Influence Du Cisplatine sur l'expression du Check-Point Immunitaire PD-1/PD-L1 Dans Le Cancer Broncho-Pulmonaire Non A Petites Cellules

Despite many advances in the recent years in the therapeutic management of bronchopulmonary cancer, it remains the leading cause of death linked to cancer in the world. The major challenge for this disease is therefore to develop new treatments and optimize the use of existing drugs, in particular platinum salts. The number of clinical protocols testing combined therapies including immune check-point inhibitors and platinum salts is currently increasing in lung cancer treatment, however preclinical studies and rationale are often lacking. Here, we evaluated the impact of cisplatin treatment on PD-L1 expression analyzing the clinicopathological characteristics of patients who received cisplatin-based neoadjuvant chemotherapy followed by surgery and showed that cisplatin-based induction treatment significantly increased PD-L1 staining in both tumor and immune cells from the microenvironment. Twenty-two patients exhibited positive PD-L1 staining variation after neoadjuvant chemotherapy; including 9 (23.1%) patients switching from <50% to ≥50% of stained tumor-cells. We also confirmed the up-regulation of PD-L1 by cisplatin, at both RNA and protein levels, in nude and immunocompetent mice bearing tumors grafted with A549, LNM-R, or LLC1 lung cancer cell lines. Up-regulation of PD-L1 by cisplatin involved the PI3K / AKT signaling pathway.The combined administration of anti-PD-L1 antibodies (3mg/kg) and cisplatin (1mg/kg) to mice harboring lung carcinoma significantly reduced tumor growth compared to single agent treatments and controls. Overall, these results suggest that cisplatin treatment could synergize with PD-1/PD-L1 blockade to increase the clinical response, in particular through early and sustainable enhancement of PD-L1 expression. Simultaneously, we were able to develop a targeted anti-neurotensin therapy to block its paracrine effects which stimulate proliferation, growth, and metastatic potential of lung tumor cells. Anti-neurotensin antibodies also improved the sensitivity to cisplatin of previously resistant tumors by mechanisms which probably involve increased influx and decreased efflux of platinum at the intra-nuclear level where resides its target DNA. All of these results provide a rationale for carrying out clinical trials involving cisplatin and aiming, by various ways, to improve the effectiveness of systemic treatments for non-small cell broncho-pulmonary cancers.Malgré les nombreux progrés réalisés ces dernières années dans la prise en charge thérapeutique du cancer broncho-pulmonaire, cette pathologie reste la première cause de décès lié au cancer dans le monde. L’enjeu majeur pour cette maladie est donc de développer de nouveaux traitements et d’optimiser l’utilisation des drogues existantes, en particulier les sels de platine. Les protocoles combinant des inhibiteurs de points de contrôle immunitaire avec des sels de platine est actuellement en plein essor malgré un certain manque en études précliniques. Dans ce travail, j’ai cherché à évaluer l'impact du cisplatine sur l'expression de PD-L1 en analysant des patients ayant reçu une chimiothérapie néo-adjuvante à base de cisplatine. Le traitement d'induction augmentait considérablement le marquage PD-L1 des cellules tumorales et immunitaires du microenvironnement. Vingt-deux patients présentaient une variation positive du pourcentage de cellules tumorales PD-L1+ après chimiothérapie néoadjuvante; dont 9 (23,1%) passant de <50% à ≥50% des cellules tumorales marquées. Nous avons également confirmé la régulation positive de PD-L1 par le cisplatine, tant au niveau de l'ARNm qu’au niveau protéique, in-vitro et in-vivo sur des souris nude et des souris immunocompétentes greffées par des tumeurs expérimentales issues de lignées cellulaires de cancer du poumon A549, LNM-R ou LLC1. L’up-régulation de PD-L1 par le cisplatine fait intervenir la voie de signalisation PI3K/AKT. De plus, l'administration combinée d'anticorps anti-PD-L1 (3 mg / kg) et de cisplatine (1 mg / kg) à des souris portant un carcinome pulmonaire réduisait significativement la croissance tumorale par rapport aux traitements en monothérapie et par rapport aux contrôles. Le cisplatine augmente donc précocément et durablement l'expression de PD-L1 et pourrait donc agir de manière synergique avec un blocage de PD-1 / PD-L1 pour améliorer la réponse tumorale aux traitements. En parallèle, nous avons pu développer une thérapie ciblée anti-neurotensine permettant de bloquer ses effets paracrines stimulants la prolifération, la croissance, et les capacités d’invasion des cellules de tumeurs pulmonaires. Les anticorps anti-neurotensine amélioraient également la sensibilité au cisplatine de tumeurs préalablement résistantes par des mécanismes qui impliquent probablement l’augmentation de l’influx et la diminution de l’efflux de platine au niveau de sa cible intra-nucléaire qu’est l’ADN. L’ensemble de ces résultats apportent du rationnel à la réalisation d’essais cliniques impliquant le cisplatine et visant par différents biais à améliorer l’efficacité de traitements systémiques de cancers broncho-pulmonaires non à petites cellules

impact of Cisplatin on the Expression of Immune Check-Point PD-1/PD-L1 in Non Small Cell Lung Carcinoma

Malgré les nombreux progrés réalisés ces dernières années dans la prise en charge thérapeutique du cancer broncho-pulmonaire, cette pathologie reste la première cause de décès lié au cancer dans le monde. L’enjeu majeur pour cette maladie est donc de développer de nouveaux traitements et d’optimiser l’utilisation des drogues existantes, en particulier les sels de platine. Les protocoles combinant des inhibiteurs de points de contrôle immunitaire avec des sels de platine est actuellement en plein essor malgré un certain manque en études précliniques. Dans ce travail, j’ai cherché à évaluer l'impact du cisplatine sur l'expression de PD-L1 en analysant des patients ayant reçu une chimiothérapie néo-adjuvante à base de cisplatine. Le traitement d'induction augmentait considérablement le marquage PD-L1 des cellules tumorales et immunitaires du microenvironnement. Vingt-deux patients présentaient une variation positive du pourcentage de cellules tumorales PD-L1+ après chimiothérapie néoadjuvante; dont 9 (23,1%) passant de <50% à ≥50% des cellules tumorales marquées. Nous avons également confirmé la régulation positive de PD-L1 par le cisplatine, tant au niveau de l'ARNm qu’au niveau protéique, in-vitro et in-vivo sur des souris nude et des souris immunocompétentes greffées par des tumeurs expérimentales issues de lignées cellulaires de cancer du poumon A549, LNM-R ou LLC1. L’up-régulation de PD-L1 par le cisplatine fait intervenir la voie de signalisation PI3K/AKT. De plus, l'administration combinée d'anticorps anti-PD-L1 (3 mg / kg) et de cisplatine (1 mg / kg) à des souris portant un carcinome pulmonaire réduisait significativement la croissance tumorale par rapport aux traitements en monothérapie et par rapport aux contrôles. Le cisplatine augmente donc précocément et durablement l'expression de PD-L1 et pourrait donc agir de manière synergique avec un blocage de PD-1 / PD-L1 pour améliorer la réponse tumorale aux traitements. En parallèle, nous avons pu développer une thérapie ciblée anti-neurotensine permettant de bloquer ses effets paracrines stimulants la prolifération, la croissance, et les capacités d’invasion des cellules de tumeurs pulmonaires. Les anticorps anti-neurotensine amélioraient également la sensibilité au cisplatine de tumeurs préalablement résistantes par des mécanismes qui impliquent probablement l’augmentation de l’influx et la diminution de l’efflux de platine au niveau de sa cible intra-nucléaire qu’est l’ADN. L’ensemble de ces résultats apportent du rationnel à la réalisation d’essais cliniques impliquant le cisplatine et visant par différents biais à améliorer l’efficacité de traitements systémiques de cancers broncho-pulmonaires non à petites cellules.Despite many advances in the recent years in the therapeutic management of bronchopulmonary cancer, it remains the leading cause of death linked to cancer in the world. The major challenge for this disease is therefore to develop new treatments and optimize the use of existing drugs, in particular platinum salts. The number of clinical protocols testing combined therapies including immune check-point inhibitors and platinum salts is currently increasing in lung cancer treatment, however preclinical studies and rationale are often lacking. Here, we evaluated the impact of cisplatin treatment on PD-L1 expression analyzing the clinicopathological characteristics of patients who received cisplatin-based neoadjuvant chemotherapy followed by surgery and showed that cisplatin-based induction treatment significantly increased PD-L1 staining in both tumor and immune cells from the microenvironment. Twenty-two patients exhibited positive PD-L1 staining variation after neoadjuvant chemotherapy; including 9 (23.1%) patients switching from <50% to ≥50% of stained tumor-cells. We also confirmed the up-regulation of PD-L1 by cisplatin, at both RNA and protein levels, in nude and immunocompetent mice bearing tumors grafted with A549, LNM-R, or LLC1 lung cancer cell lines. Up-regulation of PD-L1 by cisplatin involved the PI3K / AKT signaling pathway.The combined administration of anti-PD-L1 antibodies (3mg/kg) and cisplatin (1mg/kg) to mice harboring lung carcinoma significantly reduced tumor growth compared to single agent treatments and controls. Overall, these results suggest that cisplatin treatment could synergize with PD-1/PD-L1 blockade to increase the clinical response, in particular through early and sustainable enhancement of PD-L1 expression. Simultaneously, we were able to develop a targeted anti-neurotensin therapy to block its paracrine effects which stimulate proliferation, growth, and metastatic potential of lung tumor cells. Anti-neurotensin antibodies also improved the sensitivity to cisplatin of previously resistant tumors by mechanisms which probably involve increased influx and decreased efflux of platinum at the intra-nuclear level where resides its target DNA. All of these results provide a rationale for carrying out clinical trials involving cisplatin and aiming, by various ways, to improve the effectiveness of systemic treatments for non-small cell broncho-pulmonary cancers

Extracellular Citrate and Cancer Metabolism-Letter

International audienc

ATP citrate lyase: A central metabolic enzyme in cancer

International audienceACLY links energy metabolism provided by catabolic pathways to biosynthesis. ACLY, which has been found to be overexpressed in many cancers, converts citrate into acetyl-CoA and OAA. The first of these molecules supports protein acetylation, in particular that of histone, and de novo lipid synthesis, and the last one sustains the production of aspartate (required for nucleotide and polyamine synthesis) and the regeneration of NADPH,H+(consumed in redox reaction and biosynthesis). ACLY transcription is promoted by SREBP1, its activity is stabilized by acetylation and promoted by AKT phosphorylation (stimulated by growth factors and glucose abundance). ACLY plays a pivotal role in cancer metabolism through the potential deprivation of cytosolic citrate, a process promoting glycolysis through the enhancement of the activities of PFK 1 and 2 with concomitant activation of oncogenic drivers such as PI3K/AKT which activate ACLY and the Warburg effect in a feed-back loop. Pending the development of specific inhibitors and tailored methods for identifying which specific metabolism is involved in the development of each tumor, ACLY could be targeted by inhibitors such as hydroxycitrate and bempedoic acid. The administration of citrate at high level mimics a strong inhibition of ACLY and could be tested to strengthen the effects of current therapies

Citrate targets FBPase and constitutes an emerging novel approach for cancer therapy

Abstract Gao-Min Liu and Yao-Ming Zhang recently published a review entitled «Targeting FBPase is an emerging novel approach for cancer therapy» (Liu and Zhang in Cancer Cell Int 18:36, 2018). In this paper, the authors highlighted how the down regulation or inactivation of FBPase, a rate limiting enzyme of gluconeogenesis, can promote the Warburg effect and cancer growth. In contrast, activation of this enzyme demonstrates anti-cancer effects and may appear as emerging novel approach for cancer therapy. Among the potential activators of FBP listed by Liu and Zhang, citrate was surprisingly not mentioned although it is an activator of FBPase, also demonstrating various anti-cancer effects in pre-clinical studies. Thus, citrate should be tested as a new therapeutic strategy, in particular in clinical studies

Updated Prognostic Factors in Localized NSCLC

Lung cancer is the most common cause of cancer mortality worldwide, and non-small cell lung cancer (NSCLC) represents 80% of lung cancer subtypes. Patients with localized non-small cell lung cancer may be considered for upfront surgical treatment. However, the overall 5-year survival rate is 59%. To improve survival, adjuvant chemotherapy (ACT) was largely explored and showed an overall benefit of survival at 5 years &lt; 7%. The evaluation of recurrence risk and subsequent need for ACT is only based on tumor stage (TNM classification); however, more than 25% of patients with stage IA/B tumors will relapse. Recently, adjuvant targeted therapy has been approved for EGFR-mutated resected NSCLC and trials are evaluating other targeted therapies and immunotherapies in adjuvant settings. Costs, treatment duration, emergence of resistant clones and side effects stress the need for a better selection of patients. The identification and validation of prognostic and theranostic markers to better stratify patients who could benefit from adjuvant therapies are needed. In this review, we report current validated clinical, pathological and molecular prognosis biomarkers that influence outcome in resected NSCLC, and we also describe molecular biomarkers under evaluation that could be available in daily practice to drive ACT in resected NSCLC

The key role of Warburg effect in SARS-CoV-2 replication and associated inflammatory response

International audienc