Abstract: Monoclonal antibodies directed to ceramide that inhibit apoptosis are disclosed. Humanized and scFv versions of the antibodies are also disclosed. Methods for prevention or treatment of apoptosis in a subject by administration of the anti-ceramide antibodies are disclosed.

Abstract: The present disclosure provides compositions of anti-ceramide antibodies and antigen-binding fragments thereof. The disclosure further provides methods of preventing or inhibiting cell death in a subject in need thereof comprising administering the anti-ceramide antibodies or antigen-binding fragments to a subject. The subject in need thereof may suffer from an autoimmune disease, GI syndrome, or GvHD.

Abstract: Disclosed is a method for enhancing tumor response to chemotherapy, the method comprising administering a short-acting anti-angiogenic agent (AAA) capable of activating ASMase to a subject afflicted with a solid tumor, and thereby creating a time interval of increased susceptibility of said tumor to one or more chemotherapeutic agents, followed by administration of at least one chemotherapeutic agent within the interval. The interval can be defined in terms of a short-duration activation of ASMase signaling by the AAA. Disclosed are also methods for predicting the tumor response in a patient afflicted with a solid tumor to a chemotherapeutic agent, using as an indicator of the response ASMase level or activity (or ceramide level) in the patient following the administration of the chemotherapeutic agent to the patient, or dynamic IVIM based DW-MRI to measure perfusion alterations following administration of the chemotherapeutic agent.

Abstract: The present disclosure provides methods of treating diabetic retinopathy and ocular inflammatory diseases with anti-ceramide antibodies and antibody fragments. Also provided are methods for treating subjects who have previously received treatment for diabetic retinopathy. In some embodiments, the disclosure further provides methods of treating diabetic retinopathy with a single dose of an anti-ceramide antibody or antigen-binding fragment thereof.

Abstract: The present disclosure provides methods and systems for treating tumors with radiotherapy, wherein a first dose of radiation is administered to a first sub-volume of the tumor and a second dose of radiation is administered to a second sub-volume of the tumor.

Abstract: Monoclonal antibodies directed to ceramide that inhibit apoptosis are disclosed. Humanized and scFv versions of the antibodies are also disclosed. Methods for prevention or treatment of apoptosis in a subject by administration of the anti-ceramide antibodies are disclosed.

Abstract: Disclosed is a method for enhancing tumor response to chemotherapy, the method comprising administering a short-acting anti-angiogenic agent (AAA) capable of activating ASMase to a subject afflicted with a solid tumor, and thereby creating a time interval of increased susceptibility of said tumor to one or more chemotherapeutic agents, followed by administration of at least one chemotherapeutic agent within the interval. The interval can be defined in terms of a short-duration activation of ASMase signaling by the AAA. Disclosed are also methods for predicting the tumor response in a patient afflicted with a solid tumor to a chemotherapeutic agent, using as an indicator of the response ASMase level or activity (or ceramide level) in the patient following the administration of the chemotherapeutic agent to the patient, or dynamic IVIM based DW-MRI to measure perfusion alterations following administration of the chemotherapeutic agent.

Abstract: The present disclosure provides methods of treating diabetic retinopathy and ocular inflammatory diseases with anti-ceramide antibodies and antibody fragments.

Abstract: The present disclosure provides methods of treating diabetic retinopathy and ocular inflammatory diseases with anti-ceramide antibodies and antibody fragments.

Abstract: Disclosed is a method for enhancing tumor response to chemotherapy, the method comprising administering a short-acting anti-angiogenic agent (AAA) capable of activating ASMase to a subject afflicted with a solid tumor, and thereby creating a time interval of increased susceptibility of said tumor to one or more chemotherapeutic agents, followed by administration of at least one chemotherapeutic agent within the interval. The interval can be defined in terms of a short-duration activation of ASMase signaling by the AAA. Disclosed are also methods for predicting the tumor response in a patient afflicted with a solid tumor to a chemotherapeutic agent, using as an indicator of the response ASMase level or activity (or ceramide level) in the patient following the administration of the chemotherapeutic agent to the patient, or dynamic IVIM based DW-MRI to measure perfusion alterations following administration of the chemotherapeutic agent.

Abstract: Monoclonal antibodies directed to ceramide that inhibit apoptosis are disclosed. Humanized and scFv versions of the antibodies are also disclosed. Methods for prevention or treatment of apoptosis in a subject by administration of the anti-ceramide antibodies are disclosed.

Abstract: Monoclonal antibodies directed to ceramide that inhibit apoptosis are disclosed. Humanized and scFv versions of the antibodies are also disclosed. Methods for prevention or treatment of apoptosis in a subject by administration of the anti-ceramide antibodies are disclosed.

Abstract: Disclosed is a method for enhancing tumor response to chemotherapy, the method comprising administering a short-acting anti-angiogenic agent (AAA) capable of activating ASMase to a subject afflicted with a solid tumor, and thereby creating a time interval of increased susceptibility of said tumor to one or more chemotherapeutic agents, followed by administration of at least one chemotherapeutic agent within the interval. The interval can be defined in terms of a short-duration activation of ASMase signaling by the AAA. Disclosed are also methods for predicting the tumor response in a patient afflicted with a solid tumor to a chemotherapeutic agent, using as an indicator of the response ASMase level or activity (or ceramide level) in the patient following the administration of the chemotherapeutic agent to the patient, or dynamic IVIM based DW-MRI to measure perfusion alterations following administration of the chemotherapeutic agent.

Abstract: Based on the observation that the application of small amounts of exogenous acid sphingomyelinase to generate endogenous ceramide, or provision of exogenous long-chain natural C16-ceramide resulted in rapid translocation of vacuolar daunorubicin into the nucleus in multi-drug resistant (MDR) cells, the present invention relates to a nano-liposomal preparation that includes C16-ceramide. Exposure of MDR cells to the C16:0 ceramide-based nanoliposomes provide a mechanism to reverse MDR in chemoresistant cells and tumors, by inducing rapid translocation of chemotherapeutic agent from cytoplasmic vesicles to the nucleus.

Abstract: Disclosed is a method for enhancing tumor response to chemotherapy, the method comprising administering a short-acting anti-angiogenic agent (AAA) capable of activating ASMase to a subject afflicted with a solid tumor, and thereby creating a time interval of increased susceptibility of said tumor to one or more chemothcrapcutic agents, followed by administration of at least one chemotherapeutic agent within the interval. The interval can be defined in terms of a short-duration activation of ASMase signaling by the AAA. Disclosed are also methods for predicting the tumor response in a patient afflicted with a solid tumor to a chemotherapeutic agent, using as an indicator of the response ASMase level or activity (or ceramide level) in the patient following the administration of the chemotherapeutic agent to the patient, or dynamic IVIM based DW-MRI to measure perfusion alterations following administration of the chemotherapeutic agent.

Abstract: Monoclonal antibodies directed to ceramide that inhibit apoptosis are disclosed. Humanized and scFv versions of the antibodies are also disclosed. Methods for prevention or treatment of apoptosis in a subject by administration of the anti-ceramide antibodies are disclosed.

Abstract: Based on the observation that the application of small amounts of exogenous acid sphingomyelinase to generate endogenous ceramide, or provision of exogenous long-chain natural C16-ceramide resulted in rapid translocation of vacuolar daunorubicin into the nucleus in multi-drug resistant (MDR) cells, the present invention relates to a nano-liposomal preparation that includes C16-ceramide. Exposure of MDR cells to the C16:0 ceramide-based nanoliposomes provide a mechanism to reverse MDR in chemoresistant cells and tumors, by inducing rapid translocation of chemotherapeutic agent from cytoplasmic vesicles to the nucleus.

Abstract: We have discovered that administering anti-ceramide antibody treats and prevents an array of diseases mediated by cytolytic T lymphocyte (CTLs)-induced killing and by damage to endothelial microvasculture, including radiation-induced GI syndrome, Graft vs. Host diseases, inflammatory diseases and autoimmune diseases. We have also discovered new anti-ceramide monoclonal antibodies, that have therapeutic use preferably in humanized form to treat or prevent these diseases.

Abstract: We have discovered that administering anti-ceramide antibody treats and prevents an array of diseases mediated by cytolytic T lymphocyte (CTLs)-induced killing and by damage to endothelial microvasculture, including radiation-induced GI syndrome, Graft vs. Host diseases, inflammatory diseases and autoimmune diseases. We have also discovered new anti-ceramide monoclonal antibodies, that have therapeutic use preferably in humanized form to treat or prevent these diseases.

Abstract: The present invention relates to methods and compositions for the specific inhibition of kinase suppressor of Ras (KSR). In particular, the invention provides genetic approaches and nucleic acids for the specific inhibition of KSR, particularly of KSR expression. The invention relates to antisense oligonucleotides and the expression of nucleic acid which is substantially complementary to KSR RNA. Oligonucleotide and nucleic acid compositions are provided. The invention provides methods to inhibit KSR, including inhibition of KSR expression. Methods for blocking gfRas mediated tumorigenesis, metastasis, and for cancer therapy are provided. Methods for conferring radiosensitivity to cells are also provided.