endocytosed membrane proteins that are destined for degradation in lysosomes are ubiquitylated and recognised by sorting complexes on endosome membranes. The ubiquitin-binding sorting component Hrs as well as ubiquitylated cargo are enriched in a characteristic flat clathrin coat on the endosome membrane. The function of clathrin within this coat has not been investigated. Here, we show that both clathrin and the clathrin-box motif of Hrs are required for the clustering of Hrs into restricted microdomains. The C-terminus of Hrs, which contains the clathrin-box, is sufficient to redirect a phosphatidylinositol(3)-phosphate-binding protein into the Hrs- and clathrin-containing microdomains. Although these microdomains show little lateral diffusion in the membrane, they are dynamic structures that exchange Hrs and clathrin with similar kinetics, and acquire the downstream sorting component Tsg101. The clathrin-mediated clustering is essential for the function of Hrs in degradative protein sorting. We conclude that clathrin is responsible for concentrating Hrs in endosomal microdomains specialised for recognition of ubiquitylated membrane proteins, thus enabling efficient sorting of cargo into the degradative pathway.

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“…Thus, 2 phosphorylation likely results in a conformational change that exposes the Yxx⌽ binding site and promotes AP-2 recruitment to receptors. Interestingly, AAK1 kinase activity toward 2 is dramatically stimulated by assembled clathrin (Conner et al, 2003;Jackson et al, 2003), suggesting that AAK1 is specifically activated in clathrin-coated pits to enhance cargo uptake.The Ark1/Prk1 family is characterized by a high degree of identity within the amino terminal kinase domain of member proteins (Cope et al, 1999). However, little similarity outside the kinase domain exists between family members, arguing that they may have overlapping and divergent functions.…”

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A Novel AAK1 Splice Variant Functions at Multiple Steps of the Endocytic Pathway

Henderson

Conner

2007

MBoC

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Phosphorylation is a critical step in regulating receptor transport through the endocytic pathway. AAK1 is a serine/ threonine kinase that is thought to coordinate the recruitment of AP-2 to receptors containing tyrosine-based internalization motifs by phosphorylating the 2 subunit. Here we have identified a long form of AAK1 (AAK1L) that contains an extended C-terminus that encodes an additional clathrin-binding domain (CBD2) consisting of multiple low-affinity interaction motifs. Protein interaction studies demonstrate that AAK1L CBD2 directly binds clathrin. However, in vitro kinase assays reveal little difference between AAK1 isoforms in their basal or clathrin-stimulated kinase activity toward the AP-2 2 subunit. However, overexpression of AAK1L CBD2 impairs transferrin endocytosis, confirming an endocytic role for AAK1. Surprisingly, CBD2 overexpression or AAK1 depletion by RNA interference significantly impairs transferrin recycling from the early/sorting endosome. These observations suggest that AAK1 functions at multiple steps of the endosomal pathway by regulating transferrin internalization and its rapid recycling back to the plasma membrane from early/sorting endosome. INTRODUCTIONThe adaptor-associated kinase 1 (AAK1) is a member of the Ark1/Prk1 family of serine/threonine kinases that are thought to regulate endocytosis by phosphorylating various endocytic accessory components (Smythe and Ayscough, 2003). AAK1 was originally identified as an interacting partner of the ␣-adaptin subunit of AP-2 and phosphorylates the 2 subunit . The 2 subunit directly binds tyrosine-based (Yxx⌽) internalization motifs found on the cytoplasmic tail of some receptors and mediates cargo recruitment to clathrin-coated vesicles (Ohno et al., 1995). Phosphorylation is thought to be a key regulatory step in cargo recognition as AAK1-mediated 2 phosphorylation increases the affinity of AP-2 for Yxx⌽ internalization motif-containing receptors (Ricotta et al., 2002). Although recent observations demonstrate that 2 phosphorylation is not obligatory for receptor uptake, it is critical for maximizing internalization efficiency (Motley et al., 2006;Olusanya et al., 2001). The resolved crystal structure of the AP-2 "core" has provided an attractive explanation for the molecular basis of the increased receptor affinity of AP-2 after phosphorylation-the Yxx⌽ binding site within 2 is buried within the AP-2 core when not phosphorylated (Collins et al., 2002). Thus, 2 phosphorylation likely results in a conformational change that exposes the Yxx⌽ binding site and promotes AP-2 recruitment to receptors. Interestingly, AAK1 kinase activity toward 2 is dramatically stimulated by assembled clathrin (Conner et al., 2003;Jackson et al., 2003), suggesting that AAK1 is specifically activated in clathrin-coated pits to enhance cargo uptake.The Ark1/Prk1 family is characterized by a high degree of identity within the amino terminal kinase domain of member proteins (Cope et al., 1999). However, little similarity outside the kinase domain exists b...

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Clathrin promotes incorporation of cargo into coated pits by activation of the AP2 adaptor μ2 kinase

Cited by 63 publications

References 31 publications

The Adaptor-associated Kinase 1, AAK1, Is a Positive Regulator of the Notch Pathway

The Adaptor-associated Kinase 1, AAK1, Is a Positive Regulator of the Notch Pathway

Flat clathrin coats on endosomes mediate degradative protein sorting by scaffolding Hrs in dynamic microdomains

A Novel AAK1 Splice Variant Functions at Multiple Steps of the Endocytic Pathway

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