DNA-Free Recombinant SV40 Capsids Protect Mice from Acute Renal Failure by Inducing Stress Response, Survival Pathway and Apoptotic Arrest

Veronika Butin-Israeli,Ariella Oppenheim,Mahmoud Abd-El-Latif,Yosef S Haviv,Galina Pizov,Arieh Eden,Dotan Uzi,Rory Edward Morty

doi:10.1371/journal.pone.0002998

Veronika Butin-Israeli, Ariella Oppenheim + Show 6 more

Open Access

https://doi.org/10.1371/journal.pone.0002998

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Journal: PloS one	Publication Date: Aug 20, 2008
Citations: 25	License type: CC BY 4.0

Affiliation: Hadassah, Carmel Medical Center

Abstract

Viruses induce signaling and host defense during infection. Employing these natural trigger mechanisms to combat organ or tissue failure is hampered by harmful effects of most viruses. Here we demonstrate that SV40 empty capsids (Virus Like Particles-VLPs), with no DNA, induce host Hsp/c70 and Akt-1 survival pathways, key players in cellular survival mechanisms. We postulated that this signaling might protect against organ damage in vivo. Acute kidney injury (AKI) was chosen as target. AKI is critical, prevalent disorder in humans, caused by nephrotoxic agents, sepsis or ischemia, via apoptosis/necrosis of renal tubular cells, with high morbidity and mortality. Systemic administration of VLPs activated Akt-1 and upregulated Hsp/c70 in vivo. Experiments in mercury-induced AKI mouse model demonstrated that apoptosis, oxidative stress and toxic renal failure were significantly attenuated by pretreatment with capsids prior to the mercury insult. Survival rate increased from 12% to >60%, with wide dose response. This study demonstrates that SV40 VLPs, devoid of DNA, may potentially be used as prophylactic agent for AKI. We anticipate that these finding may be projected to a wide range of organ failure, using empty capsids of SV40 as well as other viruses.

Highlights

Simian virus 40 (SV40) is a non-enveloped primate virus, with a small, double-stranded, circular DNA genome of 5.2 kb
We have found that SV40 activates Akt-1 survival pathway and the Hsp/c70 chaperones via PLC-c signaling, very early post infection
Lamin B was used as loading control, since we found its level to be stable following SV40 or VLP-infection

Summary

Introduction

Simian virus 40 (SV40) is a non-enveloped primate virus, with a small, double-stranded, circular DNA genome of 5.2 kb. SV40 infects dividing and non-dividing cells and does not depend on host cell cycle [1] This is in contrast to many other viruses that infect only dividing cells and enter the nucleus during mitosis when the nuclear envelope is disassembled. This suggests that SV40 activates signaling pathways that permit nuclear entry of the viral genome. SV40 enters host cells by an atypical, slow endocytic process mediated by caveolae [2,3] via the endoplasmic reticulum [4] This is unlike most viruses, that utilize clathrin-coated and non-coated vesicles for endocytosis [5]. Because SV40 has a natural affinity to the kidney, we chose renal failure as a first target for testing the hypothesis

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