The invention relates to a Prodrug activation method, for therapeutics, wherein use is made of abiotic reactive chemical groups that exhibit bio-orthogonal reactivity towards each other. The invention also relates to a Prodrug kit comprising at least one Prodrug and at least one Activator, wherein the Prodrug comprises a Drug and a first Bio-orthogonal Reactive Group (the Trigger), and wherein the Activator comprises a second Bio-orthogonal Reactive Group. The invention also relates to targeted therapeutics used in the above-mentioned method and kit. The invention particularly pertains to antibody-drug conjugates and to bi- and trispecific antibody derivatives.

The present invention relates to a brain delivery protein, comprising a target binding antibody which binds to a target in a mammalian brain; two carrier moieties, each of which being capable of monovalent interaction with a protein expressed on a blood brain barrier (BBB) endothelial cell, wherein each of said carrier moieties is linked to a C-terminal end of the target binding antibody. The present invention moreover relates to use of such brain delivery proteins in therapy or diagnosis or for research of e.g. neurodegenerative disorders, and other brain diseases.

The invention provides a novel class of NIR-absorbing biocompatible organic nanoparticles for effective imaging, targeting and treatment of deep-tissue cancers or tumors. The invention enables a new platform for precise cancer- or tumor-targeting theranostics and clinical cancer treatment.

The present disclosure relates to methods of treating a patient with a cancer by administering to the patient a composition comprising CAR T cells wherein the CAR T cells comprise a CAR and the CAR comprises an E2 anti-fluorescein antibody fragment, and administering to the patient a small molecule linked to a targeting moiety by a linker. The disclosure also relates to compositions for use in such methods.

It relates to a ribonucleic acid aptamer having an inhibitory effect on non-small cell lung cancer and a pharmaceutical composition comprising the same. The ribonucleic acid aptamer can bind to human non-small cell lung cancer in vivo or in vitro with high specificity and high affinity to achieve an effect of inhibiting non-small cell lung cancer; and the ribonucleic acid aptamer can also be linked, coupled or polymerized with other non-small cell lung cancer therapeutic drugs to achieve a more excellent effect of inhibiting non-small cell lung cancer.

The present invention relates to compounds, compositions, combinations and medicaments containing said compounds and processes for their preparation. The invention also relates to the use of said compounds, combinations, compositions and medicaments, for example as inhibitors of the activity of RIP2 kinase, including degrading RIP2 kinase, the treatment of diseases and conditions mediated by the RIP2 kinase, in particular for the treatment of inflammatory diseases or conditions.

The present invention encompasses prodrug compositions, nanoparticles comprising one or more prodrugs, and methods of use thereof.

The invention discloses the use of single-stranded RNA toeholds of different lengths to promote the re-association of various RNA-DNA hybrids, which results in activation of multiple split functionalities inside human cells. Previously designed RNA/DNA nanoparticles employed single-stranded DNA toeholds to initiate re-association. The use of RNA toeholds is advantageous because of the simpler design rules, the shorter toeholds, and the smaller size of the resulting nanoparticles compared to the same hybrid nanoparticles with single-stranded DNA toeholds. Moreover, the co-transcriptional assemblies result in higher yields for hybrid nanoparticles with ssRNA toeholds.

A method for treating Candida Auris in blood, comprising administering to the blood taurolidine, and/or one or more taurolidine derivatives, in a concentration which is effective to treat C. Auris in the blood.

A hyperspecific MP system is a system of at least 3 different types of Modified Proteins expressed on/in any cell type and operating together in a treatment, diagnostic, commercial method, or other commercial method(s). Using multiple Modified Proteins can significantly increase the specificity of cancer treatment among many others and decrease side effects of treatments.