Abstract: Provided are a tandem epitope polypeptide vaccine for novel coronavirus and use thereof. Specifically, a vaccine polypeptide for novel coronavirus pneumonia is provided on the basis of analysis and study of the RBD sequence and structural information of the S protein of SARS-CoV-2. Said vaccine polypeptide comprises the following elements connected in series: a generic Th epitope sequence, a B cell epitope sequence and a T cell epitope sequence. The B cell epitope and the T cell epitope have an amino acid sequence from the RBM region of the S protein of SARS-CoV-2. Provided are a vaccine composition containing said vaccine polypeptide and use thereof. Experiments show that the vaccine polypeptide of the present invention can enable cynomolgus monkeys to initiate strong cellular and humoral immunity, and to generate neutralizing antibodies that block the binding of RBD and ACE2, and can be used for preventing and treating novel coronavirus pneumonia.

Abstract: Disclosed are a polypeptide vaccine coupled with a TLR7 agonist for novel coronavirus and the use thereof. Specifically, the present invention provides a vaccine polypeptide for novel coronavirus pneumonia based on the basis of the analytical study of the RBD sequence and structural information of the S protein of SARS-CoV-2, wherein the vaccine polypeptide has the following structural formula: Z-(J-U)n, where in the formula, Z, J, U, n, etc. are as defined in the description. Also provided in the present invention are a vaccine composition containing the vaccine polypeptide and the use thereof.

Abstract: Provided is a series of homologous small molecule immune agonists and novel bifunctional immune targeting compounds having targeting and immune activation functions, which are obtained by coupling the small molecule immune agonists to targeting drugs. The resulting immune targeting compounds are beneficial for enhancing immune activation effects, and anti-tumor and other disease fighting effects of the targeting drug. The enhanced effect is produced from a synergy of immunological anti-tumor factors (such as IFN-?) and inhibition at pathogenic targeting sites.

Abstract: The present application provides a novel series of small molecular immune agonists of Toll-like receptor 7, having a structure represented by Formula I. The present application further provides use of the immune agonist for activating and amplifying immune cells and lymphocytes, and for preparing an immunomodulatory drug, an immune anti-tumor small molecule drug, and an immune anti-tumor macromolecular drug.

Abstract: Provided is a series of homologous small molecule immune agonists and novel bifunctional immune targeting compounds having targeting and immune activation functions, which are obtained by coupling the small molecule immune agonists to targeting drugs. The resulting immune targeting compounds are beneficial for enhancing immune activation effects, and anti-tumor and other disease fighting effects of the targeting drug. The enhanced effect is produced from a synergy of immunological anti-tumor factors (such as IFN-?) and inhibition at pathogenic targeting sites.

Abstract: Compound I and a compound II as well as preparation methods therefor and use thereof are disclosed. A newly synthesized compound of formula I is capable of stimulating congenital immunity and cellular immunity for tumor resistance while greatly improving the antitumor effect of ethacrynic acid (EA), and thus an integrated synergistic anti-tumor dual-immunity drug design is explored. The immune response mechanism for resisting melanoma of the compound as shown in the formula I is demonstrated. A compound that is as shown in a formula II and is prepared from the compound of formula I and ROR1 by means of covalency markedly slows down the growth of subcutaneously transplanted mammary cancer tumor, such that the immune response mechanism, for treating the mammary cancer, of the compound as shown in the formula II is demonstrated.

Abstract: Compound I and a compound II as well as preparation methods therefor and use thereof are disclosed. A newly synthesized compound of formula I is capable of stimulating congenital immunity and cellular immunity for tumor resistance while greatly improving the antitumor effect of ethacrynic acid (EA), and thus an integrated synergistic anti-tumor dual-immunity drug design is explored. The immune response mechanism for resisting melanoma of the compound as shown in the formula I is demonstrated. A compound that is as shown in a formula II and is prepared from the compound of formula I and ROR1 by means of covalency markedly slows down the growth of subcutaneously transplanted mammary cancer tumor, such that the immune response mechanism, for treating the mammary cancer, of the compound as shown in the formula II is demonstrated.

Abstract: Disclosed is an immune receptor modifier conjugate, obtained from the reaction between a coupling precursor and a biotic ligand, the coupling precursor being a 9-position aminomethyl benzyl purine biotic coupling precursor, and the biotic ligand being selected from one or more of polypeptide, protein, glycoprotein, polysaccharide, polynucleotide, inactivated cells and inactivated microbes. The immune receptor modifier couplet can be used for immunomodulation, antibody preparation, anti-virus, diabetes, tumor immunomodulation, and tumor bio-immunotherapy. The conjugate compounds or salts thereof can be prepared into various therapeutic drugs, and can be prepared into a compound drug together with other drugs, or pharmaceutically acceptable carrier composites or conjugates. Also disclosed are compounds for synthesizing the coupling precursor and salts thereof.

Abstract: Disclosed is an immune receptor modifier conjugate, obtained from the reaction between a coupling precursor and a biotic ligand, the coupling precursor being a 9-position aminomethyl benzyl purine biotic coupling precursor, and the biotic ligand being selected from one or more of polypeptide, protein, glycoprotein, polysaccharide, polynucleotide, inactivated cells and inactivated microbes. The immune receptor modifier couplet can be used for immunomodulation, antibody preparation, anti-virus, diabetes, tumor immunomodulation, and tumor bio-immunotherapy. The conjugate compounds or salts thereof can be prepared into various therapeutic drugs, and can be prepared into a compound drug together with other drugs, or pharmaceutically acceptable carrier composites or conjugates. Also disclosed are compounds for synthesizing the coupling precursor and salts thereof.

Abstract: The present invention provides purine analog compounds, as well as compositions and methods of using them, for example, to prevent or treat various diseases and disorders in human and non-human animals.

Abstract: The invention provides ethacrynic acid derivatives useful to prevent, inhibit or treat a variety of disorders or diseases including cancer and inflammatory disorders.

Abstract: The present invention provides a new patentable class of purine analog compounds, as well as compositions and methods of using them, for example, to prevent or treat various diseases and disorders in human and non-human animals.