Inflammatory Reprogramming with IDO1 Inhibitors: Turning Immunologically Unresponsive ‘Cold’ Tumors ‘Hot’

Prendergast, George C.; Mondal, Arpita; Dey, Souvik; Laury‐Kleintop, Lisa D.; Muller, Alexander J.

doi:10.1016/j.trecan.2017.11.005

Cited by 141 publications

(125 citation statements)

References 154 publications

(203 reference statements)

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“…Indoleamine 2,3‐dioxygenase (IDO), produced within the TME by malignant cells, Tregs, stromal cells, and tolerogenic DCs, converts the essential amino acid tryptophan (Trp) to kynurenine (Kyn) . The lack of Trp results in decreased mTORC1 signaling, activation of the stress kinase GCN2, and triggers cell cycle arrest and apoptosis in effector T cells .…”

Section: Targeting the Tumor Microenvironment To Improve Immunotherapiesmentioning

confidence: 99%

“…Furthermore, long-term survival rate after ACT of melanoma-specific pmel TCR transgenic T cells were improved when combined with bicarbonate (40% vs. 10% with ACT alone) [43]. Indoleamine 2,3-dioxygenase (IDO), produced within the TME by malignant cells, Tregs, stromal cells, and tolerogenic DCs, converts the essential amino acid tryptophan (Trp) to kynurenine (Kyn) [44]. The lack of Trp results in decreased mTORC1 signaling, activation of the stress kinase GCN2, and triggers cell cycle arrest and apoptosis in effector T cells [44].…”

Section: Targeting the Tumor Microenvironment To Improve Immunotherapiesmentioning

confidence: 99%

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Targeting the tumor microenvironment and T cell metabolism for effective cancer immunotherapy

Hope

Salmond

2019

Eur J Immunol

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The successful implementation of immunotherapies has provided new impetus in the fight against cancer. Antibody‐mediated blockade of immune checkpoint molecules PD‐1/PD‐L1 and CTLA‐4 has had a dramatic impact upon the treatment of previously intractable cancers such as malignant melanoma, while adoptive cell therapies using chimeric antigen receptor‐bearing T cells have proven highly efficacious in B cell leukemia. Furthermore, significant progress has been made in understanding the mechanisms by which tumors evade or become resistant to these immunotherapies. In this regard, approaches to broaden the applicability and enhance the efficacy of immunotherapies increasingly include modulation of tumor and immune cell metabolism. In this mini‐review, we highlight the most recent studies describing novel approaches and targets for the manipulation of the tumor microenvironment and T cell metabolism and describe how these approaches are being combined with current immunotherapies in preclinical studies.

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Section: Targeting the Tumor Microenvironment To Improve Immunotherapiesmentioning

confidence: 99%

Section: Targeting the Tumor Microenvironment To Improve Immunotherapiesmentioning

confidence: 99%

Targeting the tumor microenvironment and T cell metabolism for effective cancer immunotherapy

Hope

Salmond

2019

Eur J Immunol

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“…Mechanistically, inhibition of IDO1 alone is expected to modulate the microenvironment to potentiate the action of immune effectors, but is not expected to kill tumor cells directly, nor initiate a de novo antitumor immune response (1). In the clinic, IDO1 inhibition alone has little anticancer effect in a majority of patients (6,7). However, early-phase studies demonstrating encouraging response rates and durability of responses suggested that the addition of IDO1 inhibitors to programmed cell death protein 1 (PD-1) or programmed death-ligand 1 (PD-L1) inhibition may enhance the efficacy of checkpoint blockade alone (8)(9)(10)(11).…”

Section: Introductionmentioning

confidence: 99%

Phase I Study of the Indoleamine 2,3-Dioxygenase 1 (IDO1) Inhibitor Navoximod (GDC-0919) Administered with PD-L1 Inhibitor (Atezolizumab) in Advanced Solid Tumors

Jung

LoRusso

Burris

et al. 2019

Clinical Cancer Research

194

163

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Purpose: IDO1 induces immune suppression in T cells through L-tryptophan (Trp) depletion and kynurenine (Kyn) accumulation in the local tumor microenvironment, suppressing effector T cells and hyperactivating regulatory T cells (Treg). Navoximod is an investigational small-molecule inhibitor of IDO1. This phase I study evaluated safety, tolerability, pharmacokinetics, and pharmacodynamics of navoximod in combination with atezolizumab, a PD-L1 inhibitor, in patients with advanced cancer.Patients and Methods: The study consisted of a 3 þ 3 doseescalation stage (n ¼ 66) and a tumor-specific expansion stage (n ¼ 92). Navoximod was given orally every 12 hours continuously for 21 consecutive days of each cycle with the exception of cycle 1, where navoximod administration started on day À1 to characterize pharmacokinetics. Atezolizumab was administered by intravenous infusion 1,200 mg every 3 weeks on day 1 of each cycle.Results: Patients (n ¼ 157) received navoximod at 6 dose levels (50-1,000 mg) in combination with atezolizu-mab. The maximum administered dose was 1,000 mg twice daily; the MTD was not reached. Navoximod demonstrated a linear pharmacokinetic profile, and plasma Kyn generally decreased with increasing doses of navoximod. The most common treatment-related AEs were fatigue (22%), rash (22%), and chromaturia (20%). Activity was observed at all dose levels in various tumor types (melanoma, pancreatic, prostate, ovarian, head and neck squamous cell carcinoma, cervical, neural sheath, nonsmall cell lung cancer, triple-negative breast cancer, renal cell carcinoma, urothelial bladder cancer): 6 (9%) doseescalation patients achieved partial response, and 10 (11%) expansion patients achieved partial response or complete response.Conclusions: The combination of navoximod and atezolizumab demonstrated acceptable safety, tolerability, and pharmacokinetics for patients with advanced cancer. Although activity was observed, there was no clear evidence of benefit from adding navoximod to atezolizumab.

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“…Both, tryptophan depletion and increased kynurenine levels, potently inhibit proliferation and are able to induce apoptosis of effector T cells and natural killer cells [41,42]. Of note, high levels of kynurenine generated by IDO1 establish a pronounced immunosuppressive milieu also via the induction and recruitment of immunosuppressive regulatory T cells (Tregs) and myeloid-derived suppressor cells (MDSCs) [43,44]. The potent immunosuppressive role of IDO1 in malignant settings has led to the development of several selective IDO1 inhibitors which are currently tested in clinical trials mainly as ICB adjuvant or pre-clinically in triple combination with radiotherapy [45][46][47][48][49][50].…”

Section: Introductionmentioning

confidence: 99%

“…Expression of IDO1 is intricately controlled by numerous inflammatory cytokines, often requiring a combination of two signals to reach physiologically relevant levels [39,44,51]. In melanoma, one of the strongest inducers of IDO1 expression is Interferon gamma (IFNγ) via activation of STAT1 [52,53].…”

Section: Introductionmentioning

confidence: 99%

Oncogenic GLI1 and STAT1/3 activation drives immunosuppressive tryptophan/kynurenine metabolism via synergistic induction of IDO1 in skin cancer cells

Elmer

Strobl

Stockmaier

et al. 2020

Preprint

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Pharmacological targeting of Hedgehog (HH)/GLI has proven effective for certain blood, brain and skin cancers including basal cell carcinoma (BCC). However, limited response rates and the development of drug resistance call for improved anti-HH therapies that take into account synergistic crosstalk mechanisms and immune evasion strategies.In previous work, we demonstrated that crosstalk of HH/GLI with pro-inflammatory Interleukin-6 (IL6) signaling drives BCC by promoting tumor cell proliferation [1]. In the present study, we screened for possible mechanisms of cancer immune evasion regulated by synergistic HH-IL6 signaling and identified the immunosuppressive enzyme indoleamine 2,3-dioxygenase 1 (IDO1) as a novel transcriptional target co-regulated by HH-IL6 signaling. Analysis of the cis-regulatory region of IDO1 by chromatin-immunoprecipitation revealed co-occupancy of this region by HH-IL6 induced GLI1 and STAT3 transcription factors along with active chromatin marks at the histone level. Elevated expression of IDO1 in human BCC with high-level HH and IL6 signatures supports the clinical relevance of our mechanistic data. Genetic inhibition of GLI1 expression prevented the induction of IDO1 expression in response to IL6/STAT3 and IFNγ/STAT1 signaling in human melanoma cells. Pharmacological targeting of HH signaling at the level of GLI proteins interfered with IDO1 expression and consequently prevented the production of the immunosuppressive metabolite kynurenine generated by active IDO1 from tryptophan. Further, inhibition of GLI1 enhanced the efficacy of the selective IDO1 inhibitor epacadostat. Of note, inhibition of HH/GLI signaling in melanoma cells not only reduced IDO1 expression but also interfered with the repression of T cell activation by attenuating IDO1/kynurenine-mediated immunosuppression. These data identify the immunosuppressive IDO1-kynurenine pathway as GLI-STAT driven immunosuppression via IDO1 induction 3 a novel pro-tumorigenic effector of oncogenic HH-IL6 and GLI-STAT cooperation. Our data suggest simultaneous pharmacological targeting of the HH/GLI, JAK/STAT and IDO1kynurenine axis as rational combination therapy in skin cancers.figure design and discussions and to Mag. Christian Behensky, Sabine Siller and all other members of the Aberger group for continuous scientific and technical support. We acknowledge GLI-STAT driven immunosuppression via IDO1 induction 19 also the help of Martin Wipplinger and Helena Stadler with the RNA-interference experiments and methylation analyses.

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Inflammatory Reprogramming with IDO1 Inhibitors: Turning Immunologically Unresponsive ‘Cold’ Tumors ‘Hot’

Cited by 141 publications

References 154 publications

Targeting the tumor microenvironment and T cell metabolism for effective cancer immunotherapy

Targeting the tumor microenvironment and T cell metabolism for effective cancer immunotherapy

Phase I Study of the Indoleamine 2,3-Dioxygenase 1 (IDO1) Inhibitor Navoximod (GDC-0919) Administered with PD-L1 Inhibitor (Atezolizumab) in Advanced Solid Tumors

Oncogenic GLI1 and STAT1/3 activation drives immunosuppressive tryptophan/kynurenine metabolism via synergistic induction of IDO1 in skin cancer cells

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