Kristl Pacheco scite author profile

Kristl Pacheco

3Publications

14Citation Statements Received

64Citation Statements Given

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Affiliations

Sanofi (United States), Sanofi (France)

Publications

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Immunological Distinctions between Acellular and Whole-Cell Pertussis Immunizations of Baboons Persist for at Least One Year after Acellular Vaccine Boosting

et al. 2020

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While both whole-cell (wP) and acellular pertussis (aP) vaccines have been highly effective at reducing the global pertussis disease burden, there are concerns that compared to wP vaccination, the immune responses to aP vaccination may wane more rapidly. To gain insights into the vaccine elicited immune responses, pre-adult baboons were immunized with either aP or wP vaccines, boosted with an aP vaccine, and observed over a nearly two-year period. Priming with a wP vaccine elicited a more Th17-biased response than priming with aP, whereas priming with an aP vaccine led to a more Th2-biased response than priming with wP. These differences were maintained after aP vaccine boost immunizations. Compared to aP, animals primed with a wP vaccine exhibited greater numbers of pertussis specific memory B cells. While aP and wP vaccine priming initially elicited similar levels of anti-pertussis toxin antibody, titers declined more rapidly in aP vaccine primed animals leading to a 4-fold difference. Both wP and aP vaccine immunization could induce serum bactericidal activity (SBA); however, only one wP vaccine immunization was required to elicit SBA while multiple aP vaccine immunizations were required to elicit lower, less durable SBA titers. In conclusion, when compared to aP vaccine, priming with wP vaccine elicits distinct cellular and humoral immune responses that persist after aP vaccine boosting.

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Deciphering the domain specificity of C. difficile toxin neutralizing antibodies

Cole

Jetley

et al. 2019

Vaccine

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Increasing Domain Coverage Improves Neutralizing Potency of C. difficile Toxin-specific Antibodies

Cole

Jetley

et al. 2018

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Clostridiumdifficile (C.difficile)is a significant human pathogen. C.difficile infection (CDI) causesclinical symptoms ranging from diarrhea to life-threatening fulminant pseudo membranous colitis. The pathogenesis of C. difficile is mediated by two large exotoxins, toxins A and B. These two toxins are highly homologous, single chain proteins consisting of four functional domains: N-terminal glucosyl transferase domain (GTD), cysteine protease domain (CPD), translocation domain (TLD) and a C-terminal receptor-binding domain (RBD). The important role played by anti-toxin sera and antibodies in the prevention of primary and recurrent CDI has been described and demonstrated in both clinical and pre-clinical studies; however, work focused on the impact of the toxin domain specificity of these antibodies is limited. To address this deficit, sera from a C. difficile vaccine immunized hamsters and toxin-specific human monoclonal antibodies (mAbs) were used to assess the impact of toxin domain specificity on antibody mediated inhibition of cytotoxicity in a Vero cell-based functional assay. Results from toxin domain immunoabsorption assays using hamster anti-toxinsera indicated that no single domain fragment from either toxin A or toxin B could inhibit neutralizing activities. Anti-toxin A activity was prevented with a combination of GTD and CTD fragments while anti-toxin B activity required the GTD, CTD and CPD fragments to block activity. Assays with human mAbs demonstrated that combining mAbs that target multiple toxin domains greatly improves neutralizing potency when compared to equivalent concentrations of either a single mAb or a combination of mAbs against a single domain.

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Kristl Pacheco

Immunological Distinctions between Acellular and Whole-Cell Pertussis Immunizations of Baboons Persist for at Least One Year after Acellular Vaccine Boosting

Deciphering the domain specificity of C. difficile toxin neutralizing antibodies

Increasing Domain Coverage Improves Neutralizing Potency of C. difficile Toxin-specific Antibodies

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