A compound comprising, in combination: a cell surface binding ligand or internalizing factor, such as an IL-13Rα2 binding ligand; at least one effector molecule (e.g., one, two, three or more effector molecules); optionally but preferably, a cytosol localization element covalently coupled between said binding ligand and said at least one effector molecule; and a subcellular compartment localization signal element covalently coupled between said binding ligand and said at least one effector molecule (and preferably with said cytosol localization element between said binding ligand and said subcellular compartment localization signal element). Methods of using such compounds and formulations containing the same are also described.

Methods for treating coronavirus disease 2019 (COVID-19), the disease caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infections, is described. The methods can be used to reduce the severity of outcomes related to COVID-19, such as hospitalization and ventilation. For example, treatment of a subject with a therapeutic agent that neutralizes interleukin 13 (IL-13) can result in reduced risk for mechanical ventilation in the subject. Also described are methods of predicting risk of mechanical ventilation in subjects with COVID-19.

Methods for identifying and isolating CD8 T cells that produce interleukin-13 upon activation are provided. The present methods leverage one or more newly-identified biomarkers to identify such CD8 T cells and, in certain cases, sort the same. Certain methods comprise obtaining a sample from a mammal, quantifying a level of expression of one or more biomarkers therein, and determining if the level of expression is elevated as compared, wherein an elevated expression level is indicative of an active disease state. Antisera and antibodies are also provided. In particular, an anti-C10orf128 antiserum formulated against a particular peptide is provided, such anti-C10orf128 antiserum characterized in that it identifies a subset of CD8 T cells that produce interleukin-13 upon activation.

A compound comprising, in combination: a cell surface binding ligand or internalizing factor, such as an IL-13Rα2 binding ligand; at least one effector molecule (e.g., one, two, three or more effector molecules); optionally but preferably, a cytosol localization element covalently coupled between said binding ligand and said at least one effector molecule; and a subcellular compartment localization signal element covalently coupled between said binding ligand and said at least one effector molecule (and preferably with said cytosol localization element between said binding ligand and said subcellular compartment localization signal element). Methods of using such compounds and formulations containing the same are also described.

A compound comprising, in combination: a cell surface binding ligand or internalizing factor, such as an IL-13Rα2 binding ligand; at least one effector molecule (e.g., one, two, three or more effector molecules); optionally but preferably, a cytosol localization element covalently coupled between said binding ligand and said at least one effector molecule; and a subcellular compartment localization signal element covalently coupled between said binding ligand and said at least one effector molecule (and preferably with said cytosol localization element between said binding ligand and said subcellular compartment localization signal element). Methods of using such compounds and formulations containing the same are also described.

Provided herein are compositions, systems, and methods for detecting and treating IL-17 and/or IL-13 related conditions, such as asthma, autoimmune diseases, and cancer. In some embodiments, methods, compositions, and systems are provided for detecting elevated protein or RNA levels of IL-17 (and/or IL-13) and a second marker selected from: SAA, LCN2, and YKL-40, and treating the subject with an IL-17 (or IL-13) inhibitor or IL-17 (or IL-13) receptor inhibitor. In other embodiments, methods, compositions, and systems are provided for detecting a biomarker in a sample from a subject that has been treated with an IL-17 (or IL-13) inhibitor or IL-17 (or IL-13) receptor inhibitor, where the biomarker is SAA, LCN2, or YKL-40, and where at least one action is performed, such as identifying elevated levels of the biomarker in the biological sample and treating the subject with an IL-17 (or IL-13) inhibitor and/or IL-17 (or IL-13) receptor inhibitor.

Provided are various embodiments relating to IL13R/IL4R heterodimeric proteins derived from companion animal species and that bind to IL13 and/or IL4. Such heterodimeric proteins can be used in methods to treat IL13 and/or IL4-induced conditions in companion animals, such as canines, felines, and equines.

Disclosed is a method of improving global response to allergen desensitization, by allergen immunotherapy, which includes classifying allergic patients as eligible to allergen immunotherapy based on the patients' allergen-specific T cell reactivity against the allergen.

Provided are a method and a composition for preventing or treating atopic dermatitis through administration of monoclonal stem cells and a method for screening atopic dermatitis patients suitable for administration of monoclonal stem cells and predicting prognosis of patients. According to the method for the subfractionation culture and proliferation of stem cells of the disclosure, large quantities of desired monoclonal mesenchymal stem cells can be obtained in a short period of time through rapid proliferation of monoclonal mesenchymal stem cells. In addition, the monoclonal mesenchymal stem cells thus obtained can be administered to atopic dermatitis patients according to a prescribed administration cycle, guidelines, and dose to effectively ameliorate atopy symptoms in the patients. Moreover, by using a marker to identify patient groups particularly suitable for the treatment and selectively administering the monoclonal mesenchymal stem cells to the patient groups, an excellent therapeutic effect for atopic dermatitis can be achieved.

The invention includes compositions comprising a therapeutic agent that decreases the population of pathological CD4g13 T cells, g13Th1 or g13Th2, in a subject and compositions comprising a therapeutic agent that increases the population of protective CD4g13 T cells, g13Th1 or g13Th2, in a subject. The invention also includes methods for treating an inflammatory or autoimmune disease in a subject by administering to the subject an effective amount of a therapeutic agent that increases the population of protective CD4g13 T cells, methods for detecting a protective or pathological immune response and methods for stimulating a protective CD4g13 T cell-mediated immune response to a cell population or a local tissue or organ in a subject in need thereof. The invention further includes a kit for diagnosing a pathological or protective g13Th1 or g13Th2 T cell responses in a subject.