Abstract: A primary culture method in which cells contained in a tissue collected from a living body are primary cultured in vitro, in which the cells in the tissue collected from the living body are seeded and cultured on a top surface of a cell structure containing cells constituting a stroma and composed of a single layer or two or more cell layers laminated in the thickness direction.

Abstract: The diagnostic markers that provide novel diagnostic criteria to blastic plasmacytoid dendritic cell neoplasm (BPDCN) has been searched, and the presence of immunoblastoid cytomorphology, 8q24 rearrangement, and MYC expression were established as novel markers for subtyping BPDCN. It has been further found that the inhibitors which directly or indirectly inhibit the expression, functions, or signaling pathways of MYC, such as BET bromodomain-selective inhibitors or aurora kinase inhibitors, are effective in MYC-positive BPDCN, and HDAC inhibitors or BCL2 family protein inhibitors are effective as therapeutic drugs for BPDCN.

Abstract: A primary culture method in which cells contained in a tissue collected from a living body are primary cultured in vitro, in which the cells in the tissue collected from the living body are seeded and cultured on a top surface of a cell structure containing cells constituting a stroma and composed of a single layer or two or more cell layers laminated in the thickness direction.

Abstract: A drug containing, as an active ingredient, a compound represented by ALK inhibitors such as brigatinib, AP26113-analog, and AZD3463 has been found to be effective against a non-small cell lung cancer having a point mutation at C797S in EGFR which has acquired a resistance to chemotherapy agents. Further, the drug used in combination with an anti-EGFR antibody demonstrates a notable suppression effect on the tumor growth. The drug has a potential to be a therapeutic agent effective against a non-small cell lung cancer which is resistant to gefitinib, a first generation therapeutic agent and osimertinib, a third generation therapeutic agent.

Abstract: It is intended to reveal a polynucleotide serving as a novel causative gene of a cancer and, on the basis of this finding, to provide a method for detecting the polynucleotide or a polypeptide encoded thereby, a kit and a primer set for the detection, a method for screening for a substance that inhibits the polypeptide, and a pharmaceutical composition for the treatment of a cancer, containing the inhibiting substance. The detection method of the present invention detects a BRAF fusion protein or a fusion gene encoding the fusion protein, or a PXN or GMDS fusion protein or a fusion gene encoding the fusion protein in a digestive organ-derived sample obtained from a subject.

Abstract: It is intended to reveal a polynucleotide serving as a novel causative gene of a cancer and, on the basis of this finding, to provide a method for detecting the polynucleotide or a polypeptide encoded thereby, a kit and a primer set for the detection, a method for screening for a substance that inhibits the polypeptide, and a pharmaceutical composition for the treatment of a cancer, containing the inhibiting substance. The detection method of the present invention detects a BRAF fusion protein or a fusion gene encoding the fusion protein, or a PXN or GMDS fusion protein or a fusion gene encoding the fusion protein in a digestive organ-derived sample obtained from a subject.

Abstract: A drug containing, as an active ingredient, a compound represented by ALK inhibitors such as brigatinib, AP26113-analog, and AZD3463 has been found to be effective against a non-small cell lung cancer having a point mutation at C797S in EGFR which has acquired a resistance to chemotherapy agents. Further, the drug used in combination with an anti-EGFR antibody demonstrates a notable suppression effect on the tumor growth. The drug has a potential to be a therapeutic agent effective against a non-small cell lung cancer which is resistant to gefitinib, a first generation therapeutic agent and osimertinib, a third generation therapeutic agent.

Abstract: A drug containing, as an active ingredient, a compound represented by ALK inhibitors such as brigatinib, AP26113-analog, and AZD3463 has been found to be effective against a non-small cell lung cancer having a point mutation at C797S in EGFR which has acquired a resistance to chemotherapy agents. Further, the drug used in combination with an anti-EGFR antibody demonstrates a notable suppression effect on the tumor growth. The drug has a potential to be a therapeutic agent effective against a non-small cell lung cancer which is resistant to gefitinib, a first generation therapeutic agent and osimertinib, a third generation therapeutic agent.

Abstract: A primary culture method in which cells contained in a tissue collected from a living body are primary cultured in vitro, in which the cells in the tissue collected from the living body are seeded and cultured on a top surface of a cell structure containing cells constituting a stroma and composed of a single layer or two or more cell layers laminated in the thickness direction.

Abstract: A drug containing, as an active ingredient, a compound represented by ALK inhibitors such as brigatinib, AP26113-analog, and AZD3463 has been found to be effective against a non-small cell lung cancer having a point mutation at C797S in EGFR which has acquired a resistance to chemotherapy agents. Further, the drug used in combination with an anti-EGFR antibody demonstrates a notable suppression effect on the tumor growth. The drug has a potential to be a therapeutic agent effective against a non-small cell lung cancer which is resistant to gefitinib, a first generation therapeutic agent and osimertinib, a third generation therapeutic agent.

Abstract: It is intended to reveal a polynucleotide serving as a novel causative gene of a cancer and, on the basis of this finding, to provide a method for detecting the polynucleotide or a polypeptide encoded thereby, a kit and a primer set for the detection, a method for screening for a substance that inhibits the polypeptide, and a pharmaceutical composition for the treatment of a cancer, containing the inhibiting substance. The detection method of the present invention detects a BRAF fusion protein or a fusion gene encoding the fusion protein, or a PXN or GMDS fusion protein or a fusion gene encoding the fusion protein in a digestive organ-derived sample obtained from a subject.

Abstract: The diagnostic markers that provide novel diagnostic criteria to blastic plasmacytoid dendritic cell neoplasm (BPDCN) has been searched, and the presence of immunoblastoid cytomorphology, 8q24 rearrangement, and MYC expression were established as novel markers for subtyping BPDCN. It has been further found that the inhibitors which directly or indirectly inhibit the expression, functions, or signaling pathways of MYC, such as BET bromodomain-selective inhibitors or aurora kinase inhibitors, are effective in MYC-positive BPDCN, and HDAC inhibitors or BCL2 family protein inhibitors are effective as therapeutic drugs for BPDCN.