J. Michael Stolley scite author profile

The immunosuppressive tumor microenvironment limits the success of current immunotherapies. The host retains memory T cells specific for previous infections throughout the entire body that are capable of executing potent and immediate immunostimulatory functions. Here we show that virus-specific memory T cells extend their surveillance to mouse and human tumors. Reactivating these antiviral T cells can arrest growth of checkpoint blockade-resistant and poorly immunogenic tumors in mice after injecting adjuvant-free non-replicating viral peptides into tumors. Peptide mimics a viral reinfection event to memory CD8+ T cells, triggering antigen presentation and cytotoxic pathways within the tumor, activating dendritic cells and natural killer cells, and recruiting the adaptive immune system. Viral peptide treatment of ex vivo human tumors recapitulates immune activation gene expression profiles observed in mice. Lastly, peptide therapy renders resistant mouse tumors susceptible to PD-L1 blockade. Thus, re-stimulating known antiviral immunity may provide a unique therapeutic approach for cancer immunotherapy.

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Regulatory T‐cell homeostasis: steady‐state maintenance and modulation during inflammation

Smigiel

Srivastava

Stolley

et al. 2014

Immunological Reviews

175

138

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Summary Regulatory T (Treg) cells play a vital role in the prevention of autoimmunity and the maintenance of self-tolerance but also have an active role in inhibiting immune responses during viral, bacterial and parasitic infections. Whereas excessive Treg activity can lead to immunodeficiency, chronic infection and cancer, too little Treg activity results in autoimmunity and immunopathology, and impairs the quality of pathogen-specific responses. Recent studies have helped define the homeostatic mechanisms that support the diverse pool of peripheral Treg cells under steady-state conditions, and delineate how the abundance and function of Treg cells changes during inflammation. These findings are highly relevant for developing effective strategies to manipulate Treg cell activity to promote allograft tolerance and treat autoimmunity, chronic infection and cancer.

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A SerpinB1 Regulatory Mechanism Is Essential for Restricting Neutrophil Extracellular Trap Generation

et al. 2012

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NETosis (NET generation), a programmed death pathway initiated in mature neutrophils by pathogens and inflammatory mediators, can be a protective process that sequesters microbes and prevents spread of infection, but can also be a pathological process that causes inflammation and serious tissue injury. Little is known about the regulatory mechanism. Previously we demonstrated that serpinb1-deficient mice are highly susceptible to pulmonary bacterial and viral infections due to inflammation and tissue injury associated with increased neutrophilic death. Here we used in vitro and in vivo approaches to investigate whether SerpinB1 regulates NETosis. We found that serpinb1-deficient bone marrow and lung neutrophils are hyper-susceptible to NETosis induced by multiple mediators in both NADPH-dependent and independent manner, indicating a deeply rooted regulatory role in NETosis. This role is further supported by increased nuclear expansion (representing chromatin decondensation) of PMA-treated serpinb-1-deficient neutrophils compared to wild-type, by migration of SerpinB1 from the cytoplasm to the nucleus of human neutrophils coincident with, or before, early conversion of lobulated (segmented) nuclei to delobulated (spherical) morphology, and by finding that exogenous rSerpinB1 abrogates NET production. NETosis of serpinb1-deficient neutrophils is also increased in vivo during Pseudomonas aeruginosa lung infection. The findings identify a previously unrecognized regulatory mechanism involving SerpinB1 that restricts the production of NETs.

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Cutting Edge: Nucleocapsid Vaccine Elicits Spike-Independent SARS-CoV-2 Protective Immunity

et al. 2021

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Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) is responsible for the COVID-19 pandemic. Neutralizing Abs target the receptor binding domain of the spike (S) protein, a focus of successful vaccine efforts. Concerns have arisen that S-specific vaccine immunity may fail to neutralize emerging variants. We show that vaccination with a human adenovirus type 5 vector expressing the SARS-CoV-2 nucleocapsid (N) protein can establish protective immunity, defined by reduced weight loss and viral load, in both Syrian hamsters and K18-hACE2 mice. Challenge of vaccinated mice was associated with rapid N-specific T cell recall responses in the respiratory mucosa. This study supports the rationale for including additional viral Ags in SARS-CoV-2 vaccines, even if they are not a target of neutralizing Abs, to broaden epitope coverage and immune effector mechanisms.

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SerpinB1 protects the mature neutrophil reserve in the bone marrow

Benarafa

LeCuyer

Baumann

et al. 2011

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SerpinB1 is among the most efficient inhibitors of neutrophil serine proteases--NE, CG, and PR-3--and we investigated here its role in neutrophil development and homeostasis. We found that serpinB1 is expressed in all human bone marrow leukocytes, including stem and progenitor cells. Expression levels were highest in the neutrophil lineage and peaked at the promyelocyte stage, coincident with the production and packaging of the target proteases. Neutrophil numbers were decreased substantially in the bone marrow of serpinB1(-/-) mice. This cellular deficit was associated with an increase in serum G-CSF levels. On induction of acute pulmonary injury, neutrophils were recruited to the lungs, causing the bone marrow reserve pool to be completely exhausted in serpinB1(-/-) mice. Numbers of myeloid progenitors were normal in serpinB1(-/-) bone marrow, coincident with the absence of target protease expression at these developmental stages. Maturation arrest of serpinB1(-/-) neutrophils was excluded by the normal CFU-G growth in vitro and the normal expression in mature neutrophils of early and late differentiation markers. Normal absolute numbers of proliferating neutrophils and pulse-chase kinetic studies in vivo showed that the bone marrow deficit in serpinB1(-/-) mice was largely restricted to mature, postmitotic neutrophils. Finally, upon overnight culture, apoptosis and necrosis were greater in purified bone marrow neutrophils from serpinB1(-/-) compared with WT mice. Collectively, these findings demonstrate that serpinB1 sustains a healthy neutrophil reserve that is required in acute immune responses.

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Retrograde migration supplies resident memory T cells to lung-draining LN after influenza infection

Stolley

Johnston

Soerens

et al. 2020

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Numerous observations indicate that resident memory T cells (TRM) undergo unusually rapid attrition within the lung. Here we demonstrate that contraction of lung CD8+ T cell responses after influenza infection is contemporized with egress of CD69+/CD103+ CD8+ T cells to the draining mediastinal LN via the lymphatic vessels, which we term retrograde migration. Cells within the draining LN retained canonical markers of lung TRM, including CD103 and CD69, lacked Ly6C expression (also a feature of lung TRM), maintained granzyme B expression, and did not equilibrate among immunized parabiotic mice. Investigations of bystander infection or removal of the TCR from established memory cells revealed that the induction of the TRM phenotype was dependent on antigen recognition; however, maintenance was independent. Thus, local lung infection induces CD8+ T cells with a TRM phenotype that nevertheless undergo retrograde migration, yet remain durably committed to the residency program within the draining LN, where they provide longer-lived regional memory while chronicling previous upstream antigen experiences.

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Expansible residence decentralizes immune homeostasis

Wijeyesinghe

Beura

Pierson

et al. 2021

Nature

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Metazoans relegate specific tasks to dedicated organs that are established early in development, occupy discrete anatomic locations, and typically remain fixed in size. The adult immune system arises from a centralized hematopoietic niche that maintains self-renewing potential 1 , 2 , and upon maturation, becomes distributed throughout the body to monitor environmental perturbations, regulate tissue homeostasis, and mediate organism-wide defense. This study examines how immunity is integrated within adult mouse tissues while addressing issues of durability, expansibility, and contribution to organ cellularity. Focusing on antiviral T cell immunity, we observe durable maintenance of resident memory T cells (T RM ) up to 450 days after infection. Once established, resident T cells did not require the T cell receptor for survival or retention of a poised effector-like state. While resident memory indefinitely dominated most mucosal organs, surgical separation of parabiotic mice unexpectedly revealed a tissue-resident provenance for bloodborne effector memory T cells, and circulating memory slowly made substantial contributions to tissue immunity in some organs. Following additional microbial experiences via serial immunizations or pet shop mice co-housing, for most tissues we find tissue pliancy allows for the accretion of tissue-resident memory, without axiomatic erosion of preexisting antiviral T cell immunity. Extending these findings, we demonstrate tissue residence and organ pliancy are generalizable aspects underlying the homeostasis of innate and adaptive immunity. The immune system-at-large grows commensurate to microbial experience reaching up to 25% of visceral organ cellularity. Regardless of location, many white blood cell populations adopted a tissue residency program within nonlymphoid organs. Thus, residence, rather than renewal or recirculation, typifies nonlymphoid immune surveillance, and organs serve as a pliant storage reservoir that can accommodate the continuous expansion of the cellular immune system throughout life. While hematopoiesis (‘to make blood’) restores certain elements of the immune system, in parallel, nonlymphoid organs sustain an accrual of durable tissue-autonomous cellular immunity, resulting in the progressive decentralization of organismal immune homeostasis.

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Mice with diverse microbial exposure histories as a model for preclinical vaccine testing

Fiege¹,

Block²,

Pierson³

et al. 2021

Cell Host & Microbe

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12 3 4

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