Alan G. Wildeman scite author profile

The recruitment of the small GTPase Arf6 and ARNO from cytosol to endosomal membranes is driven by V-ATPase-dependent intra-endosomal acidification. The molecular mechanism that mediates this pH-sensitive recruitment and its role are unknown. Here, we demonstrate that Arf6 interacts with the c-subunit, and ARNO with the a2-isoform of V-ATPase. The a2-isoform is targeted to early endosomes, interacts with ARNO in an intra-endosomal acidification-dependent manner, and disruption of this interaction results in reversible inhibition of endocytosis. Inhibition of endosomal acidification abrogates protein trafficking between early and late endosomal compartments. These data demonstrate the crucial role of early endosomal acidification and V-ATPase/ARNO/Arf6 interactions in the regulation of the endocytic degradative pathway. They also indicate that V-ATPase could modulate membrane trafficking by recruiting and interacting with ARNO and Arf6; characteristics that are consistent with the role of V-ATPase as an essential component of the endosomal pH-sensing machinery.

show abstract

Multiple sequence motifs are involved in SV40 enhancer function.

Zenke¹,

Grundström²,

Matthes³

et al. 1986

The EMBO Journal

493

322

View full text Add to dashboard Cite

A systematic mutagenesis of the SV40 enhancer indicates that it spans -100 bp and is composed of at least two distinct DNA domains which exhibit very little enhancing activity on their own. Their association results in a 400-fold enhancement of transcription, virtually irrespective of their relative orientation and, to some extent, of the distance between them. Enhancer activity can also be generated by duplication of either domain. We show also that the activity of each domain is due to the presence of several specific sequence motifs. These motifs are found assorted in different combinations in other viral and cellular enhancers. Key words: transcription/site-directed mutagenesis/promoter/ RNA polymerase B(ll)/simian virus 40 1983;Lusky et al., 1983;Hearing and Shenk, 1983;Veldman et al., 1985). However, such enhancer consensus sequences occur in DNA segments without enhancer properties, and enhancer activity can be generated by duplicating DNA sequences without enhancer activity on their own (Weber et al., 1984;Swimmer and Shenk, 1984), thus questioning the real functional significance of these consensus sequences.Therefore, we decided to determine, at the nucleotide level, the DNA sequences essential for the activity of the prototype SV40 enhancer. Systematic deletions and point mutations have been constructed throughout the enhancer region and their effect on SV40 early transcription investigated in vivo, using a transient expression assay in HeLa cells. We show here that the SV40 enhancer encompasses a large DNA segment of -100 nucleotides containing the 72-bp sequence, but also extending further upstream. Furthermore, the present study reveals that the enhancer is composed of at least two distinct DNA domains which exhibit very little enhancing activity on their own. However, their association results in a dramatic 400-fold enhancement of transcription, virtually irrespective of their relative orientation and, to some extent, of the distance between them. Enhancer activity can also be generated by duplication of either domain. In addition, we show that the activity of each domain is due to the presence of several specific sequence motifs. Various assortments of these motifs are found in other viral and cellular enhancers, suggesting that enhancers are mosaics of a limited number of basic evolutionary related sequence motifs.

show abstract

Dynamic life and death interactions between Mycobacterium smegmatis and J774 macrophages

et al. 2006

View full text Add to dashboard Cite

SummaryAfter internalization into macrophages non-pathogenic mycobacteria are killed within phagosomes. Pathogenic mycobacteria can block phagosome maturation and grow inside phagosomes but under some conditions can also be killed by macrophages. Killing mechanisms are poorly understood, although phagolysosome fusion and nitric oxide (NO) production are implicated. We initiated a systematic analysis addressing how macrophages kill 'non-pathogenic' Mycobacterium smegmatis . This system was dynamic, involving periods of initial killing, then bacterial multiplication, followed by two additional killing stages. NO synthesis represented the earliest killing factor but its synthesis stopped during the first killing period. Phagosome actin assembly and fusion with late endocytic organelles coincided with the first and last killing phase, while recycling of phagosome content and membrane coincided with bacterial growth. Phagosome acidification and acquisition of the vacuolar (V) ATPase followed a different pattern coincident with later killing phases. Moreover, V-ATPase localized to vesicles distinct from classical late endosomes and lysosomes. Map kinase p38 is a crucial regulator of all processes investigated, except NO synthesis, that facilitated the host for some functions while being usurped by live bacteria for others. A mathematical model argues that periodic high and low cellular killing activity is more effective than is a continuous process.

show abstract

A trans-acting factor is responsible for the simian virus 40 enhancer activity in vitro

Sassone–Corsi

Wildeman

Chambon

1985

Nature

197

125

View full text Add to dashboard Cite

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Alan G. Wildeman

V-ATPase interacts with ARNO and Arf6 in early endosomes and regulates the protein degradative pathway

Multiple sequence motifs are involved in SV40 enhancer function.

Dynamic life and death interactions between Mycobacterium smegmatis and J774 macrophages

A trans-acting factor is responsible for the simian virus 40 enhancer activity in vitro

Contact Info

Product

Resources

About