Your search keyword '"Chaba K"' showing total 9 results

1. Immune effectors responsible for the elimination of hyperploid cancer cells.

Author

Aranda F, Chaba K, Bloy N, Garcia P, Bordenave C, Martins I, Stoll G, Tesniere A, Kroemer G, and Senovilla L

Abstract

The immune system avoids oncogenesis and slows down tumor progression through a mechanism called immunosurveillance. Nevertheless, some malignant cells manage to escape from immune control and form clinically detectable tumors. Tetraploidy, which consists in the intrinsically unstable duplication of the genome, is considered as a (pre)-cancerous event that can result in aneuploidy and contribute to oncogenesis. We previously described the fact that tetraploid cells can be eliminated by the immune system. Here, we investigate the role of different innate and acquired immune effectors by inoculating hyperploid cancer cells into wild type or mice bearing different immunodeficient genotypes ( Cd1d -/- , FcRn -/- , Flt3l -/- , Foxn1 nu/nu , MyD88 -/- , Nlrp3 - / - , Ighm tm1Cgn , Rag2 -/- ), followed by the monitoring of tumor incidence, growth and final ploidy status. Our results suggest that multiple different immune effectors including B, NK, NKT and T cells, as well as innate immune responses involving the interleukine-1 receptor and the Toll-like receptor systems participate to the immunoselection against hyperploid cells. Hence, optimal anticancer immunosurveillance likely involves the contribution of multiple arms of the immune system.

Published

2018

2. The ratio of CD8 + /FOXP3 T lymphocytes infiltrating breast tissues predicts the relapse of ductal carcinoma in situ .

Author

Semeraro M, Adam J, Stoll G, Louvet E, Chaba K, Poirier-Colame V, Sauvat A, Senovilla L, Vacchelli E, Bloy N, Humeau J, Buque A, Kepp O, Zitvogel L, André F, Mathieu MC, Delaloge S, and Kroemer G

Abstract

In a series of 248 tumor samples obtained from image-guided biopsies from patients diagnosed with ductal carcinoma in situ of the breast, we attempted to identify biomarkers that predict microinfiltration at definitive surgery or relapse during follow-up. For this, we used immunohistochemical methods, followed by automated image analyses, to measure the mean diameter of nuclei (which correlates with ploidy), the phosphorylation of eukaryotic initiation factor 2α (eIF2α, which reflects endoplasmic reticulum stress) as well as the density and ratio of CD8 + cytotoxic T lymphocytes and FOXP3 + regulatory T cells. The median nuclear diameter of malignant cells correlated with eIF2α phosphorylation (in cancerous tissue), which in turn correlated with the density of the CD8 + infiltrate and the CD8 + /FOXP3 ratio (both in cancerous and the adjacent non-cancerous parenchyma). Neither microinfiltration nor lymph node involvement was associated with the probability of relapse. Both correlated positively with the CD8 + /FOXP3 ratio in the malignant area. In contrast, relapse was associated with a paucity of the CD8 + infiltrate as well as an unfavorable CD8 + /FOXP3 ratio, both in malignant and non-malignant parenchyma. The combined analysis of the CD8 + /FOXP3 ratio in cancerous and non-cancerous tissues revealed a significant impact of their interaction on the probability of relapse, but not on the presence of microinfiltration or lymph node metastasis. Altogether, these results support the idea of an immunosurveillance system that determines the risk of relapse in ductal carcinoma in situ of the breast.

Published

2016

3. The presence of LC3B puncta and HMGB1 expression in malignant cells correlate with the immune infiltrate in breast cancer.

Author

Ladoire S, Enot D, Senovilla L, Ghiringhelli F, Poirier-Colame V, Chaba K, Semeraro M, Chaix M, Penault-Llorca F, Arnould L, Poillot ML, Arveux P, Delaloge S, Andre F, Zitvogel L, and Kroemer G

Subjects

Breast Neoplasms immunology, Female, Forkhead Transcription Factors metabolism, Humans, T-Lymphocytes, Cytotoxic metabolism, Autophagy physiology, Breast Neoplasms metabolism, HMGB1 Protein metabolism, Microtubule-Associated Proteins metabolism

Abstract

Several cell-intrinsic alterations have poor prognostic features in human breast cancer, as exemplified by the absence of MAP1LC3B/LC3B (microtubule-associated protein 1 light chain 3 β)-positive puncta in the cytoplasm (which indicates reduced autophagic flux) or the loss of nuclear HMGB1 expression by malignant cells. It is well established that breast cancer is under strong immunosurveillance, as reflected by the fact that scarce infiltration of the malignant lesion by CD8(+) cytotoxic T lymphocytes or comparatively dense infiltration by immunosuppressive cell types (such as FOXP3(+) regulatory T cells or CD68(+) tumor-associated macrophages), resulting in low CD8(+):FOXP3(+) or CD8(+):CD68(+) ratios, has a negative prognostic impact. Here, we reveal the surprising finding that cell-intrinsic features may influence the composition of the immune infiltrate in human breast cancer. Thus, the absence of LC3B puncta is correlated with intratumoral (but not peritumoral) infiltration by fewer CD8(+) cells and more FOXP3(+) or CD68(+) cells, resulting in a major drop in the CD8(+):FOXP3(+) or CD8(+):CD68(+) ratios. Moreover, absence of HMGB1 expression in nuclei correlated with a general drop in all immune effectors, in particular FOXP3(+) and CD68(+) cells, both within the tumor and close to it. Combined analysis of LC3B puncta and HMGB1 expression allowed for improved stratification of patients with respect to the characteristics of their immune infiltrate as well as overall and metastasis-free survival. It can be speculated that blocked autophagy in, or HMGB1 loss from, cancer cells may favor tumor progression due to their negative impact on anticancer immunosurveillance.

Published

2016

4. NKp30 isoforms and NKp30 ligands are predictive biomarkers of response to imatinib mesylate in metastatic GIST patients.

Author

Rusakiewicz S, Perier A, Semeraro M, Pitt JM, Pogge von Strandmann E, Reiners KS, Aspeslagh S, Pipéroglou C, Vély F, Ivagnes A, Jegou S, Halama N, Chaigneau L, Validire P, Christidis C, Perniceni T, Landi B, Berger A, Isambert N, Domont J, Bonvalot S, Terrier P, Adam J, Coindre JM, Emile JF, Poirier-Colame V, Chaba K, Rocha B, Caignard A, Toubert A, Enot D, Koch J, Marabelle A, Lambert M, Caillat-Zucman S, Leyvraz S, Auclair C, Vivier E, Eggermont A, Borg C, Blay JY, Le Cesne A, Mir O, and Zitvogel L

Abstract

Despite effective targeted therapy acting on KIT and PDGFRA tyrosine kinases, gastrointestinal stromal tumors (GIST) escape treatment by acquiring mutations conveying resistance to imatinib mesylate (IM). Following the identification of NKp30-based immunosurveillance of GIST and the off-target effects of IM on NK cell functions, we investigated the predictive value of NKp30 isoforms and NKp30 soluble ligands in blood for the clinical response to IM. The relative expression and the proportions of NKp30 isoforms markedly impacted both event-free and overall survival, in two independent cohorts of metastatic GIST. Phenotypes based on disbalanced NKp30B/NKp30C ratio (ΔBC low ) and low expression levels of NKp30A were identified in one third of patients with dismal prognosis across molecular subtypes. This ΔBC low blood phenotype was associated with a pro-inflammatory and immunosuppressive tumor microenvironment. In addition, detectable levels of the NKp30 ligand sB7-H6 predicted a worse prognosis in metastatic GIST. Soluble BAG6, an alternate ligand for NKp30 was associated with low NKp30 transcription and had additional predictive value in GIST patients with high NKp30 expression. Such GIST microenvironments could be rescued by therapy based on rIFN-α and anti-TRAIL mAb which reinstated innate immunity.

Published

2016

5. Biomarkers of immunogenic stress in metastases from melanoma patients: Correlations with the immune infiltrate.

Author

Ladoire S, Senovilla L, Enot D, Ghiringhelli F, Poirier-Colame V, Chaba K, Erdag G, Schaefer JT, Deacon DH, Zitvogel L, Slingluff CL Jr, and Kroemer G

Abstract

Melanoma is known to be under latent immunosurveillance. Here, we studied four biomarkers of immunogenic cell stress and death (microtubule-associated proteins 1A/1B light chain 3B (MAP-LC3B, best known as LC3B)-positive puncta in the cytoplasm as a sign of autophagy; presence of nuclear HMGB1; phosphorylation of eIF2α; increase in ploidy) in melanoma cells, in tissue microarrays (TMA) from metastases from 147 melanoma patients. These biomarkers of immunogenicity were correlated with the density of immune cells infiltrating the metastases and expressing CD3, CD4(+), CD8(+), CD20, CD45, CD56, CD138, CD163, DC-LAMP or FOXP3. LC3B puncta positively correlated with the infiltration of metastases by CD163(+) macrophages, while expression of HMGB1 correlated with infiltration by FOXP3(+) regulatory T cells and CD56(+) lymphocytes. eIF2α phosphorylation was associated with an augmentation of nuclear diameters, reflecting an increase in ploidy. Interestingly, therapeutic vaccination led to a reduction of eIF2α phosphorylation suggestive of immunoselection against cells bearing this sign of endoplasmic reticulum (ER) stress. None of the stress/death-related biomarkers had a significant prognostic impact, contrasting with the major prognostic effect of the ratio of cytotoxic T lymphocytes (CTL) over immunosuppressive FOXP3(+) and CD163(+) cells. Altogether, these results support the idea of a mutual dialog between, on one hand, melanoma cells with their cell-intrinsic stress pathways and, on the other hand, immune effectors. Future work is required to understand the detailed mechanisms of this interaction.

Published

2016

6. Combined evaluation of LC3B puncta and HMGB1 expression predicts residual risk of relapse after adjuvant chemotherapy in breast cancer.

Author

Ladoire S, Penault-Llorca F, Senovilla L, Dalban C, Enot D, Locher C, Prada N, Poirier-Colame V, Chaba K, Arnould L, Ghiringhelli F, Fumoleau P, Spielmann M, Delaloge S, Poillot ML, Arveux P, Goubar A, Andre F, Zitvogel L, and Kroemer G

Subjects

Autophagy genetics, Biomarkers, Tumor metabolism, Breast Neoplasms pathology, Chemotherapy, Adjuvant methods, Female, Gene Expression Regulation, Neoplastic physiology, Humans, Recurrence, Risk Factors, Autophagy physiology, Breast Neoplasms therapy, HMGB1 Protein metabolism, Microtubule-Associated Proteins metabolism

Abstract

In spite of adjuvant chemotherapy, a significant fraction of patients with localized breast cancer (BC) relapse after optimal treatment. We determined the occurrence of cytoplasmic MAP1LC3B/LC3B (microtubule-associated protein 1 light chain 3B)-positive puncta, as well as the presence of nuclear HMGB1 (high mobility group box 1) in cancer cells within surgical BC specimens by immunohistochemistry, first in a test cohort (152 patients) and then in a validation cohort of localized BC patients who all received adjuvant anthracycline-based chemotherapy (1646 patients). Cytoplasmic LC3B(+) puncta inversely correlated with the intensity of SQSTM1 staining, suggesting that a high percentage cells of LC3B(+) puncta reflects increased autophagic flux. After setting optimal thresholds in the test cohort, cytoplasmic LC3B(+) puncta and nuclear HMGB1 were scored as positive in 27.2% and 28.6% of the tumors, respectively, in the validation cohort, while 8.7% were considered as double positive. LC3B(+) puncta or HMGB1 expression alone did not constitute independent prognostic factors for metastasis-free survival (MFS) in multivariate analyses. However, the combined positivity for LC3B(+) puncta and nuclear HMGB1 constituted an independent prognostic factor significantly associated with prolonged MFS (hazard ratio: 0.49 95% confidence interval [0.26-0.89]; P = 0.02), and improved breast cancer specific survival (hazard ratio: 0.21 95% confidence interval [0.05-0.85]; P = 0.029). Subgroup analyses revealed that within patients with poor-prognosis BC, HMGB1(+) LC3B(+) double-positive tumors had a better prognosis than BC that lacked one or both of these markers. Altogether, these results suggest that the combined positivity for LC3B(+) puncta and nuclear HMGB1 is a positive predictor for longer BC survival.

Published

2015

7. Coffee induces autophagy in vivo.

Author

Pietrocola F, Malik SA, Mariño G, Vacchelli E, Senovilla L, Chaba K, Niso-Santano M, Maiuri MC, Madeo F, and Kroemer G

Subjects

Acetylation, Adaptor Proteins, Signal Transducing metabolism, Animals, Female, Liver metabolism, Mechanistic Target of Rapamycin Complex 1, Mice, Inbred C57BL, Multiprotein Complexes metabolism, Muscle, Skeletal metabolism, Myocardium metabolism, Phagosomes metabolism, TOR Serine-Threonine Kinases metabolism, Transcription Factor TFIIH, Transcription Factors metabolism, Autophagy, Coffee metabolism

Abstract

Epidemiological studies and clinical trials revealed that chronic consumption coffee is associated with the inhibition of several metabolic diseases as well as reduction in overall and cause-specific mortality. We show that both natural and decaffeinated brands of coffee similarly rapidly trigger autophagy in mice. One to 4 h after coffee consumption, we observed an increase in autophagic flux in all investigated organs (liver, muscle, heart) in vivo, as indicated by the increased lipidation of LC3B and the reduction of the abundance of the autophagic substrate sequestosome 1 (p62/SQSTM1). These changes were accompanied by the inhibition of the enzymatic activity of mammalian target of rapamycin complex 1 (mTORC1), leading to the reduced phosphorylation of p70(S6K), as well as by the global deacetylation of cellular proteins detectable by immunoblot. Immunohistochemical analyses of transgenic mice expressing a GFP-LC3B fusion protein confirmed the coffee-induced relocation of LC3B to autophagosomes, as well as general protein deacetylation. Altogether, these results indicate that coffee triggers 2 phenomena that are also induced by nutrient depletion, namely a reduction of protein acetylation coupled to an increase in autophagy. We speculate that polyphenols contained in coffee promote health by stimulating autophagy.

Published

2014

8. Antiapoptotic activity of argon and xenon.

Author

Spaggiari S, Kepp O, Rello-Varona S, Chaba K, Adjemian S, Pype J, Galluzzi L, Lemaire M, and Kroemer G

Subjects

Cell Culture Techniques, Cell Line, Tumor, Cytochromes c metabolism, Humans, Microscopy, Fluorescence, Mitoxantrone toxicity, Staurosporine toxicity, Apoptosis drug effects, Argon pharmacology, Cell Survival drug effects, Cytoprotection drug effects, Xenon pharmacology

Abstract

Although chemically non-reactive, inert noble gases may influence multiple physiological and pathological processes via hitherto uncharacterized physical effects. Here we report a cell-based detection system for assessing the effects of pre-defined gas mixtures on the induction of apoptotic cell death. In this setting, the conventional atmosphere for cell culture was substituted with gas combinations, including the same amount of oxygen (20%) and carbon dioxide (5%) but 75% helium, neon, argon, krypton, or xenon instead of nitrogen. The replacement of nitrogen with noble gases per se had no effects on the viability of cultured human osteosarcoma cells in vitro. Conversely, argon and xenon (but not helium, neon, and krypton) significantly limited cell loss induced by the broad-spectrum tyrosine kinase inhibitor staurosporine, the DNA-damaging agent mitoxantrone and several mitochondrial toxins. Such cytoprotective effects were coupled to the maintenance of mitochondrial integrity, as demonstrated by means of a mitochondrial transmembrane potential-sensitive dye and by assessing the release of cytochrome c into the cytosol. In line with this notion, argon and xenon inhibited the apoptotic activation of caspase-3, as determined by immunofluorescence microscopy coupled to automated image analysis. The antiapoptotic activity of argon and xenon may explain their clinically relevant cytoprotective effects.

Published

2013

9. Immunohistochemical detection of cytoplasmic LC3 puncta in human cancer specimens.

Author

Ladoire S, Chaba K, Martins I, Sukkurwala AQ, Adjemian S, Michaud M, Poirier-Colame V, Andreiuolo F, Galluzzi L, White E, Rosenfeldt M, Ryan KM, Zitvogel L, and Kroemer G

Subjects

Animals, Cell Line, Tumor, Disease Models, Animal, Humans, Immunohistochemistry, Mice, Mice, Inbred C57BL, Staining and Labeling, Tissue Array Analysis, Cytoplasm metabolism, Microtubule-Associated Proteins metabolism, Neoplasms metabolism, Neoplasms pathology

Abstract

Autophagy is an evolutionarily conserved catabolic process that involves the entrapment of cytoplasmic components within characteristic vesicles for their delivery to and degradation within lysosomes. Alterations in autophagic signaling are found in several human diseases including cancer. Here, we describe a validated immunohistochemical protocol for the detection of LC3 puncta in human formalin-fixed, paraffin-embedded cancer specimens that can also be applied to mouse tissues. In response to systemic chemotherapy, autophagy-competent mouse tumors exhibited LC3 puncta, which did not appear in mouse cancers that had been rendered autophagy-deficient by the knockdown of Atg5 or Atg7. As compared with normal tissues, LC3 staining was moderately to highly elevated in the large majority of human cancers studied, albeit tumors of the same histological type tended to be highly heterogeneous in the number and intensity of LC3 puncta per cell. Moreover, tumor-infiltrating immune cells often were highly positive for LC3. Altogether, this protocol for LC3 staining appears suitable for the specific detection of LC3 puncta in human specimens, including tissue microarrays. We surmise that this technique can be employed for retrospective or prospective studies involving large series of human tumor samples.

Published

2012