Globally Deimmunized Lysostaphin Evades Human Immune Surveillance and Enables Highly Efficacious Repeat Dosing

Overview

Journal Sci Adv

Specialties Biology
Science

Date 2020 Sep 12

PMID 32917596

Citations 17

Authors

Hongliang Zhao

Seth A Brooks

Susan Eszterhas

Spencer Heim

Liang Li

Yan Q Xiong

Yongliang Fang

Jack R Kirsch

Deeptak Verma

Chris Bailey-Kellogg

Karl E Griswold

Affiliations

Soon will be listed here.

Abstract

There is a critical need for novel therapies to treat methicillin-resistant (MRSA) and other drug-resistant pathogens, and lysins are among the vanguard of innovative antibiotics under development. Unfortunately, lysins' own microbial origins can elicit detrimental antidrug antibodies (ADAs) that undermine efficacy and threaten patient safety. To create an enhanced anti-MRSA lysin, a novel variant of lysostaphin was engineered by T cell epitope deletion. This "deimmunized" lysostaphin dampened human T cell activation, mitigated ADA responses in human HLA transgenic mice, and enabled safe and efficacious repeated dosing during a 6-week longitudinal infection study. Furthermore, the deimmunized lysostaphin evaded established anti-wild-type immunity, thereby providing significant anti-MRSA protection for animals that were immune experienced to the wild-type enzyme. Last, the enzyme synergized with daptomycin to clear a stringent model of MRSA endocarditis. By mitigating T cell-driven antidrug immunity, deimmunized lysostaphin may enable safe, repeated dosing to treat refractory MRSA infections.

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