Oxidative Folding and N-Terminal Cyclization of Onconase

Welker, Ervin; Hathaway, Laura B.; Xu, Guoqiang; Narayan, Mahesh; Pradeep, Lovy; Shin, Hang Cheol; Scheraga, Harold A.

doi:10.1021/bi602495a

Cited by 13 publications

(11 citation statements)

References 75 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…This may be spontaneous, like during the recombinant production (Boix et al, 1996; Leland et al, 1998; Natomista et al, 1999) or catalyzed by glutaminyl cyclase. Most probably the cyclization takes place in the endoplasmic reticulum during the initial stages of oxidative folding and may be co-translational mechanism (Welker et al, 2007). …”

Section: Onconase and Amphinase From Rana Pipiensmentioning

confidence: 99%

Ribonucleases as potential modalities in anticancer therapy

Ardelt

Darzynkiewicz

2009

European Journal of Pharmacology

110

View full text Add to dashboard Cite

Antitumor ribonucleases are small (10–28 kDa) basic proteins. They were found among members of both, ribonuclease A and T1 superfamilies. Their cytotoxic properties are conferred by enzymatic activity, i.e., the ability to catalyze cleavages of phosphodiester bonds in RNA. They bind to negatively charged cell membrane, enter cells by endocytosis and translocate to cytosol where they evade mammalian protein ribonuclease inhibitor and degrade RNA. Here, we discuss structures, functions and mechanisms of antitumor activity of several cytotoxic ribonucleases with particular emphasis to the amphibian Onconase, the only enzyme of this class that reached clinical trials. Onconase is the smallest, very stable, less catalytically efficient and more cytotoxic than most RNase A homologues. Its cytostatic, cytotoxic and anticancer effects were extensively studied. It targets tRNA, rRNA, mRNA as well as the non-coding RNA (microRNAs). Numerous cancer lines are sensitive to Onconase; their treatment with 10 – 100 nM enzyme leads to suppression of cell cycle progression, predominantly through G1, followed by apoptosis or cell senescence. Onconase also has anticancer properties in animal models. Many effects of this enzyme are consistent with the microRNAs, one of its critical targets. Onconase sensitizes cells to a variety of anticancer modalities and this property is of particular interest, suggesting its application as an adjunct to chemotherapy or radiotherapy in treatment of different tumors. Cytotoxic RNases as exemplified by Onconase represent a new class of antitumor agents, with an entirely different mechanism of action than the drugs currently used in the clinic. Further studies on animal models including human tumors grafted on severe combined immunodefficient (SCID) mice and clinical trials are needed to explore clinical potential of cytotoxic RNases.

show abstract

Section: Onconase and Amphinase From Rana Pipiensmentioning

confidence: 99%

Ribonucleases as potential modalities in anticancer therapy

Ardelt

Darzynkiewicz

2009

European Journal of Pharmacology

110

View full text Add to dashboard Cite

show abstract

“…Indeed, the enzymatic conversion of the N-terminal glutamine into pyroglutamic acid is known to be catalyzed by glutaminyl cyclase (QC), which has been isolated from many sources but never found in members of the Archaea (34). Thus, the N-terminal glutamine residue of OppA Ap could undergo a nonenzymatic spontaneous cyclization resulting in the formation of pyroglutamic acid, as described previously by Welker et al (34).…”

Section: Resultsmentioning

confidence: 60%

Structural and Functional Insights into Aeropyrum pernix OppA, a Member of a Novel Archaeal OppA Subfamily

et al. 2011

View full text Add to dashboard Cite

In this study we gain insight into the structural and functional characterization of the Aeropyrum pernix oligopeptide-binding protein (OppA Ap ) previously identified from the extracellular medium of an Aeropyrum pernix cell culture at late stationary phase. OppA Ap showed an N-terminal Q32 in a pyroglutamate form and C-terminal processing at the level of a threonine-rich region probably involved in protein membrane anchoring. Moreover, the OppA Ap protein released into the medium was identified as a "nicked" form composed of two tightly associated fragments detachable only under strong denaturing conditions. The cleavage site E569-G570 seems be located on an exposed surface loop that is highly conserved in several three-dimensional (3D) structures of dipeptide/oligopeptide-binding proteins from different sources. Structural and biochemical properties of the nicked protein were virtually indistinguishable from those of the intact form. Indeed, studies of the entire bacterially expressed OppA Ap protein owning the same N and C termini of the nicked form supported these findings. Moreover, in the middle exponential growth phase, OppA Ap was found as an intact cell membrane-associated protein. Interestingly, the native exoprotein OppA Ap was copurified with a hexapeptide (EKFKIV) showing both lysines methylated and possibly originating from an A. pernix endogenous stress-induced lipoprotein. Therefore, the involvement of OppA Ap in the recycling of endogenous proteins was suggested to be a potential physiological function. Finally, a new OppA from Sulfolobus solfataricus, SSO1288, was purified and preliminarily characterized, allowing the identification of a common structural/genetic organization shared by all "true" archaeal OppA proteins of the dipeptide/oligopeptide class.

show abstract

“…Except for the four Rana pipiens RNase amphinases with a unique N-terminal six-residue extension (Singh et al 2007), it is well known that all other known native mature frog ribonucleases possess pyroglutamate at the N-terminus. This uncoded residue results from the cyclization of the N-terminal glutamine residue (Gln) by deamination, which occurs spontaneously once the amino group of the N-terminal Gln is free (Welker et al 2007). In onconase and related frog RNases, the N-terminal pyroglutamic acid residue contributing three hydrogen bonds is an integral part of the active site Lee et al 2008) that is usually essential for both catalytic activity and cytotoxicity Liao et al 2003).…”

Section: Antimicrobial Activitymentioning

confidence: 99%

A Novel Cationic Ribonuclease with Antimicrobial Activity from Rana dybowskii

et al. 2011

View full text Add to dashboard Cite

A novel ribonuclease (RNase) A superfamily gene (Rdronc) has been cloned from the frog Rana dybowskii. The deduced amino acid sequence shows that it belongs to the ribonuclease A superfamily, with the highest identity, 73%, to Rana pipiens onconase. Adaptive evolution analysis based on maximum likelihood models of codon substitution has been conducted on 10 members of the Rana RNases of subcluster B. Rapid adaptive evolution and multiple positive selection sites have been detected, which indicates that these genes may be evolving under positive selection pressure. Functional assay demonstrates that the recombinant Rdronc protein possesses antimicrobial activity against Gram-negative Escherichia coli and Pseudomonas aeruginosa and weaker antimicrobial activity against Gram-positive Staphylococcus aureus and yeast Candida albicans. Our findings support the hypothesis that ribonuclease A superfamily members may function in host defense of early-diversified vertebrates.

show abstract

Oxidative Folding and N-Terminal Cyclization of Onconase

Cited by 13 publications

References 75 publications

Ribonucleases as potential modalities in anticancer therapy

Ribonucleases as potential modalities in anticancer therapy

Structural and Functional Insights into Aeropyrum pernix OppA, a Member of a Novel Archaeal OppA Subfamily

A Novel Cationic Ribonuclease with Antimicrobial Activity from Rana dybowskii

Contact Info

Product

Resources

About