Effect of Different Adjuvants on the Longevity and Strength of Humoral and Cellular Immune Responses to the HCV Envelope Glycoproteins

Overview

Journal Vaccines (Basel)

Date 2019 Dec 11

PMID 31816920

Citations 20

Authors

Bassel Akache

Lise Deschatelets

Blair A Harrison

Renu Dudani

Felicity C Stark

Yimei Jia

Amir Landi

John L M Law

Michael Logan

Darren Hockman

Juthika Kundu

D Lorne Tyrrell

Lakshmi Krishnan

Michael Houghton

Michael J McCluskie

Affiliations

Soon will be listed here.

Abstract

Infection by Hepatitis C virus (HCV) can lead to liver cirrhosis/hepatocellular carcinoma and remains a major cause of serious disease morbidity and mortality worldwide. However, current treatment regimens remain inaccessible to most patients, particularly in developing countries, and, therefore, the development of a novel vaccine capable of protecting subjects from chronic infection by HCV could greatly reduce the rates of HCV infection, subsequent liver pathogenesis, and in some cases death. Herein, we evaluated two different semi-synthetic archaeosome formulations as an adjuvant to the E1/E2 HCV envelope protein in a murine model and compared antigen-specific humoral (levels of anti-E1/E2 IgG and HCV pseudoparticle neutralization) and cellular responses (numbers of antigen-specific cytokine-producing T cells) to those generated with adjuvant formulations composed of mimetics of commercial adjuvants including a squalene oil-in-water emulsion, aluminum hydroxide/monophosphoryl lipid A (MPLA) and liposome/MPLA/QS-21. In addition, we measured the longevity of these responses, tracking humoral, and cellular responses up to 6 months following vaccination. Overall, we show that the strength and longevity of anti-HCV responses can be influenced by adjuvant selection. In particular, a simple admixed sulfated S-lactosylarchaeol (SLA) archaeosome formulation generated strong levels of HCV neutralizing antibodies and polyfunctional antigen-specific CD4 T cells producing multiple cytokines such as IFN-γ, TNF-α, and IL-2. While liposome/MPLA/QS-21 as adjuvant generated superior cellular responses, the SLA E1/E2 admixed formulation was superior or equivalent to the other tested formulations in all immune parameters tested.

Citing Articles

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References

Di Pasquale A, Preiss S, Da Silva F, Garcon N . Vaccine Adjuvants: from 1920 to 2015 and Beyond. Vaccines (Basel). 2015; 3(2):320-43. PMC: 4494348. DOI: 10.3390/vaccines3020320. View

Didierlaurent A, Laupeze B, Di Pasquale A, Hergli N, Collignon C, Garcon N . Adjuvant system AS01: helping to overcome the challenges of modern vaccines. Expert Rev Vaccines. 2016; 16(1):55-63. DOI: 10.1080/14760584.2016.1213632. View

Freedman H, Logan M, Law J, Houghton M . Structure and Function of the Hepatitis C Virus Envelope Glycoproteins E1 and E2: Antiviral and Vaccine Targets. ACS Infect Dis. 2016; 2(11):749-762. DOI: 10.1021/acsinfecdis.6b00110. View

Garcon N, Di Pasquale A . From discovery to licensure, the Adjuvant System story. Hum Vaccin Immunother. 2016; 13(1):19-33. PMC: 5287309. DOI: 10.1080/21645515.2016.1225635. View

Boyd A, Almeida J, Darrah P, Sauce D, Seder R, Appay V . Pathogen-Specific T Cell Polyfunctionality Is a Correlate of T Cell Efficacy and Immune Protection. PLoS One. 2015; 10(6):e0128714. PMC: 4457486. DOI: 10.1371/journal.pone.0128714. View

Muraro E, Merlo A, Martorelli D, Cangemi M, Santa S, Dolcetti R . Fighting Viral Infections and Virus-Driven Tumors with Cytotoxic CD4 T Cells. Front Immunol. 2017; 8:197. PMC: 5327441. DOI: 10.3389/fimmu.2017.00197. View

Liang T . Current progress in development of hepatitis C virus vaccines. Nat Med. 2013; 19(7):869-78. PMC: 6263146. DOI: 10.1038/nm.3183. View

Sprott G, Yeung A, Dicaire C, Yu S, Whitfield D . Synthetic archaeosome vaccines containing triglycosylarchaeols can provide additive and long-lasting immune responses that are enhanced by archaetidylserine. Archaea. 2012; 2012:513231. PMC: 3465877. DOI: 10.1155/2012/513231. View

Lin Y, Kwon T, Polo J, Zhu Y, Coates S, Crawford K . Induction of broad CD4+ and CD8+ T-cell responses and cross-neutralizing antibodies against hepatitis C virus by vaccination with Th1-adjuvanted polypeptides followed by defective alphaviral particles expressing envelope glycoproteins gpE1 and gpE2.... J Virol. 2008; 82(15):7492-503. PMC: 2493334. DOI: 10.1128/JVI.02743-07. View

10.

Houghton M, Abrignani S . Prospects for a vaccine against the hepatitis C virus. Nature. 2005; 436(7053):961-6. DOI: 10.1038/nature04081. View

11.

Zibbell J, Asher A, Patel R, Kupronis B, Iqbal K, Ward J . Increases in Acute Hepatitis C Virus Infection Related to a Growing Opioid Epidemic and Associated Injection Drug Use, United States, 2004 to 2014. Am J Public Health. 2017; 108(2):175-181. PMC: 5846578. DOI: 10.2105/AJPH.2017.304132. View

12.

Jia Y, Akache B, Deschatelets L, Qian H, Dudani R, Harrison B . A comparison of the immune responses induced by antigens in three different archaeosome-based vaccine formulations. Int J Pharm. 2019; 561:187-196. DOI: 10.1016/j.ijpharm.2019.02.041. View

13.

Akache B, Stark F, Iqbal U, Chen W, Jia Y, Krishnan L . Safety and biodistribution of sulfated archaeal glycolipid archaeosomes as vaccine adjuvants. Hum Vaccin Immunother. 2018; 14(7):1746-1759. PMC: 6067861. DOI: 10.1080/21645515.2017.1423154. View

14.

Houghton M . Prospects for prophylactic and therapeutic vaccines against the hepatitis C viruses. Immunol Rev. 2011; 239(1):99-108. DOI: 10.1111/j.1600-065X.2010.00977.x. View

15.

Gurnani K, Kennedy J, Sad S, Sprott G, Krishnan L . Phosphatidylserine receptor-mediated recognition of archaeosome adjuvant promotes endocytosis and MHC class I cross-presentation of the entrapped antigen by phagosome-to-cytosol transport and classical processing. J Immunol. 2004; 173(1):566-78. DOI: 10.4049/jimmunol.173.1.566. View

16.

Logan M, Law J, Wong J, Hockman D, Landi A, Chen C . Native Folding of a Recombinant gpE1/gpE2 Heterodimer Vaccine Antigen from a Precursor Protein Fused with Fc IgG. J Virol. 2016; 91(1). PMC: 5165201. DOI: 10.1128/JVI.01552-16. View

17.

Stark F, McCluskie M, Krishnan L . Homologous Prime-Boost Vaccination with OVA Entrapped in Self-Adjuvanting Archaeosomes Induces High Numbers of OVA-Specific CD8⁺ T Cells that Protect Against Subcutaneous B16-OVA Melanoma. Vaccines (Basel). 2016; 4(4). PMC: 5192364. DOI: 10.3390/vaccines4040044. View

18.

Krishnan L, Dicaire C, Patel G, Sprott G . Archaeosome vaccine adjuvants induce strong humoral, cell-mediated, and memory responses: comparison to conventional liposomes and alum. Infect Immun. 1999; 68(1):54-63. PMC: 97101. DOI: 10.1128/IAI.68.1.54-63.2000. View

19.

Choo Q, Kuo G, Ralston R, Weiner A, Chien D, Van Nest G . Vaccination of chimpanzees against infection by the hepatitis C virus. Proc Natl Acad Sci U S A. 1994; 91(4):1294-8. PMC: 43144. DOI: 10.1073/pnas.91.4.1294. View

20.

Akache B, Stark F, Jia Y, Deschatelets L, Dudani R, Harrison B . Sulfated archaeol glycolipids: Comparison with other immunological adjuvants in mice. PLoS One. 2018; 13(12):e0208067. PMC: 6279041. DOI: 10.1371/journal.pone.0208067. View