Published in Mol Cell Proteomics on July 20, 2007
Claudins and the modulation of tight junction permeability. Physiol Rev (2013) 2.05
Targeting of tetraspanin proteins--potential benefits and strategies. Nat Rev Drug Discov (2008) 1.91
Claudin association with CD81 defines hepatitis C virus entry. J Biol Chem (2010) 1.67
CD151 accelerates breast cancer by regulating alpha 6 integrin function, signaling, and molecular organization. Cancer Res (2008) 1.64
CD81 and claudin 1 coreceptor association: role in hepatitis C virus entry. J Virol (2008) 1.62
Correlation of the tight junction-like distribution of Claudin-1 to the cellular tropism of hepatitis C virus. J Biol Chem (2008) 1.49
Polarization restricts hepatitis C virus entry into HepG2 hepatoma cells. J Virol (2009) 1.44
Hepatitis C virus host cell entry. Curr Opin Virol (2012) 1.41
Laminin-binding integrins and their tetraspanin partners as potential antimetastatic targets. Expert Rev Mol Med (2010) 1.30
Regulation and roles for claudin-family tight junction proteins. IUBMB Life (2009) 1.26
DHHC2 affects palmitoylation, stability, and functions of tetraspanins CD9 and CD151. Mol Biol Cell (2008) 1.19
Tight junctions in the testis: new perspectives. Philos Trans R Soc Lond B Biol Sci (2010) 1.16
Tetraspanin proteins regulate membrane type-1 matrix metalloproteinase-dependent pericellular proteolysis. Mol Biol Cell (2009) 1.09
Claudin interactions in and out of the tight junction. Tissue Barriers (2013) 1.08
Species-specific regions of occludin required by hepatitis C virus for cell entry. J Virol (2010) 1.07
Claudins: control of barrier function and regulation in response to oxidant stress. Antioxid Redox Signal (2011) 1.00
Fungi have three tetraspanin families with distinct functions. BMC Genomics (2008) 0.99
Differential pathways of claudin oligomerization and integration into tight junctions. Tissue Barriers (2013) 0.99
The second extracellular loop dictates Occludin-mediated HCV entry. Virology (2010) 0.92
CD151-α3β1 integrin complexes suppress ovarian tumor growth by repressing slug-mediated EMT and canonical Wnt signaling. Oncotarget (2014) 0.90
In silico directed mutagenesis identifies the CD81/claudin-1 hepatitis C virus receptor interface. Cell Microbiol (2012) 0.85
Cysteine residues in the large extracellular loop (EC2) are essential for the function of the stress-regulated glycoprotein M6a. J Biol Chem (2009) 0.83
Claudin 1 in Breast Cancer: New Insights. J Clin Med (2015) 0.82
EWI-2 negatively regulates TGF-β signaling leading to altered melanoma growth and metastasis. Cell Res (2015) 0.81
Identification and characterization of six novel tetraspanins from Schistosoma japonicum. Parasit Vectors (2011) 0.80
Substrate-attached materials are enriched with tetraspanins and are analogous to the structures associated with rear-end retraction in migrating cells. Cell Adh Migr (2013) 0.80
The importance of claudin-7 palmitoylation on membrane subdomain localization and metastasis-promoting activities. Cell Commun Signal (2015) 0.80
Novel CD9-targeted therapies in gastric cancer. World J Gastroenterol (2015) 0.79
Systems Proteomics View of the Endogenous Human Claudin Protein Family. J Proteome Res (2016) 0.79
Production, purification and characterization of recombinant, full-length human claudin-1. PLoS One (2013) 0.78
Molecular cloning, sequence characterization and expression analysis of a CD63 homologue from the coleopteran beetle, Tenebrio molitor. Int J Mol Sci (2013) 0.76
Novel impact of EWI-2, CD9, and CD81 on TGF-β signaling in melanoma. Mol Cell Oncol (2015) 0.75
Claudins in viral infection: from entry to spread. Pflugers Arch (2016) 0.75
Changes in organelle position and epithelial architecture associated with loss of CrebA. Biol Open (2015) 0.75
Deficiency in Sperm-Egg Protein Interaction as a Major Cause of Fertilization Failure. J Membr Biol (2017) 0.75
Functional domains in tetraspanin proteins. Trends Biochem Sci (2003) 2.71
Transcriptional profiling of stroma from inflamed and resting lymph nodes defines immunological hallmarks. Nat Immunol (2012) 2.17
Palmitoylation supports assembly and function of integrin-tetraspanin complexes. J Cell Biol (2004) 1.89
Palmitoylation of tetraspanin proteins: modulation of CD151 lateral interactions, subcellular distribution, and integrin-dependent cell morphology. Mol Biol Cell (2002) 1.69
CD151 accelerates breast cancer by regulating alpha 6 integrin function, signaling, and molecular organization. Cancer Res (2008) 1.64
Tetraspanin CD151 regulates alpha6beta1 integrin adhesion strengthening. Proc Natl Acad Sci U S A (2003) 1.63
Links between CD147 function, glycosylation, and caveolin-1. Mol Biol Cell (2004) 1.62
Function of the tetraspanin CD151-alpha6beta1 integrin complex during cellular morphogenesis. Mol Biol Cell (2002) 1.61
An extracellular site on tetraspanin CD151 determines alpha 3 and alpha 6 integrin-dependent cellular morphology. J Cell Biol (2002) 1.61
Tetraspanin CD151 protects against pulmonary fibrosis by maintaining epithelial integrity. Am J Respir Crit Care Med (2012) 1.55
Deletion of tetraspanin Cd151 results in decreased pathologic angiogenesis in vivo and in vitro. Blood (2006) 1.53
EWI-2 and EWI-F link the tetraspanin web to the actin cytoskeleton through their direct association with ezrin-radixin-moesin proteins. J Biol Chem (2006) 1.50
Tetraspanin proteins promote multiple cancer stages. Nat Rev Cancer (2014) 1.47
Dynamic regulation of a GPCR-tetraspanin-G protein complex on intact cells: central role of CD81 in facilitating GPR56-Galpha q/11 association. Mol Biol Cell (2004) 1.36
Evidence for specific tetraspanin homodimers: inhibition of palmitoylation makes cysteine residues available for cross-linking. Biochem J (2004) 1.36
Overexpression of fatty acid synthase is associated with palmitoylation of Wnt1 and cytoplasmic stabilization of beta-catenin in prostate cancer. Lab Invest (2008) 1.30
Tetraspanin12 regulates ADAM10-dependent cleavage of amyloid precursor protein. FASEB J (2009) 1.28
Caveolin-1 regulates matrix metalloproteinases-1 induction and CD147/EMMPRIN cell surface clustering. J Biol Chem (2004) 1.25
EWI-2 regulates alpha3beta1 integrin-dependent cell functions on laminin-5. J Cell Biol (2003) 1.22
DHHC2 affects palmitoylation, stability, and functions of tetraspanins CD9 and CD151. Mol Biol Cell (2008) 1.19
Structural organization and interactions of transmembrane domains in tetraspanin proteins. BMC Struct Biol (2005) 1.19
Metabolic activation-related CD147-CD98 complex. Mol Cell Proteomics (2005) 1.18
Disruption of laminin-integrin-CD151-focal adhesion kinase axis sensitizes breast cancer cells to ErbB2 antagonists. Cancer Res (2010) 1.17
Tetraspanin protein contributions to cancer. Biochem Soc Trans (2011) 1.12
Contrasting effects of EWI proteins, integrins, and protein palmitoylation on cell surface CD9 organization. J Biol Chem (2006) 1.11
Tetraspanin proteins regulate membrane type-1 matrix metalloproteinase-dependent pericellular proteolysis. Mol Biol Cell (2009) 1.09
EWI-2 modulates lymphocyte integrin alpha4beta1 functions. Blood (2003) 1.04
Integrin-associated CD151 drives ErbB2-evoked mammary tumor onset and metastasis. Neoplasia (2012) 0.99
In vitro interaction between hepatitis C virus (HCV) envelope glycoprotein E2 and serum lipoproteins (LPs) results in enhanced cellular binding of both HCV E2 and LPs. J Infect Dis (2006) 0.98
The deubiquitinase USP28 stabilizes LSD1 and confers stem-cell-like traits to breast cancer cells. Cell Rep (2013) 0.97
CD151 restricts the α6 integrin diffusion mode. J Cell Sci (2012) 0.95
Diminished metastasis in tetraspanin CD151-knockout mice. Blood (2011) 0.92
Glioblastoma inhibition by cell surface immunoglobulin protein EWI-2, in vitro and in vivo. Neoplasia (2009) 0.90
Palmitoylation by DHHC3 is critical for the function, expression, and stability of integrin α6β4. Cell Mol Life Sci (2012) 0.88
Tetraspanin TSPAN12 regulates tumor growth and metastasis and inhibits β-catenin degradation. Cell Mol Life Sci (2013) 0.86
The C-terminal tail of tetraspanin protein CD9 contributes to its function and molecular organization. J Cell Sci (2011) 0.81
CD151 represses mammary gland development by maintaining the niches of progenitor cells. Cell Cycle (2014) 0.78