Binding molecules to IL-17A. The binding molecules are useful in the treatment of disorders, for example psoriasis.

Methods for monitoring whether a subject will be sensitive or resistant to treatment with an anti-SMAD7 therapy are disclosed. The methods are based on the determining of the amount of CCR9+ FOXP3+ T cells, CCR9+ IFN-gamma+ T cells, CCR9+ IL17A+ T cells, FOXP3+ T cells, IFN-gamma+ T cells, and/or IL17A+ T cells in a sample from the subject. Measurement of T cell populations may be determined by flow cytometry, immunohistochemistry, and/or ELISA.

Provided are methods for evaluating the risk of an adverse clinical outcome in a subject, deciding whether to discharge or continue treating a subject (e.g., treatment on an inpatient basis), or to initiate or terminate treatment, selecting a subject for participation in a clinical study, and selecting a therapeutic treatment for a subject that include determining a level of ST2 in a biological sample from the subject and determining a level of galectin-3 in a biological sample from the subject. Kits are also provided that contain an antibody that specifically binds to ST2, an antibody that specifically binds to galectin-3, and instructions for using the kit to evaluate the risk of an adverse clinical outcome in a subject, to decide whether to discharge or continue treating a subject (e.g., treatment on an inpatient basis) or to initiate or terminate treatment, to select a subject for participation in a clinical study, and/or to select treatment for a subject.

The present invention relates to methods and other technologies that may be used to determine whether compositions (e.g., pharmaceutical compositions) comprising interleukin-10 molecules (e.g., pegylated interleukin-10) meet particular product-related specifications prior to being administered to a subject for the treatment and/or prevention of the diseases, disorders and conditions, and/or the symptoms thereof, described herein.

The invention relates to panels of biomarkers for diagnosing and/or monitoring the progression of an active mycobacterial infection or for diagnosing the absence of a mycobacterial infection, particularly tuberculosis. Such diagnosis and/or monitoring may be differential diagnosis between active tuberculosis patients and patients with latent, non-progressing tuberculosis or healthy or sick patients, irrespective of whether the patients have been characterised as being sputum smear positive or sputum smear negative, and/or irrespective of whether they have been characterised as being HIV positive or HIV negative. The above pertain in all aspects both to pulmonary and extra pulmonary Mycobacterium tuberculosis infections, with Mycobacterium tuberculosis being the causative organism in tuberculosis.

Provided are various embodiments relating to anti-IL4R antibodies that bind to canine IL4R. In various embodiments, such anti-IL4R antibodies can be used in methods to treat IL4/IL13-induced conditions, such as atopic dermatitis, allergic dermatitis, pruritus, asthma, psoriasis, scleroderma and eczema, in companion animals, such as canines and felines. Also provided are various embodiments relating to variant IgG Fc polypeptides and variant light chain constant regions of companion animal species for the preparation of antibodies or bispecific antibodies.

A method for determining the risk of acute kidney injury (AKI) in a mammal following cardiac surgery is provided. The method comprises determining the sample value of IL-6 or hFABP concentration, or the ratio of IL-6 to IL-10, in a biological sample from the mammal, either prior to cardiac surgery or within 6 hours following surgery; comparing the sample value to a corresponding reference value; and determining that the mammal is at risk of acute kidney injury following cardiac surgery if the sample value is greater than the corresponding reference value.

The invention provides methods of diagnosing and treating multiple sclerosis (MS) patients, including methods of identifying and treating multiple sclerosis patients who are at increased risk of developing a secondary autoimmune disease following lymphocyte depletion, caused, e.g., by treatment with an anti-CD52 antibody. The increased risk may be linked to certain single nucleotide polymorphism genotypes that are indicative of elevated IL-21 levels. Also embraced are methods of selecting treatment regimens for MS patients, and reagents useful in the above methods.

The invention features compositions and methods treating or preventing for age-related insulin resistance, type 2 diabetes and related disorders. The method involves depleting fTreg cells with an anti-ST2 antibody to decrease age-related fTreg accumulation and restore insulin sensitivity, thereby treating age-related insulin resistance, type 2 diabetes and related disorders.

The present invention provides a method for enhancing immune cell function by activating various immune cells ex vivo and provides immune cells with enhanced function. The invention further provides an immune-related cell multifunctionality evaluation method. A biguanide antidiabetic drug selected from metformin, phenformin, and buformin is capable of enhancing immune cell multifunctionality by increasing CD8+T cells having a high ability to produce IL-2, INFα, and IFNγ. The immune-related cell multifunctionality may be evaluated by comparing immune cells treated with a biguanide antidiabetic drug selected from metformin, phenformin, and buformin, with control immune cells untreated with the biguanide antidiabetic drug. When the multifunctionality of immune cells treated with the biguanide antidiabetic drug selected from metformin, phenformin, and buformin is determined to be significantly increased compared with the control, it can be evaluated that the sensitivity of the immune cells to the therapeutic agent is improved.