Clathrin- and caveolae-independent entry of feline infectious peritonitis virus in monocytes depends on dynamin

Hamme, Evelien Van; Dewerchin, Hannah L.; Cornelissen, Els; Verhasselt, Bruno; Nauwynck, Hans

doi:10.1099/vir.0.2008/001602-0

Cited by 71 publications

(80 citation statements)

References 64 publications

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“…14 To determine whether this entry pathway has a role in the uptake of the mutants, we conducted drug inhibition studies with genistein, which blocks caveolinmediated uptake through the inhibition of protein tyrosine kinases. 19 As a positive control, we included rAAV5, a serotype capable of entering cells by both clathrin-and caveolin-mediated endocytosis. 20 Although rAAV5 transduction was inhibited by 40% in the presence of genistein, rAAV2-mediated transduction was unaffected and transduction of the capsid insertion mutants was even increased by up to 43% (D5) (Supplementary Figure 1).…”

Section: Non-hspg-binding and Hspg-binding Vectors Use Different Cellmentioning

confidence: 99%

Successful target cell transduction of capsid-engineered rAAV vectors requires clathrin-dependent endocytosis

et al. 2011

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Cell surface targeting of recombinant adeno-associated virus (rAAV) vectors is an attractive strategy to modify AAV's natural tropism. As modification of the capsid surface is likely to affect the mechanism of vector internalization and consequently the vector's intracellular fate, we investigated early steps in cell transduction of rAAV capsid insertion mutants. Mutants displaying peptides with neutral overall charge at position 587 transduced cells independently of AAV2's primary receptor heparan sulfate proteoglycan (HSPG), whereas mutants carrying positively charged insertions were capable of HSPG binding with affinities correlating with their net positive charge. Whereas rAAV2 is internalized via an HSPG-and clathrin-dependent pathway, HSPG-binding mutants used a clathrin-and caveolin-independent mechanism. Surprisingly, although this pathway was as efficient in mediating vector entry as the one used by rAAV2, successful cell transduction was hampered at a post-entry step, presumably caused by inefficient endosomal escape. In contrast, HSPG-independent, clathrin-dependent internalization used by non-HSPG-binding mutants correlated with efficient nuclear delivery of vector genomes and robust transgene expression. These findings indicate that cell surface targeting strategies should direct uptake of rAAV targeting vectors to clathrin-mediated endocytosis, the naturally evolved entry route of AAV, to promote successful intracellular processing and re-targeting of rAAV's tropism.

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Section: Non-hspg-binding and Hspg-binding Vectors Use Different Cellmentioning

confidence: 99%

Successful target cell transduction of capsid-engineered rAAV vectors requires clathrin-dependent endocytosis

et al. 2011

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“…IGFBP-3 was shown to exert extracellular functions as well as functions that are mediated by internalization of the protein via distinct endocytic pathways, which can be blocked by chemical inhibitors of endocytosis (Lee et al 2004). To evaluate whether endocytosis is required for the inhibitory actions of IGFBP-3 on cell adhesion, we preincubated prostate cancer cells with chemical compounds that inhibit clathrin-mediated (chlorpromazine and amantadine) or caveolae-mediated (nystatin, cyclodextrin, and genistein) endocytosis (Van Hamme et al 2008) or combinations inhibiting both pathways. None of these inhibitors, alone or in combination, affected reduction in cellular attachment by IGFBP-3, suggesting that internalization of IGFBP-3 is not required for its inhibitory effects on cell adhesion (Fig.…”

Section: P Massoner Et Al: Igfbp-3 and Cell Proliferation Adhesionmentioning

confidence: 99%

Novel mechanism of IGF-binding protein-3 action on prostate cancer cells: inhibition of proliferation, adhesion, and motility

Massoner¹,

Colleselli²,

Matscheski³

et al. 2009

Endocrine-Related Cancer

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IGF-binding protein-3 (IGFBP-3) is a modulator of the IGF-signaling pathway and was described as an anti-cancer agent in prostate cancer. The molecular mechanisms underlying these effects remained, however, largely undefined. We analyzed the influence of recombinant IGFBP-3 on cell proliferation of PC3, Du145, and LNCaP prostate cancer cells. As expected, IGFBP-3 inhibited IGF-stimulated cell proliferation by blocking IGF-mediated proliferation signals, but we observed an IGF-independent inhibitory effect of IGFBP-3 on prostate cancer cell proliferation in long-term cultures. We further investigated the influence of IGFBP-3 on adhesion, motility, and invasion of prostate cancer cells using adhesion assays, live-cell imaging techniques, and matrigel invasion measurements. There was a clear inhibitory effect of IGFBP-3 on tumor cell adhesion to extracellular matrix components in the presence and absence of IGF, whereas cell-cell adhesion was not affected. The same inhibitory effect of IGFBP-3 was determined on cell motility when realtime cell movements were followed. In addition, IGFBP-3 was able to inhibit tumor cell invasion through matrigel. In summary, we show that IGFBP-3 inhibits proliferation, adhesion, migration, and invasion processes of prostate tumor cells. These newly described mechanisms of IGFBP-3 can be of importance for tumor progression and support a role of IGFBP-3 in therapeutic settings.

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“…Studies on the expression of dominant-negative Eps15, which is required for the clathrin-dependent pathway, and caveolin-1, indicate that SARS-CoV and feline infectious peritonitis virus (FIPV), which causes a lethal chronic disease in cats, internalize into cells via a clathrin-and caveola-independent pathway. On the other hand, inhibition of virus infection by cholesterol depletion has demonstrated entry of these viruses into cells by raft-dependent endocytosis [83,85]. These findings indicate that raft-dependent endocytosis except clathrin-and caveola-dependent pathway is important for the virus infection.…”

Section: Role Of Membrane Rafts In Virus Entrymentioning

confidence: 67%

“…In addition to its role in entry of non enveloped the role of membrane rafts in entry of enveloped viruses has been investigated in studies using influenza virus (Orthomyxoviridae) [57][58][59][60][61], human immunodeficiency virus type 1 (HIV-1; Retroviridae) [62][63][64][65][66][67], human T lymphotropic virus 1 (HTLV-1; Retroviridae) [68,69], Ebola virus (Filoviridae) [70], Marburg virus (Filoviridae) [70,71], Epstein-Barr virus (EBV; herpesviridae) [72,73], herpes simplex virus-1 (HSV-1; herpesviridae) [74] including porcine herpesvirus-1 pseudorabies virus [75], human herpesvirus-6 (HHV-6; Herpesviridae) [76], human herpesvirus-8 (HHV-8; Herpesviridae) [77], vaccinia virus (Poxviridae) [78], coronavirus including severe acute respiratory syndrome coronavirus (SARS-CoV; Coronaviridae) [79][80][81][82][83][84][85], West Nile virus (WNV; Flaviviridae) [86], dengue virus (DEN; Flaviviridae) [87][88][89], Japanese encephalitis virus (JEV; Flaviviridae) [89], human hepatitis C virus (HCV; Flaviviridae) [90,91], Semliki Forest virus (Togaviridae) [92][93][94][95], Sindbis virus (Togaviridae) …”

Section: Role Of Membrane Rafts In Virus Entrymentioning

confidence: 99%

Role of Membrane Rafts in Viral Infection

Takahashi¹,

Suzuki²

2009

TODJ

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Membrane rafts are small (10-200 nm), heterogeneous, highly dynamic, sterol-and sphingolipid-enriched domains that compartmentalize cellular processes. Many studies have established that membrane rafts play an important role in the process of virus infection cycle and virus-associated diseases. It is well known that many viral components or virus receptors are concentrated in the lipid microdomains. Viruses are divided into four main classes, nonenveloped RNA virus, enveloped RNA virus, nonenveloped DNA virus, and enveloped DNA virus. General virus infection cycle is also classified into two sections, the early stage (entry) and the late stage (assembly and budding of virion). Caveola-dependent endocytosis has been investigated mostly by analysis of cell entry of the SV40 representative of polyomaviruses. Thus, the study of membrane rafts has been partially advanced by virological researches. Membrane rafts also act as a scaffold of many cellular signal transductions. Involvement of membrane rafts in many virus-associated diseases is often responsible for up-or down-regulation of cellular signal transductions. What is the role of membrane rafts in virus replications? Viruses do not necessarily require and probably utilize membrane rafts for more efficiency in virus entry, viral genome replication, high-infective virion production, and cellular signaling activation toward advantageous virus replication. In this review, we described the involvement of membrane rafts in the virus life cycle and virus-associated diseases.

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Clathrin- and caveolae-independent entry of feline infectious peritonitis virus in monocytes depends on dynamin

Cited by 71 publications

References 64 publications

Successful target cell transduction of capsid-engineered rAAV vectors requires clathrin-dependent endocytosis

Successful target cell transduction of capsid-engineered rAAV vectors requires clathrin-dependent endocytosis

Novel mechanism of IGF-binding protein-3 action on prostate cancer cells: inhibition of proliferation, adhesion, and motility

Role of Membrane Rafts in Viral Infection

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