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Tumor immune escape mechanisms are being regarded as suitable targets for tumor therapy. Among these, tryptophan catabolism plays a central role in creating an immunosuppressive environment, leading to tolerance to potentially immunogenic tumor antigens. Tryptophan catabolism is initiated by either indoleamine 2,3-dioxygenase (IDO-1/-2) or tryptophan 2,3-dioxygenase 2 (TDO2), resulting in biostatic tryptophan starvation and l-kynurenine production, which participates in shaping the dynamic relationship of the host’s immune system with tumor cells. Current immunotherapy strategies include blockade of IDO-1/-2 or TDO2, to restore efficient antitumor responses. Patients who might benefit from this approach are currently identified based on expression analyses of IDO-1/-2 or TDO2 in tumor tissue and/or enzymatic activity assessed by kynurenine/tryptophan ratios in the serum. We developed a monoclonal antibody targeting l-kynurenine as an in situ biomarker of IDO-1/-2 or TDO2 activity. Using Tissue Micro Array technology and immunostaining, colorectal and breast cancer patients were phenotyped based on l-kynurenine production. In colorectal cancer l-kynurenine was not unequivocally associated with IDO-1 expression, suggesting that the mere expression of tryptophan catabolic enzymes is not sufficiently informative for optimal immunotherapy.

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Immunocytochemical visualization of d-glutamate in the rat brain

Mangas¹,

Coveñas²,

Bodet³

et al. 2007

Neuroscience

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Vitamins in the monkey brain: An immunocytochemical study

Mangas

Coveñas

Bodet³

et al. 2009

Journal of Chemical Neuroanatomy

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Direct visualization of retinoic acid in the rat hypothalamus: An immunohistochemical study

Mangas

Bodet²,

Duleu³

et al. 2012

Neuroscience Letters

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Cutaneous toxicities of new treatments for melanoma

et al. 2018

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New drugs against advanced melanoma have emerged during last decade. Target therapy and immunotherapy have changed the management of patients with metastatic disease. Along with its generalized use, drug toxicities have appeared and the skin is the target organ of a significant part of them. This revision summarizes the most common side effects and consensus management to improve the compliance of therapies and patients' quality of life. Among the BRAF inhibitors, main cutaneous side effects are photosensitivity, plantar hyperkeratosis, and the appearance of verrucal keratosis or squamous cell carcinoma. Special attention must be paid to the development of new primary melanomas or changes on nevi during BRAF inhibitor therapy. The most common cutaneous side effects of immunotherapy are rash, pruritus, and vitiligo. It remains controversial the possible role of these toxicities as markers of response to therapy.

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Targeting Tryptophan Catabolism in Cancer Immunotherapy Era: Challenges and Perspectives

Peyraud

Guégan²,

Bodet³

et al. 2022

Front. Immunol.

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Metabolism of tryptophan (Trp), an essential amino acid, represent a major metabolic pathway that both promotes tumor cell intrinsic malignant properties as well as restricts antitumour immunity, thus emerging as a drug development target for cancer immunotherapy. Three cytosolic enzymes, namely indoleamine 2,3-dioxygenase 1 (IDO1), IDO2 and tryptophan 2,3-dioxygenase (TDO2), catalyzes the first-rate limiting step of the degradation of Trp to kynurenine (Kyn) and modulates immunity toward immunosuppression mainly through the aryl hydrocarbon receptor (AhR) activation in numerous types of cancer. By restoring antitumor immune responses and synergizing with other immunotherapies, the encouraging preclinical data of IDO1 inhibitors has dramatically failed to translate into clinical success when combined with immune checkpoints inhibitors, reigniting the debate of combinatorial approach. In this review, we i) provide comprehensive evidences on immunomodulatory role of the Trp catabolism metabolites that highlight this pathway as relevant target in immuno-oncology, ii)ii) discuss underwhelming results from clinical trials investigating efficacy of IDO1 inhibitors and underlying mechanisms that might have contributed to this failure, and finally, iii) discuss the current state-of-art surrounding alternative approaches of innovative antitumor immunotherapies that target molecules of Trp catabolism as well as challenges and perspectives in the era of immunotherapy.

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IDO Targeting in Sarcoma: Biological and Clinical Implications

Nafia¹,

Toulmonde

Bortolotto³

et al. 2020

Front. Immunol.

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Sarcomas are heterogeneous malignant mesenchymal neoplasms with limited sensitivity to immunotherapy. We recently demonstrated an increase in Kynurenine Pathway (KP) activity in the plasma of sarcoma patients treated with pembrolizumab. While the KP has already been described to favor immune escape through the degradation of L-Tryptophan and production of metabolites including L-Kynurenine, Indoleamine 2,3 dioxygenase (IDO1), a first rate-limiting enzyme of the KP, still represents an attractive therapeutic target, and its blockade had not yet been investigated in sarcomas. Using immunohistochemistry, IDO1 and CD8, expression profiles were addressed within 203 cases of human sarcomas. At a preclinical level, we investigated the modulation of the KP upon PDL1 blockade in a syngeneic model of sarcoma through mRNA quantification of key KP enzymes within the tumor. Furthermore, in order to evaluate the possible anti-tumor effect of IDO blockade in combination with PDL1 blockade, an innovative IDO inhibitor (GDC-0919) was used. Its effect was first assessed on Kynurenine to Tryptophan ratio at plasmatic level and also within the tumor. Following GDC-0919 treatment, alone or in combination with anti-PDL1 antibody, tumor growth, immune cell infiltration, and gene expression profiling were measured. IDO1 expression was observed in 39.1% of human sarcoma cases and was significantly higher in tumors with high CD8 infiltration. In the pre-clinical setting, blockade of PDL1 led to a strong anti-tumor effect and was associated with an intratumoral inflammatory cytokines signature driven by Ifng but also with a modulation of the KP enzymes including Ido1 and Ido2. IDO1 inhibition using GDC-0919 resulted in (i) a significant decrease of plasmatic Kynurenine to Tryptophan ratio and in (ii) a decrease of tumoral Kynurenine. However, GDC-0919 used alone or combined with anti-PDL1, did not show anti-tumoral activity and did not affect the tumor immune cell infiltrate. In order to elucidate the mechanism(s) underlying the lack of effect of GDC-0919, we analyzed the gene expression profile of intratumoral biopsies. Interestingly, we have found that GDC-0919 induced a downregulation of the expression of pvr and granzymes, and an upregulation of inhba and Dtx4 suggesting a potential role of the IDO pathway in the control of NK function.

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Evaluation of the Effects of a New Drug on Brain Leukocyte Infiltration in an Experimental Model of Autoimmune Encephalomyelitis

Mangas¹,

Coveñas²,

Bodet³

et al. 2006

LDDD

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Experimental Autoimmune Encephalomyelitis (EAE) was induced for the evaluation of a new drug candidate (GEM-SP) for multiple sclerosis. Using immunocytochemical techniques with a pan-leukocyte marker, "anti-CD 45", differential leukocyte infiltration was compared in different experimental groups: 1) EAE-immunized rats treated with GEM-SP; 2) EAE-immunized rats treated with NaCl; 3) EAE-immunized rats treated with free constituents (not linked to inert carrier protein) and the inert carrier protein of GEM-SP. The results were conclusive: a very high degree of infiltration was observed in groups 2 and 3. Compared with these, group 1 showed a very poor leukocyte infiltration. Thus, the effect of GEM-SP against leukocyte infiltration was very strong, suggesting a decrease of the blood brain barrier permeability. Moreover, the same composition of GEM-SP (non-linked) was poorly active against leukocyte infiltration. The effect of GEM-SP therefore on the blood brain barrier appears to be very effective, rendering it less permeable to leukocyte infiltration and decreasing leukocyte infiltration per se and/or it is also possible that GEM-SP could play an immunomodulator role. The present results suggest GEM-SP as a new potential drug candidate for the treatment of multiple sclerosis.

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D. Bodet

Accumulation of an Endogenous Tryptophan-Derived Metabolite in Colorectal and Breast Cancers

Immunocytochemical visualization of d-glutamate in the rat brain

Vitamins in the monkey brain: An immunocytochemical study

Direct visualization of retinoic acid in the rat hypothalamus: An immunohistochemical study

Cutaneous toxicities of new treatments for melanoma

Targeting Tryptophan Catabolism in Cancer Immunotherapy Era: Challenges and Perspectives

IDO Targeting in Sarcoma: Biological and Clinical Implications

Evaluation of the Effects of a New Drug on Brain Leukocyte Infiltration in an Experimental Model of Autoimmune Encephalomyelitis

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