Project description:B7-H3 (also known as CD276) is widely expressed on the surface of a variety of malignancies solid tumors, while it rarely or even doesn’t express on normal tissues. Therefore, B7-H3 is an ideal target for chimeric antigen receptor (CAR) T cells therapy. TAA06 injection is a CAR T injection targeting B7-H3. This is a phase I clinical study with the primary objective of evaluating the safety and tolerability of TAA06 injection in subjects with TAA06-positive advanced solid tumors. The secondary objectives are as follows: to evaluate the distribution, proliferation and persistence of B7-H3-targeted CAR T cells after injection of TAA06 in subjects; to preliminarily evaluate the efficacy of TAA06 injection in subjects with TAA06-positive advanced solid tumor.

Project description:Abstract. The use of large animal spontaneous models of solid cancers, such as dogs with osteosarcoma (OS), can help develop new cancer immunotherapy approaches, including chimeric antigen receptor (CAR) T cells. Therefore, the goal of the present study was to generate canine CAR T cells targeting the B7-H3 (CD276) co-stimulatory molecule overexpressed by several solid cancers, including OS and glioma in both humans and dogs, and to assess their ability to recognize B7-H3 expressed by canine OS cell lines or by canine tumors in xenograft models. A second objective was to determine whether a novel dual CAR that expressed a chemokine receptor together with the B7-H3 CAR improved the activity of the canine CAR T cells. Therefore, in the studies reported here we examined B7-H3 expression by canine OS tumors, evaluated target engagement by canine B7-H3 CAR T cells in vitro, and compared the relative effectiveness of B7-H3 CAR T cells versus B7-H3-CXCR2 dual CAR T cells in canine xenograft models. We found that most canine OS tumors expressed high levels of B7-H3, whereas levels were undetectable on normal dog tissues. In vitro, both B7-H3 CAR T cells demonstrated activation and OS-specific target killing in vitro, but there was significantly greater cytokine production by B7-H3-CXCR2 CAR T cells. In canine OS xenograft models, little antitumor activity was generated by B7-H3 CAR T cells, whereas B7-H3-CXCR2 CAR T cells significantly inhibited tumor growth, inducing complete tumor elimination in most treated mice. These findings indicated therefore that addition of a chemokine receptor could significantly improve the anti-tumor activity of canine B7-H3 CAR T cells, and that evaluation of this new dual CAR construct in dogs with primary or metastatic OS is warranted since such studies could provide a critical and realistic validation of the chemokine receptor concept.

Project description:Analysis of mouse ovarian cancer cell lines HM-1 and ID8, and HM-1 tumors inoculated to B6C3F1 mice with B7-H3 (Cd276) knockout (KO) by CRISPR-Cas9. We identified B7-H3 expression is upregulated in IFN-γ–low, PD-L1–low non-immunoreactive tumors of high grade serous ovarian cancer. We explored the influence of B7-H3 on immune evasion outside of its direct regulatory function on target cells by generating B7-H3 knockout cell lines and tumors in syngeneic mouse models.

Project description:B7-H3 (CD276), part of the B7 superfamily, has been shown to play an immunomodulatory role, however its regulation, receptor, and mechanism of action remain unclear. Protein levels of B7-H3 have been previously shown to relate to prostate cancer outcomes and currently, humanized monoclonal antibodies are being investigated for clinical therapeutic use (enoblituzumab, MGA271, Macrogenics). Here we use genomic expression data to examine the relationship of B7-H3 to prostate cancer clinical characteristics and molecular profile.

Project description:Immune checkpoints are often expressed on tumor cells; it remains a prevailing need to identify the mechanisms underlying their regulation and therapeutic benefit. The immune checkpoint molecule B7-H3 is upregulated in many human tumors, including those with high mechanistic/mammalian target of rapamycin complex (mTORC1) activity. However, its role in tumor immunity and the impact of B7-H3-targeted therapy on the tumor immune microenvironment are largely uncharacterized. Here, we used a syngeneic murine model of tuberous sclerosis complex (TSC), a model of mTORC1 hyperactivity, to assess the mechanisms by which B7-H3 remodels the tumor microenvironment. We performed gene and protein expression profiling analysis using data generated from CITE-seq of infiltrating CD3+ T cells isolated by FACS from subcutaneous B7-H3 knockdown and control TSC2-deficient 105K tumors.

Project description:A2780 ovarian cancer cells and a cisplatin resistant derivate of A2780 cells, obtained from ECACC, UK, No. 93112519 [A2780] and No. 93112517 [A2780 cis] were seeded out in T-75 flasks at a density of 2x106 for A2780sens and 3x106 for A2780cis cells in 15 ml of medium and preincubated overnight. Medium was removed and 15 ml fresh medium (37M-0C) with different concentrations of cisplatin, liposomal cisplatin or empty liposomes were added and incubated for 72 h at 37M-0C in a 5% CO2 incubator. In case of A2780sens cells, 1.72 M-5M cisplatin (IC50 concentration) and in case of A2780cis cells 8.94 M-5M cisplatin (IC50 concentration) were added. Liposomal formulations contained equal cisplatin concentrations. Empty liposomes were added in the same concentration as the liposomal cisplatin, to analyze the impact of liposomal lipids (A2780sens: 0.80M-5mol lipid, A2780cis: 4.15 M-5mol lipid). After incubation, medium was removed and cells were washed thrice with 10 ml PBS. 1 ml RLT-buffer was added and cells lysates were stored at -80M-0C until RNA extraction.

Project description:To investigate the effect of PAX3-FOXO1 and B7-H3 in rhabdomyosarcoma, Rh-30 (PAX3-FOXO1 positive rhabdomyosarcoma cell line) was transfected by siPAX3-FOXO1 or siB7-H3. After knockdown, total RNA was extracted and analyzed. As a result, some genes and pathways, such as chemotaxis, differentiation, and INF-gamma production were comonnly effected by PAX3-FOXO1 and B7-H3.

Project description:Immune checkpoints are often expressed on tumor cells; it remains a prevailing need to identify the mechanisms underlying their regulation and therapeutic benefit. The immune checkpoint molecule B7-H3 is upregulated in many human tumors, including those with high mechanistic/mammalian target of rapamycin complex (mTORC1) activity. Still, its role in tumor immunity and the impact of B7-H3-targeted therapy on the tumor immune microenvironment are largely uncharacterized in mTORC1-hyperactive tumors. Here, we used a syngeneic murine model of tuberous sclerosis complex (TSC), a model of mTORC1 hyperactivity, to assess the mechanisms by which B7-H3 remodels the tumor microenvironment. We performed gene expression profiling analysis using data generated from RNA-seq of bulk tumors from subcutaneous B7-H3 knockdown and control TSC2-deficient 105K cells or sorted tumor cells isolated by MACS mouse tumor cell isolation kit (Miltenyi Biotec).

Project description:RNA-Seq of cellular and extracellular samples from DKO-1 and Gli36 cell lines. The distribution of extracellular RNA between microvesicles, and crude small extracellular vesicular vesicles fractionated based on flotation density in ioxdixanol is distinct between the different extracellular compartments.

Project description:We have employed mRNA microarray expression profiling as a discovery platform to identify genes with the potential to explain how small dose SAHA promoted the cell toxicity of B7-H3 CAR-T cells. B7-H3 CAR-T cells were treated by 0.5μM SAHA for 5 days, and with control samples.