Abstract: The invention relates to gut microbiota profiles associated with response or resistance to treatments with ICB, in particular with anti-PD1 or anti PD-L1 or anti-PD-L2 antibodies. In particular, the invention pertains to a theranostic method for identifying good responders, to whom an anti-PD1 or anti PD-L1 or anti-PD-L2 can be administered, while a pre-treatment based on FMT and/or immunogenic probiotics is recommended to bad responders exhibiting a dysbiosis. In particular, the present invention pertains to Akkermansia muciniphila as the main commensal species distinguishing responders from progressors and its use alone or with E. hirae for the treatment of antibiotics or gut repertoire insufficiency-associated dysbiosis.

Abstract: The present invention provides a compound, preferably a peptide, having the following characteristics: a) consisting of 9 amino acids in a linear arrangement; b) of those 9 amino acids, 5 are cationic and 4 have a lipophilic R group; c) at least one of said 9 amino acids is a non-genetically coded amino acid (e.g. a modified derivative of a genetically coded amino acid); and optionally d) the lipophilic and cationic residues are arranged such that there are no more than two of either type of residue adjacent to one another; and further optionally e) the molecule comprises two pairs of adjacent cationic amino acids and one or two pairs of adjacent lipophilic residues; for use in the treatment of a tumour by combined, sequential or separate administration with an immune checkpoint inhibitor. The present invention further provides pharmaceutical packs or compositions comprising these active agents and methods of treating a tumour comprising administration of these active agents.

Abstract: The invention relates to gut microbiota profiles associated with response or resistance to treatments with ICB, in particular with anti-PD1 or anti PD-L1 or anti-PD-L2 antibodies. In particular, the invention pertains to a theranostic method for identifying good responders, to whom an anti-PD1 or anti PD-L1 or anti-PD-L2 can be administered, while a pre-treatment based on FMT and/or immunogenic probiotics is recommended to bad responders exhibiting a dysbiosis. In particular, the present invention pertains to Akkermansia muciniphila as the main commensal species distinguishing responders from progressors and its use alone or with E. hirae for the treatment of antibiotics or gut repertoire insufficiency-associated dysbiosis.

Abstract: The invention pertains to the use of bacteria selected amongst Alistipes senegalensis, Dorea longicatena and Eubacterium siraeum for inducing immunostimulation in a patient in combination with an anti-cancer immunotherapy with an immune checkpoint inhibitor (ICI) and/or a tyrosine kinase inhibitor (TKI). The invention also relates to methods for assessing the probability that a patient respond to a treatment with an ICI and/or a TKI, based on measuring the relative abundances of immunotolerant bacterial species (Clostridium hathewayi, Clostridium clostridioforme and Clostridium boltae) and/or immunostimulatory bacterial species (Akkermansia muciniphila, Bacteroides salyersiae, Alistipes senegalensis, Dorea longicatena and Eubacterium siraeum) in the patient's gut microbiota.

Abstract: The present invention provides methods for determining if a patient is likely to benefit from a cancer treatment, by determining if said patient has a gut dysbiosis with an over representation of certain bacterial species. The present invention also provides probiotic strains to improve the efficacy of a cancer treatment, especially chemotherapy, in patients in need thereof.

Abstract: The present invention relates to a method for in vitro determining if an individual having a renal cell cancer (RCC) is likely to respond to a treatment with an anti-PD1/PD-L1/PD-L2 Ab-based therapy, based on the analysis of the microbiota present in a stool sample from said individual. Twelve models useful to perform the above method are disclosed, as well as tools designed to easily perform this method.

Abstract: Described herein are methods and compositions for treating cancer and for predicting a subjects' response to combination checkpoint inhibitor therapy.

Abstract: The present invention provides a compound, preferably a peptide, having the following characteristics: a) consisting of 9 amino acids in a linear arrangement; b) of those 9 amino acids, 5 are cationic and 4 have a lipophilic R group; c) at least one of said 9 amino acids is a non-genetically coded amino acid (e.g. a modified derivative of a genetically coded amino acid); and optionally d) the lipophilic and cationic residues are arranged such that there are no more than two of either type of residue adjacent to one another; and further optionally e) the molecule comprises two pairs of adjacent cationic amino acids and one or two pairs of adjacent lipophilic residues; for use in the treatment of a tumour by combined, sequential or separate administration with an immune checkpoint inhibitor. The present invention further provides pharmaceutical packs or compositions comprising these active agents and methods of treating a tumour comprising administration of these active agents.

Abstract: The invention relates to gut microbiota profiles associated with response or resistance to treatments with ICB, in particular with anti-PD1 or anti PD-L1 or anti-PD-L2 antibodies. In particular, the invention pertains to a theranostic method for identifying good responders, to whom an anti-PD1 or anti PD-L1 or anti-PD-L2 can be administered, while a pre-treatment based on FMT and/or immunogenic probiotics is recommended to bad responders exhibiting a dysbiosis. In particular, the present invention pertains to Akkermansia muciniphila as the main commensal species distinguishing responders from progressors and its use alone or with E. hirae for the treatment of antibiotics or gut repertoire insufficieny-associated dysbiosis.

Abstract: The present invention provides a compound, preferably a peptide, having the following characteristics: a) consisting of 9 amino acids in a linear arrangement; b) of those 9 amino acids, 5 are cationic and 4 have a lipophilic R group; c) at least one of said 9 amino acids is a non-genetically coded amino acid (e.g. a modified derivative of a genetically coded amino acid); and optionally d) the lipophilic and cationic residues are arranged such that there are no more than two of either type of residue adjacent to one another; and further optionally e) the molecule comprises two pairs of adjacent cationic amino acids and one or two pairs of adjacent lipophilic residues; for use in the treatment of a tumour by combined, sequential or separate administration with an immune checkpoint inhibitor. The present invention further provides pharmaceutical packs or compositions comprising these active agents and methods of treating a tumour comprising administration of these active agents.

Abstract: The present invention provides a combination comprising at least an oncolytic virus and one or more immune checkpoint modulator(s) for use for the treatment of a proliferative disease such as cancer. It also relates to a kit comprising said oncolytic virus and said one or more immune checkpoint modulator(s) in separate containers. It also concerns a pharmaceutical composition comprising effective amount of said oncolytic virus and said one or more immune checkpoint modulator(s).

Abstract: The present invention provides methods for determining if a patient is likely to benefit from a cancer treatment, by determining if said patient has a gut dysbiosis with an over representation of certain bacterial species. The present invention also provides probiotic strains to improve the efficacy of a cancer treatment, especially chemotherapy, in patients in need thereof.

Abstract: The present invention relates to the field of probiotic adjuvantization of anticancer treatments. In particular, the present invention concerns immunogenic sequences from a prophage present in bacteria identified as efficient adjuvants of cancer treatments. The invention provides bacterial compositions expressing immunogenic sequences from this prophage, immunogenic compositions comprising such sequences and methods using sequences from this prophage, for increasing the anticancer armamentarium.

Abstract: The present invention provides a combination comprising at least an oncolytic virus and one or more immune checkpoint modulator(s) for use for the treatment of a proliferative disease such as cancer. It also relates to a kit comprising an oncolytic virus and one or more immune checkpoint modulator(s) in separate containers. It also concerns a pharmaceutical composition comprising effective amount of an oncolytic virus and one or more immune checkpoint modulator(s).

Abstract: The invention relates to the prognosis and treatment of colon cancer. In particular, the present invention concerns the role of intestinal microbiota in the anticancer immune response elicited by ileal enterocytes succumbing to apoptosis, and provides immunogenic compositions for treating colorectal cancer (CRC), as well as signatures for prognosing CRC evolution.

Abstract: The present invention provides methods for determining if a patient is likely to benefit from a cancer treatment, by determining if said patient has a gut dysbiosis with an over representation of certain bacterial species. The present invention also provides probiotic strains to improve the efficacy of a cancer treatment, especially chemotherapy, in patients in need thereof.

Abstract: The present invention relates to a method of predicting assessing or monitoring the sensitivity of a subject having a cancer to an immunotherapy, and to corresponding kits. The method of predicting, assessing or monitoring the sensitivity of a subject having a tumor to an immunotherapy typically comprises a step a) of determining, in a biological sample from said subject, the presence, absence or expression level of at least one biomarker, for example at least two biomarkers, and when the expression level is determined a step b) of comparing said expression level to reference expression level(s) or to reference expression ratio(s), thereby predicting, assessing or monitoring whether the subject having a tumor is responsive or resistant to the proposed immunotherapy.

Abstract: The present invention relates to the role of the microbiota in the efficacy of cancer treatments with a drug blocking an. immune checkpoint and provides methods and probiotics to improve the efficacy of such a treatment in patients in need thereof. More particularly, the invention pertains to the use of vancomycin or penicillin to modulate the gut microbiota to potentiate the anticancer effects of anti-CTLA4 molecules. B. fragilis or fecal microbial transplantation of a defined composition enriched in immunogenic Bacteroides spp. can also be used as a probiotic to that aim.

Abstract: The present invention provides a compound, preferably a peptide, having the following characteristics: a) consisting of 9 amino acids in a linear arrangement; b) of those 9 amino acids, 5 are cationic and 4 have a lipophilic R group; c) at least one of said 9 amino acids is a non-genetically coded amino acid (e.g. a modified derivative of a genetically coded amino acid); and optionally d) the lipophilic and cationic residues are arranged such that there are no more than two of either type of residue adjacent to one another; and further optionally e) the molecule comprises two pairs of adjacent cationic amino acids and one or two pairs of adjacent lipophilic residues; for use in the treatment of a tumour by combined, sequential or separate administration with an immune checkpoint inhibitor. The present invention further provides pharmaceutical packs or compositions comprising these active agents and methods of treating a tumour comprising administration of these active agents.

Abstract: The present invention relates to a method of assessing, predicting or monitoring the sensitivity of a subject having a tumor or cancer to an immunotherapeutic molecule acting on the subject's T cells, to a method of selecting an appropriate treatment of cancer, to a method of screening or identifying a compound suitable for improving the treatment of a cancer, and to the use of corresponding kits. The method of predicting or monitoring the sensitivity of a subject having a tumor to an immunotherapeutic molecule acting on the subject's T cells typically comprises a step a) of determining, in a biological sample from said subject, the expression level of soluble CD25 (sCD25) and, when the expression level is determined, a step b) of comparing at least said expression level to a reference expression level, thereby assessing whether the subject having a tumor is responsive or resistant to the immunotherapeutic molecule.