An antibody includes a polyamidoamine (PAMAM) dendrimer and a first functional group. The polyamidoamine (PAMAM) dendrimer includes a plurality of branches and each of the branches has a phenylboronic acid (PBA) terminal group. The first functional group is bonded to at least one of the PBA terminal groups.

In one aspect, the present disclosure provides targeted complement-activating molecules comprising a target-binding domain and a complement-activating serine protease effector domain. In some embodiments, the target-binding domain is derived from an antibody or an antigen-binding fragment thereof. Also provided are compositions and methods for treating cancer, autoimmune disease, or microbial infection, including bacterial, viral, fungal, or parasitic infection, using targeted complement-activating molecules.

An antigenic composition comprises several antigenic components derived from antigens of Streptococcus equi subsp. equi or subsp. zooepidemicus, wherein at least one component is a fusion protein or polypeptide compromising two or more such antigens or fragments thereof. The antigenic composition may be used for immunization of mammals against S. equi subsp. equi and/or subsp. zooepidemicus. A vaccine composition comprising the antigenic composition as immunizing component is also disclosed.

Disclosed is a new and emerging serotype of Streptococcus pneumoniae designated serotype 6C, and assays and monoclonal antibodies useful in identifying same. Also disclosed is a novel pneumococcal polysaccharide with the repeating unit {2) glucose 1 (1.fwdarw.3) glucose 2 (1.fwdarw.3) rhamnose (1.fwdarw.3) ribitol (5.fwdarw.phosphate}. This new serotype may be included in pneumococcal vaccines.

The invention provides proteins from group B streptococcus (Streptococcus agalactiae) and group A streptococcus (Streptococcus pyogenes), including amino acid sequences and the corresponding nucleotide sequences. Data are given to show that the proteins are useful antigens for vaccines, immunogenic compositions, and/or diagnostics. The proteins are also targets for antibiotics.

The invention provides proteins and compositions for the treatment and prevention of Streptococcus agalactiae (Group B streptococcus; GBS).

The present invention contemplates mRNA, episomal and retroviral genomic gene therapy based short-term, intermediate or long-term vaccine, immunization, immune protection or cancer—that can also be administered as a retroviral genomic gene therapy both in vivo and ex vivo—method to provide epithelial and hematological protection to humans to protect against cancer especially carcinomas, pandemic and non-pandemic viruses, bacterial infections, allergens or the cause of allergic reactions, systemic pathological conditions, cancer and anti-biowarfare agents (e.g. natural and unnatural viruses and toxins) where mucosal immunity and for some diseases hematological immunity is achieved through mRNA, episomal or genomic integrated lentiviral and gammaretroviral vector expression of dimeric immunoglobulin A1 (dIgA1), dimeric immunoglobulin A2 (dIgA2) and engineered variants. Additionally, in some embodiments a method to agglutinate cancers including carcinomas and hematological cancers to prevent metastasis with polymeric immunoglobulin A and dimeric immunoglobulin A and engineered variants. The present invention provides methods, immunoglobulin compositions and vector constructs to express potent immunoglobulins that are derived from human blood of a human currently infected with, affected by, exposed to or recovered from any of a wide range of allergens or the cause of allergic reactions, pathogens (including, viruses, virus mutants, bacterial infections and fungi) and systemic pathological ailments (including cancer and other disorders), developed from phage display technology or mice or other non-human vertebrates with engineered immune systems or humanized immune systems, transgenic mice or chimeric antibodies a fusion of non-human vertebrates (e.g. mouse or rabbit), mouse antibody V-regions, human antibodies. The immunoglobulin compositions include the heavy chain variable, diversity and joining (VDJ or Variable Heavy Region genes) segment immunoglobulin DNA and/or polypeptide sequence from humans identified to have therapeutically relevant affinity immunoglobulins against the antigen, protein or proteins of interest and either to use the exact immunoglobulin heavy chain and light chain polypeptide sequences identified from the B-cell that produced them or to modify or engineer some of the immunoglobulin heavy chain and light chain constant domains to modulate effector functions. Although, ideally there are no changes made to the immunoglobulins light and heavy chains as identified from the B-cell that produced them. Modifications may occur at the Hinge region, Constant Heavy 2 (C.sub.H2) domain and Constant Heavy 3 (C.sub.H3) domain for the immunoglobul

Binding agents able to disrupt bacterial biofilms of diverse origin are described, including monoclonal antibodies secreted by human B lymphocytes. Methods to prevent formation of or to dissolve biofilms with these binding agents are also described. Immunogens for eliciting antibodies to disrupt biofilms are also described.

The present invention relates to the use of a composition selected from the group consisting of antibodies, antibody fragments, insulin-like growth factor antagonists, Toll-like receptor antagonists and mixtures thereof for the treatment or the prophylaxis of certain diseases.

The present invention relates to compositions and methods for the treatment of immunodeficiency (e.g., primary immunodeficiency disease). In particular, the invention provides human plasma immunoglobulin compositions containing select antibody titers specific for a plurality of respiratory pathogens, methods of identifying human donors and donor samples for use in the compositions, methods of manufacturing the compositions, and methods of utilizing the compositions (e.g., for prophylactic administration and/or therapeutic treatment (e.g., passive immunization (e.g., immune-prophylaxis))).