Abstract: Provided herein are methods for culturing cells, including stimulating or expanding (proliferating), a plurality of cells in a composition of cells such as a population of lymphocytes. In some aspects, provided methods and reagents for the culturing, such as stimulation or expansion (proliferation), of cell populations involve binding of agents to a molecule on the surface of the cells, thereby providing one or more signals to the cells. In some cases, the reagents are multimerization reagents and the one or more agents are multimerized by reversibly binding to the reagent. In some aspects, the multimerized agent can provide for expansion or proliferation or other stimulation of a population of cells, and then such stimulatory agents can be removed by disruption of the reversible bond. Also provided are compositions, apparatus and methods of use thereof.

Abstract: Antigen-specific T cells, including nave T cells, and including rare precursor cells are enriched and expanded in culture. Enrichment and expansion provides a platform for more effective immunotherapy by adoptive transfer, as well as platforms for personalizing immunotherapy by determining T cell reactivity with a library of candidate peptide antigens.

Abstract: A method for preparing a leukocyte preparation from a leukocyte fraction and a correspondingly prepared or obtainable leukocyte preparation and its use. The method includes: a) sedimenting the leukocyte fraction removing leukocyte supernatant from the sediment, wherein the leukocyte supernatant is collected or remains in a leukocyte container, b) sedimenting the leukocytes in the leukocyte container, c) washing the sediment in the leukocyte container with a saline solution, and d) resuspending the sediment in the leukocyte container in a storage solution.

Abstract: A wound dressing composition comprising a non-viable cell lysate or releasate derived from a hepatocyte cell or an inflammatory cell such as a macrophage. Also provided are wound dressings comprising such compositions, methods of making such compositions, and the use of such compositions for the treatment of wounds.

Abstract: A method is provided, including obtaining a population of antigen-presenting cells, enriching a population of stem/progenitor cells within a larger population of cells, activating the population of antigen-presenting cells and, following the activating, inducing at least one process selected from the group consisting of: differentiation, expansion, activation, secretion of a molecule, and expression of a marker, by exposing the enriched stem/progenitor cell population to the population of antigen-presenting cells. Other applications are also described.

Abstract: The present invention provides a dendritic cell-based vaccine by fusing a canine tumor cell and an allogeneic dendritic cell, and a method for preparing the same. The fusion cells expressing canine tumor antigens are generated by fusing canine bone marrow-derived dendritic cells and canine tumor cells. The canine immune system can be induced to produce tumor specific T lymphocytes and natural killer cells when the fusion cells used as a vaccine is injected into a canine body.

Abstract: The present invention provides a method of treating Th2-associated diseases and disorders by modulating the expression or secretion of IL-4, IL-5 and IL-13 using interferon lambda (IFN-?). For Th2-associated diseases and disorders, cells of a patient having a Th2-associated disease or disorder are treated ex vivo, with IFN-? and returned to the patient. The present invention also provides a method of ex vivo treatment, in conjunction with co-administration of IFN-?.

Abstract: A method of expanding hematopoietic stem cells. Also disclosed is a method of diagnosing primary or secondary bone marrow failure syndrome. The invention further includes a method of treating primary or secondary bone marrow failure syndrome.

Abstract: The present invention describes blood cells chemically coupled with immunodominant myelin peptides and their use in the treatment of Multiple Sclerosis.

Abstract: This disclosure relates to methods of inducing a natural killer (NK) cell-mediated immune response and increasing NK activity in a mammal for the treatment of tumors and virus infections, comprising isolating peripheral blood mononuclear cells (PBMCs) from a subject, exposing them in vitro to a protein conjugate comprising granulocyte macrophage colony stimulating factor (GM-CSF) covalently linked to a soluble peptide antigen to activate the PBMCs, and administering the activated PBMCs to the subject. The method also relates to assessing NK cell activity of activated PBMCs to determine whether the subject has had a therapeutically effective response to the protein conjugate.

Abstract: The present invention relates to new plasma or new platelet-rich plasma preparations, new cell dissociation methods, new cell associations or compositions, a method of preparation thereof, a use thereof, devices for the preparation thereof and preparations containing such a platelet-rich plasma preparation and cell associations or compositions. Specifically, the invention provides compositions comprising plasma or platelet-rich plasma alone or in combination with cell preparations for use in tissue regeneration and bone regeneration and pain reduction.

Abstract: A method for assessing prognosis in an individual suffering from liver failure, which method comprises detecting endotoxin in the individual, for example by determining the neutrophil function in the individual. The method can be used to determine whether there is an increased risk of infection in the individual, an increased risk of organ failure in the individual, an increased risk of mortality in the individual and/or an increased risk that the individual will not respond positively to treatment with an immunosuppressive agent, a steroid or an antibiotic.

Abstract: Disclosed herein are methods for inducing an immunological CTL response to an antigen by sustained, regular delivery of the antigen to a mammal so that the antigen reaches the lymphatic system. Antigen is delivered at a level sufficient to induce an immunologic CTL response in a mammal and the level of the antigen in the mammal's lymphatic system is maintained over time sufficient to maintain the immunologic CTL response. Also disclosed is an article of manufacture for delivering an antigen that induces a CTL response in an animal.

Abstract: The present invention provides a method of treating Th2-associated diseases and disorders by modulating the expression or secretion of IL-4, IL-5 and IL-13 using interferon lambda (IFN-?). For Th2-associated diseases and disorders, cells of a patient having a Th2-associated disease or disorder are treated ex vivo, with IFN-? and returned to the patient. The present invention also provides a method of ex vivo treatment, in conjunction with co-administration of IFN-?.

Abstract: The present invention provides an ex vivo method of treating plasmacytoid dendritic cells (pDC) in Th2- or Th17-associated diseases by modulating the cytokine expression or secretion using interferon lambda (IFN-?). For the Th-2 or Th17-associated diseases, pDC cells from a patient having the disease are exposed ex vivo with IFN-? in an effective amount to inhibit cytokine releases. The IFN-? exposed pDC are administered back into the patient. The present invention also provides a method of ex vivo IFN-? treatment of pDC, in conjunction with co-administration of a composition comprising IFN-?.

Abstract: The invention relates to a medicinal product for topical use for the promotion of wound healing, which comprises thrombocytes or thrombocyte fragments, wherein the thrombocytes or thrombocyte fragments contain growth factors and are capable of releasing the same and are present in the lyophilized or deep-frozen state and have been subjected to a process for virus partitioning and/or virus inactivation.

Abstract: The present invention discloses an immunotherapeutic method for treating patients suffering from malignant melanoma, by administering expanded tumour-reactive CD4+ helper and/or CD8+ T-lymphocytes obtainable from one or more sentinel or metinel lymph nodes draining a malignant melanoma or a metastasis arising from malignant melanoma. The present invention provides a new effective method for treating malignant melanoma and metastatic malignant melanoma, without adverse side effects associated with the known treatments.

Abstract: The present invention discloses an immunotherapeutic method for treating a patient suffering from a disseminated cancer by administering expanded tumour-reactive CD4+ helper and/or CD8+ T-lymphocytes obtainable from one or more metastasis-draining lymph nodes (metinel nodes) draining a metastasis. The method comprises identification of one or more metinel lymph nodes in a patient, resection of the one or more nodes and, optionally all or part of the metastases, isolation of metastasis-reactive T-lymphocytes from said lymph nodes, in vitro expansion of said metastasis-reactive T-lymphocytes, and administration of the thus obtained T-lymphocytes to the patient, wherein the T-lymphocytes are CD4+ helper and/or CD8+ T-lymphocytes.

Abstract: The present invention discloses an improved method for expansion and activation of tumor-reactive lymphocytes, in particular CD4+ helper and/or CD8+ T-lymphocytes, which may be used for treating and/or preventing cancer. The method provides high numbers of tumor-reactive T-lymphocytes within a short time span and the possibility of directing development of tumor-reactive CD4+ helper and/or CD8+ T-lymphocytes towards specific subpopulations. The method comprises a first phase of stimulating tumor-reactive CD4+ T helper and/or CD8+ T-lymphocytes with tumor-derived antigen together with at least one substance having agonistic activity towards the IL-2 receptor to promote survival of tumor-reactive CD4+ T helper and/or CD8+ T-lymphocytes; and a second phase of activating and promoting growth of tumor-reactive CD4+ T helper and/or CD8+ T-lymphocytes, wherein the second phase is initiated when the CD25 cell surface marker (or IL-2R marker) is down-regulated on CD4+ T helper and/or CD8+ T-lymphocytes.

Abstract: The present invention relates to the discovery of novel methods of inducing a natural killer (NK) cell-mediated immune response and increasing NK activity in a mammal for the treatment of tumors and virus infections. The method comprises the steps of isolating peripheral blood mononuclear cells (PBMCs) from the subject, exposing the PBMCs in vitro to protein conjugate comprising granulocyte macrophage colony stimulating factor (GM-CSF) covalently linked to a soluble peptide antigen, under conditions effective to activate the PBMCs, and administering the activated PBMCs to the subject. The invention also relates to a method of detecting in a subject a cytotoxic NK cell-meditated immune response or NK cell activity in vitro by CD336 expression and/or lysis of the K562 tumor line. The invention further relates to a method for determining whether a subject has had a therapeutically effective response to a protein conjugate by assessing the NK activity of activated PBMCs from the subject.

Abstract: A method of treating a human subject with cancer is disclosed. A pharmaceutical composition is administered to the subject, the pharmaceutical composition comprising human leukocytes and a replication-competent oncolytic virus in suspension in a physiologically acceptable solution. Alternatively the pharmaceutical composition comprises human leukocytes or platelets infected with an oncolytic virus.

Abstract: The present invention discloses an immunotherapeutic method for treating a patient suffering from urinary bladder cancer by administering expanded tumour-reactive CD4+ helper and/or CD8+ T-lymphocytes obtainable from one or more sentinel or metinel lymph nodes draining a tumour in the bladder or a metastasis arising from a tumour in the bladder. The method provides a new effective method for treating urinary bladder cancer and metastatic bladder cancer, without adverse side effects associated with the known treatments.

Abstract: Dendritic cell precursor populations, dendritic cell populations derived therefrom, methods for isolating, expanding and using are disclosed.

Abstract: According to the invention there is described a method for ex vivo immunization of humans and animals comprising the following steps of: a) isolating autologous tumor cells; b) treating the tumor cells to prevent the survival thereof following reinfusion; c) incubating the thus treated tumor cells with intact heterologous bispecific and/or trisepcific antibodies showing the following properties: ?—binding to a T cell; ?—binding to at least one antigen on a tumor cell; ?—binding, by their Fc portion (in the case of bispecific antibodies), or by a third specificity (in the case of trispecific antibodies) to Fc receptor-positive cells.

Abstract: Methods for treating a patient suffering from a neoplastic disease are disclosed and described. A number of diseases can be treated under the present methods, including without limitation gall bladder cancer, hepato cellular cancer, ovarian cancer, small intestine cancer, lung cancer, mesothelioma, breast cancer, kidney cancer, pancreas cancer, prostate cancer, carcinoid cancer, leiomyosarcoma, or metastasis thereof. A general method for providing such treatment may include: 1) identifying in a patient one or more sentinel and/or metinel lymph nodes draining the neoplasm; 2) resecting the one or more nodes and, optionally all or part of the tumour or metastasis; 3) isolating tumour-reactive T-lymphocytes from said lymph nodes; 4) in vitro expanding said tumour-reactive T-lymphocytes; and 5) administering the thus obtained tumour-reactive T-lymphocytes to the patient.

Abstract: The invention relates to compositions, kits, and methods for alleviating cancer (i.e., a tumor) in a human patient. The therapeutic modality effected by the invention involves inducing a type 1 inflammatory response in the tumor tissue, whereby the tumor tissue is diminished or destroyed and the patient develops immune memory that inhibits or prevents recurrence of the tumor.

Abstract: Compositions, kits and methods for the prevention of, for example, spontaneous abortion, preeclampsia, preterm labor or implantation failure during assisted reproduction are provided. The compositions, kits and methods provide an effective amount of granulocyte colony stimulating factor to prevent, for example, spontaneous abortion, preeclampsia, preterm labor or implantation failure of an embryo.

Abstract: A wound dressing composition comprising a non-viable cell lysate or releasate derived from a hepatocyte cell or an inflammatory cell such as a macrophage. Also provided are wound dressings comprising such compositions, methods of making such compositions, and the use of such compositions for the treatment of wounds.

Abstract: Platelets are concentrated from the blood of a patient. The platelets are treated by a method such as ultrasound or agitation to obtain platelet releasate. This releasate as a whole or a component thereof is formulated into an injectable formulation which is administered to the same patient the platelets were extracted from in order to treat the patient's cancer.

Abstract: Methods and formulations for the treatment of malignancies. Assessment of the incidence and scope of MC in control and cancer populations provides for the development of cellular therapy approaches to hematologic malignancies that are expected to be well tolerated immunologically. Studies will confirm that parous females who display MC are able to tolerate donor cells from their male offspring immunologically. Studies will explore the use of MC offspring donor cells in cellular therapy for the treatment of hematologic and other malignancies.

Abstract: The object of the invention is a novel sensitization process for antigen-presenting cells, novel means for implementing the process and novel membrane vesicles possessing immunogenic potency. The invention relates in particular to texosomes (vesicles derived from tumor cells) and dexosomes (vesicles derived from dendritic cells loaded or not with antigens), and their use for the vectorization and presentation of antigens in vitro or in vivo as well as in methods or compositions for the treatment of cancers and infectious, parasitic or autoimmune diseases in particular.

Abstract: Methods for inducing a population of T cells to proliferate by activating the population of T cells and stimulating an accessory molecule on the surface of the T cells with a ligand which binds the accessory molecule are described. T cell proliferation occurs in the absence of exogenous growth factors or accessory cells. T cell activation is accomplished by stimulating the T cell receptor (TCR)/CD3 complex or the CD2 surface protein. To induce proliferation of an activated population T cells, an accessory molecule on the surface of the T cells, such as CD28, is stimulated with a ligand which binds the accessory molecule. The T cell population expanded by the method of the invention can be genetically transduced and used for immunotherapy or can be used in methods of diagnosis.

Abstract: The present invention provides methods and apparatus for the rapid and efficient collection and purification of activated monocytes. The methods and apparatus of the present invention provide means for effecting the collection and purification in an aseptic environment. The method involves filtering a blood component mixture through a monocyte-adhering filter; washing the blood component mixture; backflushing the filter with a physiological solution; and backflushing the filter with Dextran-40/serum albumin.

Abstract: Disclosed herein are methods for inducing an immunological CTL response to an antigen by sustained, regular delivery of the antigen to a mammal so that the antigen reaches the lymphatic system. Antigen is delivered at a level sufficient to induce an immunologic CTL response in a mammal and the level of the antigen in the mammal's lymphatic system is maintained over time sufficient to maintain the immunologic CTL response. Also disclosed is an article of manufacture for delivering an antigen that induces a CTL response in an animal.

Abstract: Methods for inducing a population of T cells to proliferate by activating the population of T cells and stimulating an accessory molecule on the surface of the T cells with a ligand which binds the accessory molecule are described. T cell proliferation occurs in the absence of exogenous growth factors or accessory cells. T cell activation is accomplished by stimulating the T cell receptor (TCR)/CD3 complex or the CD2 surface protein. To induce proliferation of an activated population T cells, an accessory molecule on the surface of the T cells, such as CD28, is stimulated with a ligand which binds the accessory molecule. The T cell population expanded by the method of the invention can be genetically transduced and used for immunotherapy or can be used in methods of diagnosis.

Abstract: The present invention provides compositions for the treatment, inhibition or prevention of diseases or disorders, including cancer, immune diseases or disorders, and infectious diseases, comprising interferon-producing cells (IPCs) and methods of administering the IPCs. The present invention also provides compositions for the treatment, inhibition or prevention of diseases or disorders, including cancer, immune diseases or disorders, and infectious disease, comprising purified interferon (IFN) from IPCs and methods of administering the IFN. The present invention further provides methods for monitoring the progression of a disease or a disorder such as HIV infection or cancer, comprising measuring the abundance of IPCs in lymphoid organs or blood samples from a subject suffering from a disease or disorder.

Abstract: Methods for inducing a population of T cells to proliferate by activating the population of T cells and stimulating an accessory molecule on the surface of the T cells with a ligand which binds the accessory molecule are described. T cell proliferation occurs in the absence of exogenous growth factors or accessory cells. T cell activation is accomplished by stimulating the T cell receptor (TCR)/CD3 complex or the CD2 surface protein. To induce proliferation of an activated population T cells, an accessory molecule on the surface of the T cells, such as CD28, is stimulated with a ligand which binds the accessory molecule. The T cell population expanded by the method of the invention can be genetically transduced and used for immunotherapy or can be used in methods of diagnosis.

Abstract: A therapeutic product formed from a high concentration of white blood cells having a high degree of cell viability. The white blood cells are sequestered from their normal population presence in whole blood by placing the blood into a container and preventing coagulation of the blood, separating the blood into two components, one of which is extremely rich in white blood cells through the use of a reagent and centrifugation, sequestering the white cell concentration, and freezing the white cells.

Abstract: Methods for inducing a population of T cells to proliferate by activating the population of T cells and stimulating an accessory molecule on the surface of the T cells with a ligand which binds the accessory molecule are described. T cell proliferation occurs in the absence of exogenous growth factors or accessory cells. T cell activation is accomplished by stimulating the T cell receptor (TCR)/CD3 complex or the CD2 surface protein. To induce proliferation of an activated population T cells, an accessory molecule on the surface of the T cells, such as CD28, is stimulated with a ligand which binds the accessory molecule. The T cell population expanded by the method of the invention can be genetically transduced and used for immunotherapy or can be used in methods of diagnosis.

Abstract: Methods and apparatuses for treating fluids to inactivate microorganisms which may be present therein, said fluid containing one or more components selected from the group consisting of protein, blood and blood constituents are provided. The methods comprise adjusting the percentage of plasma in said fluid to a desired value; mixing an inactivation-effective, substantially non-toxic amount of an endogenous photosensitizer or endogenously-based derivative photosensitizer to said fluid; exposing said fluid to photoradiation of sufficient wavelength and energy to activate the photosensitizer, whereby said microorganisms are inactivated.

Abstract: Patients who develop increased numbers of ??+ cytotoxic T lymphocytes 2–6 months after allogeneic bone marrow transplantation are less likely to relapse than those who do not. The ??+ T cells isolated from blood of patients with increased ??+ T cells are CD3+CD4?CD8?CD57+, cytolytic to K562 cells, and express the V?1 T cell receptor phenotype. Similar ??+ T cells can be generated in vitro by culture of donor mononuclear cells which are enriched for ??+ T cells by immunomagnetic depletion of depleted of CD4+ and CD8+ cells. This ??-enriched cell preparation was cultured on a combination of immobilized pan-? monoclonal antibody and irradiated recipient B cell leukemia. After four weeks, the cultures were almost exclusively V?1+CD3+CD4?CD8? cells that co-expressed activation-associated antigens CD69, CD25, and HLA-DR.

Abstract: The invention relates to compositions, kits, and methods for alleviating cancer (i.e., a tumor) in a human patient. The therapeutic modality effected by the invention involves inducing a type 1 inflammatory response in the tumor tissue, whereby the tumor tissue is diminished or destroyed and the patient develops immune memory that inhibits or prevents recurrence of the tumor.

Abstract: A method of inducing a cytotoxic T-lymphocyte (CTL) response to an antigen is disclosed. The method involves delivering the antigen to the lymphatic system of an animal regularly over a sustained period of time using, e.g., an osmotic pump. The method is advantageous over prior art methods for inducing a CTL response in that it does not require repetitive immunizations or the use of adjuvants. The method of the present invention can be used for the induction of CTLs in tumor or infectious disease immunotherapy.

Abstract: Disclosed herein are methods for inducing an immunological CTL response to an antigen by sustained, regular delivery of the antigen to a mammal so that the antigen reaches the lymphatic system. Antigen is delivered at a level sufficient to induce an immunologic CTL response in a mammal and the level of the antigen in the mammal's lymphatic system is maintained over time sufficient to maintain the immunologic CTL response. Also disclosed is an article of manufacture for delivering an antigen that induces a CTL response in an animal.

Abstract: Methods for inducing a population of T cells to proliferate by activating the population of T cells and stimulating an accessory molecule on the surface of the T cells with a ligand which binds the accessory molecule are described. T cell proliferation occurs in the absence of exogenous growth factors or accessory cells. T cell activation is accomplished by stimulating the T cell receptor (TCR)/CD3 complex or the CD2 surface protein. To induce proliferation of an activated population T cells, an accessory molecule on the surface of the T cells, such as CD28, is stimulated with a ligand which binds the accessory molecule. The T cell population expanded by the method of the invention can be genetically transduced and used for immunotherapy or can be used in methods of diagnosis.

Abstract: Methods for inducing a population of T cells to proliferate by activating the population of T cells and stimulating an accessory molecule on the surface of the T cells with a ligand which binds the accessory molecule are described. T cell proliferation occurs in the absence of exogenous growth factors or accessory cells. T cell activation is accomplished by stimulating the T cell receptor (TCR)/CD3 complex or the CD2 surface protein. To induce proliferation of an activated population T cells, an accessory molecule on the surface of the T cells, such as CD28, is stimulated with a ligand which binds the accessory molecule. The T cell population expanded by the method of the invention can be genetically transduced and used for immunotherapy or can be used in methods of diagnosis.

Abstract: This invention relates to a method of preparing membrane vesicles from a biological sample, characterised in that it comprises at least one anion exchange and/or gel permeation chromatography treatment of the sample. The invention is used to prepare vesicles of varied origins and types, particularly from antigen presenting cells or tumoral cells. The invention also relates to the vesicles obtained in this way and their uses.

Abstract: Methods for inducing a population of T cells to proliferate by activating the population of T cells and stimulating an accessory molecule on the surface of the T cells with a ligand which binds the accessory molecule are described. T cell proliferation occurs in the absence of exogenous growth factors or accessory cells. T cell activation is accomplished by stimulating the T cell receptor (TCR)/CD3 complex or the CD2 surface protein. To induce proliferation of an activated population T cells, an accessory molecule on the surface of the T cells, such as CD28, is stimulated with a ligand which binds the accessory molecule. The T cell population expanded by the method of the invention can be genetically transduced and used for immunotherapy or can be used in methods of diagnosis.

Abstract: Systems and methods treat plasma carrying contaminants and cellular matter that are capable of entraining contaminants. The systems and methods separate cellular matter from the plasma by filtration, thereby removing contaminants entrained within the cellular matter. The system and methods add to the plasma a photoactive material. The systems and methods emit radiation at a selected wavelength into the plasma to activate the photoactive material and thereby eradicate the contaminant that is free of entrainment by cellular matter.

Abstract: A method for inhibiting rejection by a recipient animal of a transplanted tissue, said method comprising modifying, eliminating, or masking an antigen which, when present on the surface of a cell of said tissue, is capable of causing a T-lymphocyte-mediated response in said animal, to inhibit antigen-mediated interaction between said cell and a T-lymphocyte of said animal without causing lysis of said cell.