Haley E. Randolph scite author profile

Checkpoint blockade immunotherapy targeting the PD-1/PD-L1 inhibitory axis has produced remarkable results in the treatment of several types of cancer. Whereas cytotoxic T cells are known to provide important antitumor effects during checkpoint blockade, certain cancers with low MHC expression are responsive to therapy, suggesting that other immune cell types may also play a role. Here, we employed several mouse models of cancer to investigate the effect of PD-1/PD-L1 blockade on NK cells, a population of cytotoxic innate lymphocytes that also mediate antitumor immunity. We discovered that PD-1 and PD-L1 blockade elicited a strong NK cell response that was indispensable for the full therapeutic effect of immunotherapy. PD-1 was expressed on NK cells within transplantable, spontaneous, and genetically induced mouse tumor models, and PD-L1 expression in cancer cells resulted in reduced NK cell responses and generation of more aggressive tumors in vivo. PD-1 expression was more abundant on NK cells with an activated and more responsive phenotype and did not mark NK cells with an exhausted phenotype. These results demonstrate the importance of the PD-1/PD-L1 axis in inhibiting NK cell responses in vivo and reveal that NK cells, in addition to T cells, mediate the effect of PD-1/PD-L1 blockade immunotherapy.

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Genetic ancestry effects on the response to viral infection are pervasive but cell type specific

Randolph

Fiege

Thielen

et al. 2021

Science

108

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Ancestry shapes genetic immune responses Selection for genes affecting the immune system can vary among populations because of selection for local environments. In humans, ancestry has been associated with different responses to infection. Randolph et al . examined the molecular determinants of these observations using single-cell RNA sequencing of immune cells from individuals of European and African descent who were infected with influenza in vitro. The experiments showed that infection-induced gene signatures diverged in a cell-type-specific manner that was correlated with ancestry, and that these observed ancestry-related differences were caused by changes in gene regulation and processes involved in transcription and translation. —LMZ

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Gene activation precedes DNA demethylation in response to infection in human dendritic cells

Pacis

Mailhot-Léonard

Tailleux

et al. 2019

Proc. Natl. Acad. Sci. U.S.A.

126

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DNA methylation is considered to be a relatively stable epigenetic mark. However, a growing body of evidence indicates that DNA methylation levels can change rapidly; for example, in innate immune cells facing an infectious agent. Nevertheless, the causal relationship between changes in DNA methylation and gene expression during infection remains to be elucidated. Here, we generated time-course data on DNA methylation, gene expression, and chromatin accessibility patterns during infection of human dendritic cells withMycobacterium tuberculosis. We found that the immune response to infection is accompanied by active demethylation of thousands of CpG sites overlapping distal enhancer elements. However, virtually all changes in gene expression in response to infection occur before detectable changes in DNA methylation, indicating that the observed losses in methylation are a downstream consequence of transcriptional activation. Footprinting analysis revealed that immune-related transcription factors (TFs), such as NF-κB/Rel, are recruited to enhancer elements before the observed losses in methylation, suggesting that DNA demethylation is mediated by TF binding to cis-acting elements. Collectively, our results show that DNA demethylation plays a limited role to the establishment of the core regulatory program engaged upon infection.

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Haley E. Randolph

Herd Immunity: Understanding COVID-19

Contribution of NK cells to immunotherapy mediated by PD-1/PD-L1 blockade

Genetic ancestry effects on the response to viral infection are pervasive but cell type specific

Gene activation precedes DNA demethylation in response to infection in human dendritic cells

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