Your search keyword '"Sastry, Mallika"' showing total 4 results

1. Structure-Based Design of a Fusion Glycoprotein Vaccine for Respiratory Syncytial Virus

Author

McLellan, Jason S., Chen, Man, Joyce, M. Gordon, Sastry, Mallika, Stewart-Jones, Guillaume B. E., Yang, Yongping, Zhang, Baoshan, Chen, Lei, Srivatsan, Sanjay, Zheng, Anqi, Zhou, Tongqing, Graepel, Kevin W., Kumar, Azad, Moin, Syed, Boyington, Jeffrey C., Chuang, Gwo-Yu, Soto, Cinque, Baxa, Ulrich, Bakker, Arjen Q., Spits, Hergen, Beaumont, Tim, Zheng, Zizheng, Xia, Ningshao, Ko, Sung-Youl, Todd, John-Paul, Rao, Srinivas, Graham, Barney S., and Kwong, Peter D.

Published

2013

2. Consistent elicitation of cross-clade HIV-neutralizing responses achieved in guinea pigs after fusion peptide priming by repetitive envelope trimer boosting.

Author

Cheng, Cheng, Xu, Kai, Kong, Rui, Chuang, Gwo-Yu, Corrigan, Angela R., Geng, Hui, Hill, Kurt R., Jafari, Alexander J., O’Dell, Sijy, Ou, Li, Rawi, Reda, Rowshan, Ariana P., Sarfo, Edward K., Sastry, Mallika, Saunders, Kevin O., Schmidt, Stephen D., Wang, Shuishu, Wu, Winston, Zhang, Baoshan, and Doria-Rose, Nicole A.

Subjects

GUINEA pigs, IMMUNIZATION, ANTIBODY formation, MONOCLONAL antibodies, HIV

Abstract

The vaccine elicitation of broadly neutralizing responses is a central goal of HIV research. Recently, we elicited cross-clade neutralizing responses against the N terminus of the fusion peptide (FP), a critical component of the HIV-entry machinery. While the consistency of the elicited cross-clade neutralizing responses was good in mice, it was poor in guinea pigs: after seven immunizations comprising either envelope (Env) trimer or FP coupled to a carrier, serum from only one of five animals could neutralize a majority of a cross-clade panel of 19 wild-type strains. Such a low response rate—only 20%—made increasing consistency an imperative. Here, we show that additional Env-trimer immunizations could boost broad FP-directed neutralizing responses in a majority of immunized animals. The first boost involved a heterologous Env trimer developed from the transmitted founder clade C strain of donor CH505, and the second boost involved a cocktail that combined the CH505 trimer with a trimer from the BG505 strain. After boosting, sera from three of five animals neutralized a majority of the 19-strain panel and serum from a fourth animal neutralized 8 strains. We demonstrate that cross-reactive serum neutralization targeted the FP by blocking neutralization with soluble fusion peptide. The FP competition revealed two categories of elicited responses: an autologous response to the BG505 strain of high potency (~10,000 ID50), which was not competed by soluble FP, and a heterologous response of lower potency, which was competed by soluble FP. While the autologous response could increase rapidly in response to Env-trimer boost, the heterologous neutralizing response increased more slowly. Overall, repetitive Env-trimer immunizations appeared to boost low titer FP-carrier primed responses to detectable levels, yielding cross-clade neutralization. The consistent trimer-boosted neutralizing responses described here add to accumulating evidence for the vaccine utility of the FP site of HIV vulnerability. [ABSTRACT FROM AUTHOR]

Published

2019

3. Adjuvants and the vaccine response to the DS-Cav1-stabilized fusion glycoprotein of respiratory syncytial virus.

Author

Sastry, Mallika, Zhang, Baoshan, Chen, Man, Joyce, M. Gordon, Kong, Wing-Pui, Chuang, Gwo-Yu, Ko, Kiyoon, Kumar, Azad, Silacci, Chiara, Thom, Michelle, Salazar, Andres M., Corti, Davide, Lanzavecchia, Antonio, Taylor, Geraldine, Mascola, John R., Graham, Barney S., and Kwong, Peter D.

Subjects

*RESPIRATORY syncytial virus, *GLYCOPROTEINS, *VACCINE effectiveness, *IMMUNE response, *RESPIRATORY syncytial virus infection vaccines

Abstract

Appropriate adjuvant selection may be essential to optimize the potency and to tailor the immune response of subunit vaccines. To induce protective responses against respiratory syncytial virus (RSV)—a highly prevalent childhood pathogen without a licensed vaccine—we previously engineered a pre-fusion-stabilized trimeric RSV F (pre-F) “DS-Cav1” immunogen, which induced high titer RSV-neutralizing antibodies, in mice and non-human primates, when formulated with adjuvants Poly (I:C) and Poly (IC:LC), respectively. To assess the impact of different adjuvants, here we formulated RSV F DS-Cav1 with multiple adjuvants and assessed immune responses. Very high RSV-neutralizing antibody responses (19,006 EC50) were observed in naïve mice immunized with 2 doses of DS-Cav1 adjuvanted with Sigma adjuvant system (SAS), an oil-in-water adjuvant, plus Carbopol; high responses (3658–7108) were observed with DS-Cav1 adjuvanted with Alum, SAS alone, Adjuplex, Poly (I:C) and Poly (IC:LC); and moderate responses (1251–2129) were observed with DS-Cav1 adjuvanted with the TLR4 agonist MPLA, Alum plus MPLA or AddaVax. In contrast, DS-Cav1 without adjuvant induced low-level responses (6). A balanced IgG1 and IgG2a (Th2/Th1) immune response was elicited in most of the high to very high response groups (all but Alum and Adjuplex). We also tested the immune response induced by DS-Cav1 in elderly mice with pre-existing DS-Cav1 immunity; we observed that DS-Cav1 adjuvanted with SAS plus Carbopol boosted the response 2-3-fold, whereas DS-Cav1 adjuvanted with alum boosted the response 5-fold. Finally, we tested whether a mixture of ISA 71 VG and Carbopol would enhanced the antibody response in DS-Cav1 immunized calves. While pre-F-stabilized bovine RSV F induced very high titers in mice when adjuvanted with SAS plus Carbopol, the addition of Carbopol to ISA 71 VG did not enhance immune responses in calves. The vaccine response to pre-F-stabilized RSV F is augmented by adjuvant, but the degree of adjuvant-induced enhancement appears to be both context-dependent and species-specific. [ABSTRACT FROM AUTHOR]

Published

2017

4. Structure-Based Design of Head-Only Fusion Glycoprotein Immunogens for Respiratory Syncytial Virus.

Author

Boyington, Jeffrey C., Joyce, M. Gordon, Sastry, Mallika, Stewart-Jones, Guillaume B. E., Chen, Man, Kong, Wing-Pui, Ngwuta, Joan O., Thomas, Paul V., Tsybovsky, Yaroslav, Yang, Yongping, Zhang, Baoshan, Chen, Lei, Druz, Aliaksandr, Georgiev, Ivelin S., Ko, Kiyoon, Zhou, Tongqing, Mascola, John R., Graham, Barney S., and Kwong, Peter D.

Subjects

RESPIRATORY syncytial virus, CHIMERIC proteins, GLYCOPROTEINS, AGE factors in disease, GENETIC mutation, NEUTRALIZATION (Chemistry)

Abstract

Respiratory syncytial virus (RSV) is a significant cause of severe respiratory illness worldwide, particularly in infants, young children, and the elderly. Although no licensed vaccine is currently available, an engineered version of the metastable RSV fusion (F) surface glycoprotein—stabilized in the pre-fusion (pre-F) conformation by “DS-Cav1” mutations—elicits high titer RSV-neutralizing responses. Moreover, pre-F-specific antibodies, often against the neutralization-sensitive antigenic site Ø in the membrane-distal head region of trimeric F glycoprotein, comprise a substantial portion of the human response to natural RSV infection. To focus the vaccine-elicited response to antigenic site Ø, we designed a series of RSV F immunogens that comprised the membrane-distal head of the F glycoprotein in its pre-F conformation. These “head-only” immunogens formed monomers, dimers, and trimers. Antigenic analysis revealed that a majority of the 70 engineered head-only immunogens displayed reactivity to site Ø-targeting antibodies, which was similar to that of the parent RSV F DS-Cav1 trimers, often with increased thermostability. We evaluated four of these head-only immunogens in detail, probing their recognition by antibodies, their physical stability, structure, and immunogenicity. When tested in naïve mice, a head-only trimer, half the size of the parent RSV F trimer, induced RSV titers, which were statistically comparable to those induced by DS-Cav1. When used to boost DS-Cav1-primed mice, two head-only RSV F immunogens, a dimer and a trimer, boosted RSV-neutralizing titers to levels that were comparable to those boosted by DS-Cav1, although with higher site Ø-directed responses. Our results provide proof-of-concept for the ability of the smaller head-only RSV F immunogens to focus the vaccine-elicited response to antigenic site Ø. Decent primary immunogenicity, enhanced physical stability, potential ease of manufacture, and potent immunogenicity upon boosting suggest these head-only RSV F immunogens, engineered to retain the pre-fusion conformation, may have advantages as candidate RSV vaccines. [ABSTRACT FROM AUTHOR]

Published

2016