Patent classifications
A61K39/00118
MESOPOROUS SILICA COMPOSITIONS COMPRISING INFLAMMATORY CYTOKINES FOR MODULATING IMMUNE RESPONSES
A composition comprising mesoporous silica rods comprising an immune cell recruitment compound and an immune cell activation compound, and optionally comprising an antigen such as a tumor lysate. The composition is used to elicit an immune response to a vaccine antigen.
ANTIBODIES, PHARMACEUTICAL COMPOSITIONS AND USES THEREOF
The present invention provides antibodies or the antigen-binding portion thereof, that bind to stage-specific embryonic antigen 3 (SSEA-3) antigen. Also disclosed herein are pharmaceutical compositions and methods for the inhibition of cancer cells in a subject in need thereof. The pharmaceutical compositions include an antibody or an antigen-binding portion thereof and at least one pharmaceutically acceptable carrier.
Cancer immunotherapy by immune activation or immune modulation via Globo series antigens
The disclosure provides a method of immunotherapy for a cancer patient, comprises administering vaccines against Globo series antigens (i.e., Globo H, Stage-specific embryonic antigen 3 “SSEA3” and Stage-specific embryonic antigen 4 “SSEA4”). Specifically, the method comprises administering Globo H-KLH (OBI-822) in patients with Metastatic Breast Cancer. The disclosure also provides a method of comprises selecting a cancer patient who is suitable as treatment candidate for immunotherapy. In addition, the disclosure provides therapeutic agents, including monoclonal antibodies (mAbs) that bind specifically to Globo series antigens and related biomarkers useful in focusing such therapeutic and diagnostic regimens.
METHODS AND COMPOSITIONS FOR TREATING CANCER WITH IMMUNE CELLS
The invention provides methods or compositions for treating cancer using an immune cell, e.g, a T-cell, e.g., a CAR T-cell, optionally in combination with a superantigen conjugate. The invention also provides methods for making immune cells, e.g, T-cells, e.g, CAR T-cells, for use in the treatment of cancer.
Chimeric antigen receptors that bind to SSEA4 and uses thereof
An isolated nucleic acid that contains a nucleotide sequence that encodes the polypeptide of SEQ ID NO: 3. The polypeptide of SEQ ID NO: 3 specifically binds to stage-specific embryonic antigen 4 (SSEA4). Also disclosed is a recombinant cell comprising the isolated nucleic acid described above, a viral vector containing the above isolated nucleic acid, and an isolated polypeptide including the sequence of SEQ ID NO: 3. Provided as well is a chimeric antigen receptor (CAR) that includes a single chain Fv having the sequence of SEQ ID NO: 3 and specifically binding to SSEA4. Moreover, a method is disclosed for treating a tumor by transducing in vitro the T cells of a subject having a tumor expressing SSEA4 with a vector that encodes the CAR, expanding the transduced T cells, and infusing the expanded transduced T cells into the subject, whereby an anti-tumor T cell response is raised.
Immunogenic/therapeutic glycan compositions and uses thereof
The present disclosure encompasses immunogenic/therapeutic compositions including Globo series antigens (SSEA-4, Globo H or SSEA-3) glycoconjugates and therapeutic adjuvants (OBI-821 or OBI-834) as well as methods of making and using the same to treat proliferative diseases such as cancer. The therapeutic conjugates include an antigen linked to a carrier. In particular, the therapeutic conjugates include a SSEA-4, Globo H or SSEA-3 moiety and a KLH moiety subunit linked via a linker. The therapeutic compositions are in part envisaged to act as cancer vaccines (single valent, bi-valent or tri-valent vaccines) for boosting the body's natural ability to protect itself, through the immune system from dangers posed by damaged or abnormal cells such as cancer cells. Exemplary immune response can be characterized by reduction of the severity of disease, including but not limited to, prevention of disease, delay in onset of disease, decreased severity of symptoms, decreased morbidity and delayed mortality.
TUMOR ANTIGEN PEPTIDE
The purpose of the present invention is to provide: a detection agent for specifically detecting a cancer stem cell; a tumor antigen peptide specifically presented by cancer stem cells; a medicinal composition useful in preventing and/or treating cancer, said medicinal composition comprising the aforementioned tumor antigen peptide as an active ingredient; a method for screening the tumor antigen peptide; etc. To achieve the above-mentioned purpose, provided are: peptides represented by Y.sub.O-X.sub.O-Z.sub.O; a polyepitope peptide consisting of a plurality of epitope peptides connected together, said polyepitope peptide containing at least one of the above-mentioned peptides as one of the epitope peptides; a polynucleotide encoding the aforementioned peptides and/or polyepitope peptide; a medicinal composition comprising the same as an active ingredient; a prophylactic and/or therapeutic agent for cancer characterized by inducing CTL; etc.
Methods and compositions for treating cancers
The inventors provide a new therapeutic strategy to treat cancers expressing embryonic antigens. Accordingly, the present invention relates to a method of treating a subject suffering from a cancer comprising a step of administration simultaneously, separately or sequentially to said subject a therapeutically amount of i) a population of derived engineered fetal stem cells carrying cancer associated fetal neo-antigen and ii) a compound selected from a group which activates immune response, as a combined preparation.
CANCER IMMUNOTHERAPY BY IMMUNE ACTIVATION OR IMMUNE MODULATION VIA GLOBO SERIES ANTIGENS
The disclosure provides a method of immunotherapy for a cancer patient, comprises administering vaccines against Globo series antigens (i.e., Globo H, Stage-specific embryonic antigen 3 “SSEA3” and Stage-specific embryonic antigen 4 “SSEA4”). Specifically, the method comprises administering Globo H-KLH (OBI-822) in patients with Metastatic Breast Cancer. The disclosure also provides a method of comprises selecting a cancer patient who is suitable as treatment candidate for immunotherapy. In addition, the disclosure provides therapeutic agents, including monoclonal antibodies (mAbs) that bind specifically to Globo series antigens and related biomarkers useful in focusing such therapeutic and diagnostic regimens.
XENOGENIC NORMAL TISSUE-DERIVED VACCINES FOR BREAKING THE IMMUNE TOLERANCE TO TUMOR-ASSOCIATED, ANTIGENS
Disclosed is an antitumor vaccine including testicular and fetal tissue-derived components. Cell preparations are prepared from normal tissues harvested directly from animals. Such vaccines may be used in the treatment and prevention of different cancers. For example, a vaccine consisting of glutaraldehyde-treated cells prepared from sheep testis and fetal lung has been found to be effective in inducing antitumor cell-mediated responses, as well as in prolonging the survival of mice with lung cancer.