Provided herein are methods and materials for making antibody-polypeptide conjugates.

Described herein are engineered microbe-targeting or microbe-binding molecules, kits comprising the same and uses thereof. Some particular embodiments of the microbe-targeting or microbe-binding molecules comprise a carbohydrate recognition domain of mannose-binding lectin, or a fragment thereof, linked to a portion of a Fc region. In some embodiments, the microbe-targeting molecules or microbe-binding molecules can be conjugated to a substrate, e.g., a magnetic microbead, forming a microbe-targeting substrate (e.g., a microbe-targeting magnetic microbead). Such microbe-targeting molecules and/or substrates and the kits comprising the same can bind and/or capture of a microbe and/or microbial matter thereof, and can thus be used in various applications, e.g., diagnosis and/or treatment of an infection caused by microbes such as sepsis in a subject or any environmental surface. Microbe-targeting molecules and/or substrates can be regenerated after use by washing with a low pH buffer or buffer in which calcium is insoluble.

The present disclosure provides for compositions comprising a chimeric polypeptide comprising a polypeptide effective for treating glycogen storage disease and an internalizing moiety that promotes delivery into cells. In certain embodiments, the polypeptide effective for treating glycogen storage disease is an acid alpha-glucosidase (GAA), a laforin, an amyloglucosidase (AGL), a malin, or an alpha amylase. The present disclosure also provides for methods for decreasing glycogen accumulation in cells or for treating glycogen storage diseases, including Forbes-Cori Disease, Andersen Disease, von Gierke Disease, Pompe Disease, and Lafora Disease, comprising administering the chimeric polypeptide disclosed herein.

The present disclosure provides compositions and methods for treating allograft vasculopathy, for treating Moyamoya Diseases (MMD) and Moyamoya Syndrome (MMS), for treating inhibiting or preventing unwanted intimal proliferation in a subject by administering an ectonucleotide pyrophosphatase phosphodiesterase-1 (ENPP1) agent or an ectonucleotide pyrophosphatase phosphodiesterase-3 (ENPP3).

Peptides that specifically bind erythrocytes are described. These are provided as peptidic ligands having sequences that specifically bind, or as antibodies or fragments thereof that provide specific binding, to erythrocytes. The peptides may be prepared as molecular fusions with therapeutic agents, tolerizing antigens, or targeting peptides. Immunotolerance may be created by use of the fusions and choice of an antigen on a substance for which tolerance is desired.

Bioconjugates and methods of making bioconjugates are provided, wherein the bioconjugates comprise glucose oxidase and nanoparticles that can kill tumor cells. For example, glucose oxidase-iron oxide bioconjugates can produce reactive oxygen species from blood glucose, causing cell death. The use of superparamagnetic iron oxide nanoparticles can provide magnetic resonance imaging guidance to facilitate imaging-guided drug delivery and combine diagnostics with therapy.

The present invention relates to compositions and methods associated with antibody-bacterial effector translocase protein conjugates. Some aspects of the present invention relate to preventing or treating diseases using the antibody-protective antigen conjugates. Further aspects of the present invention relate to methods of chemically conjugating and synthesizing the antibody-bacterial effector translocase protein conjugates.

Disclosed herein are methods of detecting or making a risk evaluation of a cancer that has a mutated PREX2 expressed thereon. The cancer may be a primary cancer, a metastatic cancer or a recurrent cancer. According to the embodiment of the present disclosure, the mutation is G258V, S1113R, E1346D or K400fs. Also disclosed herein are methods of treating the subject in need thereof.

Described herein are engineered microbe-targeting or microbe-binding molecules, kits comprising the same and uses thereof. Some particular embodiments of the microbe-targeting or microbe-binding molecules comprise a carbohydrate recognition domain of mannose-binding lectin, or a fragment thereof, linked to a portion of a Fc region. In some embodiments, the microbe-targeting molecules or microbe-binding molecules can be conjugated to a substrate, e.g., a magnetic microbead, forming a microbe-targeting substrate (e.g., a microbe-targeting magnetic microbead). Such microbe-targeting molecules and/or substrates and the kits comprising the same can bind and/or capture of a microbe and/or microbial matter thereof, and can thus be used in various applications, e.g., diagnosis and/or treatment of an infection caused by microbes such as sepsis in a subject or any environmental surface. Microbe-targeting molecules and/or substrates can be regenerated after use by washing with a low pH buffer or buffer in which calcium is insoluble.

Provided herein are methods and compositions for treating a subject suffering from a deficiency in -L-Iduronidase in the CNS. The methods include systemic administration of a bifunctional fusion antibody comprising an antibody to a human insulin receptor and an -L-Iduronidase. A therapeutically effective systemic dose is based on the specific CNS uptake characteristics of human insulin receptor antibody--L-Iduronidase fusion antibodies as described herein.