Development and preclinical evaluation of next-generation ΔsigH-based live candidate vaccines
Garima Arora, … , Dhiraj K. Singh, Deepak Kaushal
Garima Arora, … , Dhiraj K. Singh, Deepak Kaushal
Published August 28, 2025
Citation Information: JCI Insight. 2025;10(19):e195947. https://doi.org/10.1172/jci.insight.195947.
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Research Article Infectious disease Microbiology

Development and preclinical evaluation of next-generation ΔsigH-based live candidate vaccines

Abstract

To radically diminish tuberculosis (TB) incidence and mortality by 2035, as set out by the WHO End TB Strategy, there is a desperate need for improved TB therapies and a more effective vaccine against the deadly pathogen Mycobacterium tuberculosis. Aerosol vaccination with the MtbΔsigH mutant protects 2 species of nonhuman primates against lethal TB challenge by invoking vastly superior T and B cell responses in the lungs through superior antigen presentation and interferon conditioning. Since the Geneva Consensus on essential steps toward the development of live mycobacterial vaccines recommends that live TB vaccines incorporate at least 2 independent gene knockouts, we have now generated several rationally designed, double-knockout (DKO) and triple-knockout (TKO) mutants in Mtb, each containing the ΔsigH deletion. Here, we report preclinical studies in the rhesus macaque model of aerosol infection and SIV/HIV coinfection, aimed at assessing the safety of these MtbΔsigH-based DKOs and TKOs. We found that most of these mutant strains were attenuated in both immunocompetent and SIV-coinfected macaques, and combinatorial infection with these generated strong cellular immune responses in the lung, akin to MtbΔsigH. Aerosol infection with these KO strains elicited inducible bronchus-associated lymphoid tissue, which is a correlate of protection from TB.

Authors

Garima Arora, Caden W. Munson, Mushtaq Ahmed, Vinay Shivanna, Annu Devi, Venkata S.R. Devireddy, Basil Antony, Shannan Hall-Ursone, Olga D. Gonzalez, Edward J. Dick Jr., Chinnaswamy Jagannath, Xavier Alvarez, Smriti Mehra, Shabaana A. Khader, Dhiraj K. Singh, Deepak Kaushal

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Figure 5

Lung pathology and TB lesions in Mtb KOs and Mtb KOs/SIV-cochallenged rhesus macaques.

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Lung pathology and TB lesions in Mtb KOs and Mtb KOs/SIV-cochallenged rh...
CT imaging of thoracic regions was performed on the macaques 4 weeks after Mtb KOs (A) and 4 weeks after SIV coinfection (B) prior to necropsies to examine the TB lesions. Representative images of lung tissues from macaques euthanized at 4 weeks after Mtb KOs (C) and 4 weeks after SIV coinfection (D), illustrating healthy gross pathology compared with the historical controls, are shown. To determine the effect of Mtb KOs/SIV coinfection on the lung pathology, lung tissue was collected at necropsy and subjected to H&E staining to study the cellular and granulomatous pathology. (E) A representative high-resolution photomicrograph is shown, and granulomatous lesions (2–4 mm) in these sections are marked by arrows. (F) H&E-stained lung sections from Mtb KOs/SIV-coinfected macaques show granuloma in Mtb/SIV-coinfected control animal and iBALT/iBALT-like structure in Mtb KOs/SIV-cochallenged animal, as indicated by arrows. (G) Percentage lung involvement was calculated by board-certified pathologist by quantification of the number of lesions per lobe of the lungs. Significance was determined using 1-way ANOVA with Tukey’s multiple comparisons test in GraphPad Prism v9.2.0. A P value < 0.05 was considered as statistically significant. **P < 0.01. Data are represented as mean ± SEM. Representative IHC staining lung sections from Mtb KOs-infected (H) and Mtb KOs/SIV-infected (I) macaques, highlighting staining with the iBALT markers — CD20 (purple), CD3 (teal), and CD68 (green). Images in panels CG involving Mtb/SIV-coinfected and Mtb wild-type infected macaques are obtained from our previous publications (24, 81), as we did not perform experiments on this group in the current study.