2022
DOI: 10.1038/s41467-022-29120-y
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Precise tumor immune rewiring via synthetic CRISPRa circuits gated by concurrent gain/loss of transcription factors

Abstract: Reinvigoration of antitumor immunity has recently become the central theme for the development of cancer therapies. Nevertheless, the precise delivery of immunotherapeutic activities to the tumors remains challenging. Here, we explore a synthetic gene circuit-based strategy for specific tumor identification, and for subsequently engaging immune activation. By design, these circuits are assembled from two interactive modules, i.e., an oncogenic TF-driven CRISPRa effector, and a corresponding p53-inducible off-s… Show more

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Cited by 7 publications
(3 citation statements)
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“…This methodology aids in identifying new resistance targets, enhancing clinical therapeutic opportunities. Wang et al [70] developed a strategy based on CRISPRa and synthetic gene circuits for the identification of specific tumors, followed by the activation of immune-related genes. This circuit consists of two interactive modules, namely the oncogenic TF-driven CRISPRa effector (AND gate) and the corresponding p53-induced shut-off switch (NOT gate), working together to implement accurate tumor targeting through AND-NOT logic.…”
Section: Crispra Screeningmentioning
confidence: 99%
“…This methodology aids in identifying new resistance targets, enhancing clinical therapeutic opportunities. Wang et al [70] developed a strategy based on CRISPRa and synthetic gene circuits for the identification of specific tumors, followed by the activation of immune-related genes. This circuit consists of two interactive modules, namely the oncogenic TF-driven CRISPRa effector (AND gate) and the corresponding p53-induced shut-off switch (NOT gate), working together to implement accurate tumor targeting through AND-NOT logic.…”
Section: Crispra Screeningmentioning
confidence: 99%
“…Cancer immunotherapy can enhance the antitumor immune response to fight against tumor cells by activating the immune system, achieving a durable antitumor immune response and preventing tumor metastasis and recurrence, which has attracted the attention of many scientists and shown great promise in cancer treatment during the past decades. [ 1–3 ] Various kinds of cancer immunotherapeutic approaches, such as immune checkpoint blockade (ICB) therapy, [ 4–6 ] chimeric antigen receptor T‐cell (CAR‐T) therapy, [ 7,8 ] and tumor vaccines [ 9,10 ] have been extensively investigated with desirable outcomes. Among them, tumor vaccine, which can generate specific anti‐tumor immune response, is supposed to be one of the most important immunotherapeutic strategies and holds tremendous potential for cancer treatment.…”
Section: Introductionmentioning
confidence: 99%
“…
promise in cancer treatment during the past decades. [1][2][3] Various kinds of cancer immunotherapeutic approaches, such as immune checkpoint blockade (ICB) therapy, [4][5][6] chimeric antigen receptor T-cell (CAR-T) therapy, [7,8] and tumor vaccines [9,10] have been extensively investigated with desirable outcomes. Among them, tumor vaccine, which can generate specific anti-tumor immune response, is supposed to be one of the most important immunotherapeutic strategies and holds tremendous potential for cancer treatment.
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mentioning
confidence: 99%