Interactions of SARS-CoV-2 protein E with cell junctions and polarity PDZ-containing proteins

AbstractThe C-terminus of the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) protein E contains a PBM (PDZ binding motif) targeting PDZ (PSD-95/Dlg/ZO-1) domains identical to the PBM of SARS-CoV. The latter is involved in the pathogenicity of the virus. Recently, we identified ten human PDZ-containing proteins showing significant interactions with SARS-CoV-2 protein E PBM. We selected several of them involved in cellular junctions and cell polarity (TJP1, PARD3, MLLT4, LNX2) and MPP5/Pals1 previously shown to interact with SARS-CoV E PBM. Targeting cellular junctions and polarity components is a common strategy by viruses to hijack cell machinery to their advantage. In this study, we showed that these host PDZ domains TJP1, PARD3, MLLT4, LNX2 and MPP5/PALS1 interact in a PBM-dependent manner in vitro and colocalize with the full-length E protein in cellulo, sequestrating the PDZ domains to the Golgi compartment. We solved three crystal structures of complexes between human LNX2, MLLT4 and MPP5 PDZs and SARS-CoV-2 E PBM highlighting its binding preferences for several cellular targets. Finally, we showed different affinities for the PDZ domains with the original SARS-CoV-2 C-terminal sequence containing the PBM and the one of the beta variant that contains a mutation close to the PBM. The acquired mutations in E protein localized near the PBM might have important effects both on the structure and the ion-channel activity of the E protein and on the host machinery targeted by the variants during the infection.

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Plasmodium vivaxMerozoite Surface Protein 1 Paralog as a Mediator of Parasite Adherence to Reticulocytes

Infection and Immunity ◽

10.1128/iai.00239-18 ◽

2018 ◽

Vol 86 (9) ◽

Cited By ~ 6

Author(s):

Jin-Hee Han ◽

Jee-Sun Cho ◽

Yang Cheng ◽

Fauzi Muh ◽

Won Gi Yoo ◽

...

Keyword(s):

Surface Protein ◽

Merozoite Surface Protein ◽

Binding Activity ◽

Binding Motif ◽

Dependent Manner ◽

Human Beings ◽

Content Type ◽

C Terminus ◽

Significant Difference

ABSTRACTPlasmodium vivaxparasites preferentially invade reticulocytes in human beings.P. vivaxmerozoite surface protein 1 (PvMSP1) and PvMSP1 paralog (PvMSP1P) may have important functions in reticulocyte adherence during invasion. These proteins share similar structures, including the presence of two epidermal growth factor (EGF)-like and glycosylphosphatidylinositol (GPI)-anchored domains at the C terminus. However, there have been no reports concerning the functional activity of PvMSP1P in reticulocyte adherence duringP. vivaxinvasion. In this study, the ability of PvMSP1P-19 to bind to reticulocytes and normocytes was analyzed. The reticulocyte binding activity of PvMSP1P-19 was 4.0-fold higher than its normocyte binding activity. The binding of PvMSP1P-19 to reticulocytes and normocytes was inhibited in a dose-dependent manner by antibodies from immunized rabbits and by antibodies from vivax parasite-infected patients. Consistently, antibodies against PvMSP1P inhibited parasite invasion during short-termin vitrocultivation. Similar to the case for PvDBPII binding activity, PvMSP1P-19 binding activity was reduced in chymotrypsin-treated reticulocytes. However, no significant difference between the binding of PvMSP1P-19 to Duffy-positive and Duffy-negative erythrocytes was found. The minimal binding motif of PvMSP1P-19 was characterized using synthetic peptides. The results showed that the residues at amino acid positions 1791 to 1808 may have an important function in mediating merozoite adherence to reticulocytes. The positively charged residues within the EGF-like domain were shown to constitute a key binding motif. This work presents strong evidence supporting the role of PvMSP1P in host target cell selection and invasion of Duffy-independent pathway inP. vivax. Moreover, PvMSP1P-19-specific antibodies may confer protection againstP. vivaxreinvasion.

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A Class III PDZ Binding Motif in the Myotilin and FATZ Families Binds Enigma Family Proteins: a Common Link for Z-Disc Myopathies

Molecular and Cellular Biology ◽

10.1128/mcb.01454-08 ◽

2008 ◽

Vol 29 (3) ◽

pp. 822-834 ◽

Cited By ~ 59

Author(s):

Pernilla von Nandelstadh ◽

Mohamed Ismail ◽

Chiara Gardin ◽

Heli Suila ◽

Ivano Zara ◽

...

Keyword(s):

Family Members ◽

In Vivo Studies ◽

Binding Motif ◽

High Homology ◽

Class Iii ◽

Pdz Domains ◽

Muscle Disorders ◽

C Terminus

ABSTRACT Interactions between Z-disc proteins regulate muscle functions and disruption of these interactions results in muscle disorders. Mutations in Z-disc components myotilin, ZASP/Cypher, and FATZ-2 (calsarcin-1/myozenin-2) are associated with myopathies. We report here that the myotilin and the FATZ (calsarcin/myozenin) families share high homology at their final C-terminal five amino acids. This C-terminal E[ST][DE][DE]L motif is present almost exclusively in these families and is evolutionary conserved. We show by in vitro and in vivo studies that proteins from the myotilin and FATZ (calsarcin/myozenin) families interact via this novel type of class III PDZ binding motif with the PDZ domains of ZASP/Cypher and other Enigma family members: ALP, CLP-36, and RIL. We show that the interactions can be modulated by phosphorylation. Calmodulin-dependent kinase II phosphorylates the C terminus of FATZ-3 (calsarcin-3/myozenin-3) and myotilin, whereas PKA phosphorylates that of FATZ-1 (calsarcin-2/myozenin-1) and FATZ-2 (calsarcin-1/myozenin-1). This is the first report of a binding motif common to both the myotilin and the FATZ (calsarcin/myozenin) families that is specific for interactions with Enigma family members.

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Extracellular Signal-Regulated Kinase Binds to TFII-I and Regulates Its Activation of the c-fosPromoter

Molecular and Cellular Biology ◽

10.1128/mcb.20.4.1140-1148.2000 ◽

2000 ◽

Vol 20 (4) ◽

pp. 1140-1148 ◽

Cited By ~ 37

Author(s):

Dae-Won Kim ◽

Brent H. Cochran

Keyword(s):

Map Kinase ◽

Transcriptional Activation ◽

Dominant Negative ◽

Binding Motif ◽

Dependent Manner ◽

Consensus Map ◽

Interaction Domain ◽

Extracellular Signal

ABSTRACT We have previously shown that TFII-I enhances transcriptional activation of the c-fos promoter through interactions with upstream elements in a signal-dependent manner. Here we demonstrate that activated Ras and RhoA synergize with TFII-I for c-fospromoter activation, whereas dominant-negative Ras and RhoA inhibit these effects of TFII-I. The Mek1 inhibitor, PD98059 abrogates the enhancement of the c-fos promoter by TFII-I, indicating that TFII-I function is dependent on an active mitogen-activated protein (MAP) kinase pathway. Analysis of the TFII-I protein sequence revealed that TFII-I contains a consensus MAP kinase interaction domain (D box). Consistent with this, we have found that TFII-I forms an in vivo complex with extracellular signal-related kinase (ERK). Point mutations within the consensus MAP kinase binding motif of TFII-I inhibit its ability to bind ERK and its ability to enhance the c-fos promoter. Therefore, the D box of TFII-I is required for its activity on the c-fos promoter. Moreover, the interaction between TFII-I and ERK can be regulated. Serum stimulation enhances complex formation between TFII-I and ERK, and dominant-negative Ras abrogates this interaction. In addition, TFII-I can be phosphorylated in vitro by ERK and mutation of consensus MAP kinase substrate sites at serines 627 and 633 impairs the phosphorylation of TFII-I by ERK and its activity on the c-fos promoter. These results suggest that ERK regulates the activity of TFII-I by direct phosphorylation.

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Arachidonic acid promotes the binding of 5-lipoxygenase on nanodiscs containing 5-lipoxygenase activating protein in the absence of calcium-ions

10.1101/2020.01.22.915090 ◽

2020 ◽

Author(s):

Ramakrishnan B. Kumar ◽

Pasi Purhonen ◽

Hans Hebert ◽

Caroline Jegerschöld

Keyword(s):

Arachidonic Acid ◽

Complex Formation ◽

Calcium Ions ◽

Dependent Manner ◽

Present Communication ◽

Nuclear Membranes ◽

His Tag ◽

C Terminus ◽

Transmission Electron

AbstractAmong the first steps in inflammation is the conversion of arachidonic acid (AA) stored in the cell membranes into leukotrienes. This occurs mainly in leukocytes and depends on the interaction of two proteins: 5-lipoxygenase (5LO), stored away from the nuclear membranes until use and 5-lipoxygenase activating protein (FLAP), a transmembrane, homotrimeric protein, constitutively present in nuclear membrane. We could earlier visualize the binding of 5LO to nanodiscs in the presence of Ca2+-ions by the use of transmission electron microscopy (TEM) on samples negatively stained by sodium phosphotungstate. In the absence of Ca2+-ions 5LO did not bind to the membrane. In the present communication, FLAP reconstituted in the nanodiscs which could be purified if the His-tag was located on the FLAP C-terminus but not the N-terminus. Our aim was to find out if 1) 5LO would bind in a Ca2+-dependent manner also when FLAP is present? 2) Would the substrate (AA) have effects on 5LO binding to FLAP-nanodiscs? TEM was used to assess the complex formation between 5LO and FLAP-nanodiscs along with, sucrose gradient purification, gel-electrophoresis and mass spectroscopy. It was found that presence of AA by itself induces complex formation in the absence of added calcium. This finding corroborates that AA is necessary for the complex formation and that a Ca2+-flush is mainly needed for the recruitment of 5LO to the membrane. Our results also showed that the addition of Ca2+-ions promoted binding of 5LO on the FLAP-nanodiscs as was also the case for nanodiscs without FLAP incorporated. In the absence of added substances no 5LO-FLAP complex was formed. Another finding is that the formation of a 5LO-FLAP complex appears to induce fragmentation of 5LO in vitro.

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A mechanism of Rap1-induced stabilization of endothelial cell–cell junctions

Molecular Biology of the Cell ◽

10.1091/mbc.e11-02-0157 ◽

2011 ◽

Vol 22 (14) ◽

pp. 2509-2519 ◽

Cited By ~ 44

Author(s):

Jian J. Liu ◽

Rebecca A. Stockton ◽

Alexandre R. Gingras ◽

Ararat J. Ablooglu ◽

Jaewon Han ◽

...

Keyword(s):

Endothelial Cell ◽

Small Gtpases ◽

Cell Junctions ◽

Physical Interaction ◽

Dependent Manner ◽

Cardiovascular Development ◽

Cavernous Malformations ◽

Cell Cell

Activation of Rap1 small GTPases stabilizes cell–cell junctions, and this activity requires Krev Interaction Trapped gene 1 (KRIT1). Loss of KRIT1 disrupts cardiovascular development and causes autosomal dominant familial cerebral cavernous malformations. Here we report that native KRIT1 protein binds the effector loop of Rap1A but not H-Ras in a GTP-dependent manner, establishing that it is an authentic Rap1-specific effector. By modeling the KRIT1–Rap1 interface we designed a well-folded KRIT1 mutant that exhibited a ∼40-fold-reduced affinity for Rap1A and maintained other KRIT1-binding functions. Direct binding of KRIT1 to Rap1 stabilized endothelial cell–cell junctions in vitro and was required for cardiovascular development in vivo. Mechanistically, Rap1 binding released KRIT1 from microtubules, enabling it to locate to cell–cell junctions, where it suppressed Rho kinase signaling and stabilized the junctions. These studies establish that the direct physical interaction of Rap1 with KRIT1 enables the translocation of microtubule-sequestered KRIT1 to junctions, thereby supporting junctional integrity and cardiovascular development.

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Copper Induces Cytoplasmic Retention of Fission Yeast Transcription Factor Cuf1

Eukaryotic Cell ◽

10.1128/ec.5.2.277-292.2006 ◽

2006 ◽

Vol 5 (2) ◽

pp. 277-292 ◽

Cited By ~ 27

Author(s):

Jude Beaudoin ◽

Simon Labbé

Keyword(s):

Gene Expression ◽

Transcription Factor ◽

Nuclear Localization ◽

Copper Transport ◽

Nuclear Localization Sequence ◽

Binding Motif ◽

Physical Interaction ◽

Dependent Manner ◽

C Terminus ◽

N Terminus

ABSTRACT Copper homeostasis within the cell is established and preserved by different mechanisms. Changes in gene expression constitute a way of maintaining this homeostasis. In Schizosaccharomyces pombe, the Cuf1 transcription factor is critical for the activation of copper transport gene expression under conditions of copper starvation. However, in the presence of elevated intracellular levels of copper, the mechanism of Cuf1 inactivation to turn off gene expression remains unclear. In this study, we provide evidence that inactivation of copper transport gene expression by Cuf1 is achieved through a copper-dependent, cytosolic retention of Cuf1. We identify a minimal nuclear localization sequence (NLS) between amino acids 11 to 53 within the Cuf1 N terminus. Deletion of this region and specific mutation of the Lys13, Arg16, Arg19, Lys24, Arg28, Lys45, Arg47, Arg50, and Arg53 residues to alanine within this putative NLS is sufficient to abrogate nuclear targeting of Cuf1. Under conditions of copper starvation, Cuf1 resides in the nucleus. However, in the presence of excess copper as well as silver ions, Cuf1 is sequestered in the cytoplasm, a process which requires the putative copper binding motif, 328Cys-X-Cys-X3-Cys-X-Cys-X2-Cys-X2-His342 (designated C-rich), within the C-terminal region of Cuf1. Deletion of this region and mutation of the Cys residues within the C-rich motif result in constitutive nuclear localization of Cuf1. By coexpressing the Cuf1 N terminus with its C terminus in trans and by using a two-hybrid assay, we show that these domains physically interact with each other in a copper-dependent manner. We propose a model wherein copper induces conformational changes in Cuf1 that promote a physical interaction between the Cuf1 N terminus and the C-rich motif in the C terminus that masks the NLS. Cuf1 is thereby sequestered in the cytosol under conditions of copper excess, thereby extinguishing copper transport gene expression.

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PDZRN3/LNX3 Is a Novel Target of Human Papillomavirus Type 16 (HPV-16) and HPV-18 E6

Journal of Virology ◽

10.1128/jvi.01743-14 ◽

2014 ◽

Vol 89 (2) ◽

pp. 1439-1444 ◽

Cited By ~ 13

Author(s):

Miranda Thomas ◽

Lawrence Banks

Keyword(s):

Human Papillomavirus ◽

Binding Motif ◽

Dependent Manner ◽

Hpv 16 ◽

Cellular Targets ◽

Ubiquitin Protein Ligase ◽

Human Papillomavirus Type 16 ◽

Hpv E6 ◽

Novel Target ◽

Hpv 18

High-risk human papillomavirus (HPV) E6 proteins have a C-terminal PDZ binding motif through which they bind, and target for proteasome-mediated degradation, a number of PDZ-containing cellular targets. Recent studies have suggested that the RING-containing ubiquitin-protein ligase PDZRN3 might also be an HPV E6 target. In this analysis, we show that HPV-16 and HPV-18 E6 can target PDZRN3 in a PDZ- and proteasome-dependent manner and provide a connection between the HPV life cycle and differentiation-related STAT signaling.

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Steady-State Nuclear Localization of Exportin-t Involves RanGTP Binding and Two Distinct Nuclear Pore Complex Interaction Domains

Molecular and Cellular Biology ◽

10.1128/mcb.22.16.5708-5720.2002 ◽

2002 ◽

Vol 22 (16) ◽

pp. 5708-5720 ◽

Cited By ~ 25

Author(s):

Scott Kuersten ◽

Gert-Jan Arts ◽

Tobias C. Walther ◽

Ludwig Englmeier ◽

Iain W. Mattaj

Keyword(s):

Steady State ◽

Nuclear Export ◽

Nuclear Pore ◽

Nuclear Pore Complexes ◽

Dependent Manner ◽

C Terminus ◽

Transport Cycle ◽

Interaction Domains ◽

Pore Complexes

ABSTRACT Vertebrate tRNA export receptor exportin-t (Xpo-t) binds to RanGTP and mature tRNAs cooperatively to form a nuclear export complex. Xpo-t shuttles bidirectionally through nuclear pore complexes (NPCs) but is mainly nuclear at steady state. The steady-state distribution of Xpo-t is shown to depend on its interaction with RanGTP. Two distinct Xpo-t NPC interaction domains that bind differentially to peripherally localized nucleoporins in vitro are identified. The N terminus binds to both Nup153 and RanBP2/Nup358 in a RanGTP-dependent manner, while the C terminus binds to CAN/Nup214 independently of Ran. We propose that these interactions increase the concentration of tRNA export complexes and of empty Xpo-t in the vicinity of NPCs and thus increase the efficiency of the Xpo-t transport cycle.

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Interaction of the Antiactivator FleN with the Transcriptional Activator FleQ Regulates Flagellar Number inPseudomonas aeruginosa

Journal of Bacteriology ◽

10.1128/jb.183.22.6636-6644.2001 ◽

2001 ◽

Vol 183 (22) ◽

pp. 6636-6644 ◽

Cited By ~ 82

Author(s):

Nandini Dasgupta ◽

Reuben Ramphal

Keyword(s):

Binding Protein ◽

Direct Interaction ◽

Transcriptional Activator ◽

Binding Motif ◽

Yeast Two Hybrid System ◽

Gtp Binding ◽

C Terminus ◽

Enhancer Binding Protein ◽

Two Hybrid

ABSTRACT Flagellar number in Pseudomonas aeruginosa is controlled by FleN, a putative ATP/GTP binding protein. Disruption offleN results in multiflagellation of the otherwise monoflagellate strains PAK and PAO1 and is associated with a chemotactic defect. We propose that flagellar number is maintained by the antiactivator FleN, which downregulates flagellar genes by binding to their transcriptional activator, FleQ, an enhancer binding protein belonging to the NifA subfamily. In this report we demonstrate direct interaction of FleN and FleQ in the yeast two-hybrid system. Mutagenesis of the putative ATP/GTP binding motif in FleN24K→Q and truncation of FleN at either the N or C terminus abrogates this interaction. FleN does not inhibit the DNA binding ability of FleQ in vitro, thus indicating that it probably utilizes another mechanism(s) to serve as a FleQ antiactivator.

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Di-Leucine Signals Mediate Targeting of Tyrosinase and Synaptotagmin to Synaptic-like Microvesicles within PC12 Cells

Molecular Biology of the Cell ◽

10.1091/mbc.10.11.3979 ◽

1999 ◽

Vol 10 (11) ◽

pp. 3979-3990 ◽

Cited By ~ 53

Author(s):

Anastasiya D. Blagoveshchenskaya ◽

Eric W. Hewitt ◽

Daniel F. Cutler

Keyword(s):

Plasma Membrane ◽

Pc12 Cells ◽

Brefeldin A ◽

Adaptor Protein ◽

Dependent Manner ◽

Protein Traffic ◽

C Terminus ◽

Targeting Signal

One pathway in forming synaptic-like microvesicles (SLMV) involves direct budding from the plasma membrane, requires adaptor protein 2 (AP2) and is brefeldin A (BFA) resistant. A second route leads from the plasma membrane to an endosomal intermediate from which SLMV bud in a BFA-sensitive, AP3-dependent manner. Because AP3 has been shown to bind to a di-leucine targeting signal in vitro, we have investigated whether this major class of targeting signals is capable of directing protein traffic to SLMV in vivo. We have found that a di-leucine signal within the cytoplasmic tail of human tyrosinase is responsible for the majority of the targeting of HRP-tyrosinase chimeras to SLMV in PC12 cells. Furthermore, we have discovered that a Met-Leu di-hydrophobic motif within the extreme C terminus of synaptotagmin I supports 20% of the SLMV targeting of a CD4-synaptotagmin chimera. All of the traffic to the SLMV mediated by either di-Leu or Met-Leu is BFA sensitive, strongly suggesting a role for AP3 and possibly for an endosomal intermediate in this process. The differential reduction in SLMV targeting for HRP-tyrosinase and CD4-synaptotagmin chimeras by di-alanine substitutions or BFA treatment implies that different proteins use the two routes to the SLMV to differing extents.

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