Abstract: This invention describes ways of obtaining nano-particulated adjuvants formed by different synthetic variants of GM3 ganglioside. Depending on the fine structure of the fatty acid in the ceramide of the synthetic GM3, said adjuvants are able to stimulate specifically and in a specialized way the humoral or cellular immune response against accompanying antigens. Particularly, this invention provides immunogenic vaccine compositions that comprise peptides, polypeptides or proteins and the aforementioned nanoparticles, which are formed through the dispersion of hydrophobic proteins of the outer membrane complex (OMC) of Neisseria meningitidis in solutions containing fully synthetic variants of the GM3 ganglioside.

Abstract: This invention relates to the field of Biotechnology and Medicine. It describes the use of vaccine compositions based on the receptor binding domain of SARS-CoV-2 virus in the treatment of patients recovered from COVID-19 and in subjects vaccinated with vaccine platforms other than subunit vaccines, who fail to develop effective protective immunity or where immunity has decreased over time and a booster with the same vaccine used in primary vaccination is not recommended. Particularly, this use is described for vaccine compositions comprising a covalent conjugate of the receptor binding domain (RBD) and a carrier protein such as tetanus toxoid, diphtheria toxoid and diphtheria toxoid mutant CRM197, vaccine compositions having the RBD as antigen, with or without the immunopotentiator outer membrane vesicles of serogroup B Neisseria meningitidis.

Abstract: This invention pertains to biotechnology, more specifically to the field of human health. This document describes in particular conjugates of the SARS-CoV-2 receptor binding domain covalently conjugated to a carrier protein, the method used to obtain them, and the vaccine compositions that contain them. The vaccine compositions described in this invention are useful for the prevention of the SARS-CoV-2 infection as they induce a strong response of neutralizing antibodies.

Abstract: This invention describes ways of obtaining nano-particulated adjuvants formed by different synthetic variants of GM3 ganglioside. Depending on the fine structure of the fatty acid in the ceramide of the synthetic GM3, said adjuvants are able to stimulate specifically and in a specialized way the humoral or cellular immune response against accompanying antigens. Particularly, this invention provides immunogenic vaccine compositions that comprise peptides, polypeptides or proteins and the aforementioned nanoparticles, which are formed through the dispersion of hydrophobic proteins of the outer membrane complex (OMC) of Neisseria meningitidis in solutions containing fully synthetic variants of the GM3 ganglioside.

Abstract: This invention is related to biotechnology; in particular, to the field of human health. The described vaccine compositions induce a neutralizing immune response against the SARS-CoV-2 virus. These compositions include a portion of the receptor binding protein of the SARS-Cov-2 virus, as antigen, outer-membrane vesicles of the Neisseria meningitides group B bacteria, as immunopotentiating component, and an adjuvant. The vaccine compositions that are described in this invention are useful in the prevention of infection with the SARS-CoV-2 virus.

Abstract: The present invention is related to biotechnology, particularly to the field of human health. It provides new vaccine compositions that comprise as active principle a system that contains the recombinant human EGF, or peptides thereof, and a carrier protein or peptide, bound to a nucleus constituted by inorganic nanoparticles, with nanometric or submicrometric scale dimensions. These vaccine compositions are useful for the chronic treatment of cancer and have as advantages that their administration does not result in the appearance of adverse effects at the injection site and that they do not accumulate in the body.

Abstract: This invention describes ways of obtaining nano-particulated adjuvants formed by different synthetic variants of GM3 ganglioside. Depending on the fine structure of the fatty acid in the ceramide of the synthetic GM3, said adjuvants are able to stimulate specifically and in a specialized way the humoral or cellular immune response against accompanying antigens. Particularly, this invention provides immunogenic vaccine compositions that comprise peptides, polypeptides or proteins and the aforementioned nanoparticles, which are formed through the dispersion of hydrophobic proteins of the outer membrane complex (OMC) of Neisseria meningitidis in solutions containing fully synthetic variants of the GM3 ganglioside.

Abstract: The present invention relates to the branch of Biotechnology and Medicine, particularly to a method for the selection and treatment of patients with carcinomas of epithelial origin that co-express the HER1 and HER2 receptors without increased expression of these receptors or with the presence of RAS activating mutations. In particular, this method is based on the application of bivalent vaccine compositions which have as active principle the extracellular domains of the HER1 and HER2 receptors or portions thereof and as an adjuvant the very small proteoliposomes derived from the outer membrane proteins of Neisseria meningitidis and the GM3 ganglioside. This method is useful for the treatment of patients whose expression levels of HER1 and HER2 do not allow the monoclonal antibodies against HER1 and/or HER2 to have a therapeutic effect.

Abstract: The invention describes vaccine compositions combined in the same proportion with the extracellular domains of growth factor receptors Her1 and Her2 or fragments thereof and furthermore very small size proteoliposomes derived from proteins of the outer membrane of Neisseria meningitidis and GM3 ganglioside (VSSP-GM3), administered subcutaneously. The disclosed compositions, which induce the production of antibodies are used for the treatment of malignancies and offer advantages because they completely remove the tumor mass thus preventing tumor regression due to the emergence of resistant variants.

Abstract: The invention describes vaccine compositions combined in the same proportion with the extracellular domains of growth factor receptors Her1 and Her2 or fragments thereof and furthermore very small size proteoliposomes derived from proteins of the outer membrane of Neisseria meningitidis and GM3 ganglioside (VSSP-GM3), administered subcutaneously. The disclosed compositions, which induce the production of antibodies are used for the treatment of malignancies and offer advantages because they completely remove the tumor mass thus preventing tumor regression due to the emergence of resistant variants.

Abstract: This invention discloses means for obtaining immunogenic peptides, polypeptides, proteins, and their corresponding nucleic acid sequences, target cells with vaccine interest, or lysates thereof, without making structural changes in said antigens, through their association with Very Small Size Proteoliposomes. The object of the invention is to provide immunogenic compositions containing peptides, polypeptides, proteins, their corresponding DNA sequences, cells or their lysates and Very Small Size Proteoliposomes (VSSP), which are formed by binding the Outer Membrane Protein Complex (OMPC) of Neisseria meningitidis with gangliosides, by means of hydrophobic links. Additionally, it is stated that these compositions can be formulated alone or in the form of emulsions with the Incomplete Freund's Adjuvant (IFA), and may also be lyophilized.

Abstract: The present invention relates to the field of immunology and human medicine, in particular with a vaccine preparation able to provoke an immune-castration of self-TGF&agr;.

Abstract: This invention discloses means for obtaining immunogenic peptides, polypeptides, proteins, and their corresponding nucleic acid sequences, target cells with vaccine interest, or lysates thereof, without making structural changes in said antigens, through their association with Very Small Size Proteoliposomes.

Abstract: The invention provides novel uses of EGF and vaccine compositions comprising EGF. In particular, autologous EGF, or a fragment or a derivative thereof, is used as an active immunization against the proliferation of EGF-dependent tumors, or other EGF-dependent diseases. Autologous EGF is preferably coupled to a carrier protein, such as tetanus toxoid or Cholera toxin B chain. The vaccine compositions according to the invention will usually comprise an adjuvant such as aluminum hydroxide.