Methods for inhibiting an autoimmune disease by administering to a subject a therapeutically effective amount of a composition that induces conversion of naive T cells into Foxp3+ regulatory T cells to induce immunosuppression in the subject. Methods for detecting in a subject an autoimmune disease or a predisposition to a autoimmune disease, and methods for assessing the efficacy of a therapy for an autoimmune disease, particularly type 1 diabetes.

In one aspect, a system for detecting inflammation is disclosed, which includes at least one sensor comprising at least one port for receiving a biological sample, and at least one electrochemical cell in fluid communication with said at least one port for receiving said biological sample, said electrochemical cell comprising at least two electrically conductive electrodes, where at least one of said electrodes is functionalized with at least one probe exhibiting specific binding to at least one inflammation biomarker. The system may further include a circuitry for detecting a redox current flowing through said at least one electrode and/or an electrical impedance across said electrodes in response to interaction of the functionalized electrode with the sample, and generating signals in response to said detection. By way of example, the biological sample can be a subject's blood serum.

Disclosed are methods of isolating a TCR having antigenic specificity for a mutated amino acid sequence encoded by a cancer-specific mutation, the method comprising: identifying one or more genes in the nucleic acid of a cancer cell of a patient, each gene containing a cancer-specific mutation that encodes a mutated amino acid sequence; inducing autologous APCs of the patient to present the mutated amino acid sequence; co-culturing autologous T cells of the patient with the autologous APCs that present the mutated amino acid sequence; selecting the autologous T cells; and isolating a nucleotide sequence that encodes the TCR from the selected autologous T cells, wherein the TCR has antigenic specificity for the mutated amino acid sequence encoded by the cancer-specific mutation. Also disclosed are related methods of preparing a population of cells, populations of cells, TCRs, pharmaceutical compositions, and methods of treating or preventing cancer.

The invention provides methods, kits and reagents for diagnosing fibromyalgia (FM) in an individual by determining whether the levels of one or more cytokines in the individual are altered, as compared to control levels. The altered level(s) or patterns of expression of the cytokines measured in the affected individual compared to the level from the control is predictive/indicative of FM in the individual.

Provided are methods and systems for determining functional relationships between ex vivo skin models and an inflammatory skin condition. Also provided are methods and systems for identifying modulators of inflammation of skin, as well as the use of modulators identified by such methods or systems for the preparation of cosmetic compositions, personal care products, or both.

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.

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.

Disclosed are methods of isolating a TCR having antigenic specificity for a mutated amino acid sequence encoded by a cancer-specific mutation, the method comprising: identifying one or more genes in the nucleic acid of a cancer cell of a patient, each gene containing a cancer-specific mutation that encodes a mutated amino acid sequence; inducing autologous APCs of the patient to present the mutated amino acid sequence; co-culturing autologous T cells of the patient with the autologous APCs that present the mutated amino acid sequence; selecting the autologous T cells; and isolating a nucleotide sequence that encodes the TCR from the selected autologous T cells, wherein the TCR has antigenic specificity for the mutated amino acid sequence encoded by the cancer-specific mutation. Also disclosed are related methods of preparing a population of cells, populations of cells, TCRs, pharmaceutical compositions, and methods of treating or preventing cancer.

The methods, processes, and systems described herein include identifying an epitope of a peptide that may elicit an immune response in a subject. Often the methods, systems and processes may include designing and producing a composition comprising an epitope of a peptide identified using the methods or processes described herein.