Compounds, compositions and methods are provided for selectively activating chaperone-mediated autophagy (CMA), protecting cells from oxidative stress, proteotoxicity and lipotoxicity, and/or antagonizing activity of retinoic acid receptor alpha (RAR) in subjects in need thereof.

A method is described for the diagnostic determination of the risk caused by an altered oxidative balance, comprising the photometric measurement of total cholesterol, hydroperoxides, and antioxidant capacity, on the basis of which the protective index, the oxidative index and the risk index caused by an altered oxidative balance (or OBRI) are calculated. This latter index has proved to be particularly dependable and reliable in determining the status of the oxidative balance in relation to cholesterol levels, being highly predictive of cardiovascular risk.

The present invention relates to a fluorescence sensor capable of real-time imaging for measuring a cellular thiol level. The present invention reveals that the fluorescence intensity of the fluorescent real-time SH group-tracer (FreSH-Tracer) of the present invention increases or decreases continuously, ratiometrically or reversibly depending on the thiol level in living cells, and thus can be usefully used as a biosensor which is remarkably susceptible to quantitative or qualitative real-time detection of the cellular thiol level in living cells.

The invention relates to a method for in vitro investigating mitochondrial replication dysfunction in a biological sample removed from a subject susceptible of suffering from physiological ageing or physiopathological conditions related to physiological ageing, or physiopathological ageing or associated symptoms or conditions, in particular premature ageing or accelerated ageing, or of a progeroid syndrome, such as Cockayne syndrome (CS), or neurodegenerative disorders or symptoms thereof, in which the levels of at least one species selected in the group of: POLG1 protein, POLG1 RNA, POLG2 protein, protease(s) which have POLG as a target, in particular serine protease(s) such as HTRA3 protein, HTRA2 protein and, HTRA3 RNA or HTRA2 RNA, or any combination of these species, are investigated. The invention also relates to kits and uses thereof, therapeutic methods against progeroid-like syndromes or symptoms and screening method for identifying particular protease inhibitor(s) and/or nitroso-redox stress scavenger compound(s) having relevance for the symptoms discussed herein.

A method is disclosed for obtaining an antibody or antibody fragment to a conformational epitope specific for misfolded inactive human parathyroid hormone and fragments thereof. The method includes the steps of a) immunizing an animal with an immunogen which comprises oxidized parathyroid hormone or an oxidized fragment of parathyroid hormone, or both; and b) recovering an antibody, antibody fragments, or single chain antibody. The complementary determining region of the recovered antibody, antibody fragment or single chain antibody is capable of specifically recognizing a conformational epitope (antigenic determinant) which is present on oxidized parathyroid hormone and fragments thereof only but not regular bioactive human parathyroid hormone.

The invention relates to new biomarkers for the diagnosis of inflammation-related diseases.

Primary skin fibroblasts obtained from individuals diagnosed with late-onset sporadic Parkinson's disease (PD), were compared to healthy age-matched controls. Fibroblasts from PD subjects had higher growth rates, and appeared distinctly different in terms of morphology and spatial organization in culture, compared to control cells. The PD fibroblasts also exhibited significantly compromised mitochondrial structure and function when assessed via morphological and oxidative phosphorylation assays. Additionally, an increase in baseline macroautophagy levels was seen in cells from PD subjects. Exposure of the skin fibroblasts to physiologically relevant stress, specifically ultraviolet irradiation (UVA), further exaggerated the autophagic dysfunction in the PD cells. Moreover, the PD fibroblasts accumulated higher levels of reactive oxygen species (ROS) coupled with lower cell viability upon UVA treatment. These results highlight primary skin fibroblasts as a patient-relevant model that captures fundamental PD molecular mechanisms, and enable their utility as diagnostic and prognostic biomarkers for PD.

The present application describes methods and systems for measuring and controlling oxidative stress in animals and humans. The degree of oxidative stress can be measured directly by inducing all of the blood cells to produce excessive reactive oxygen species (ROS) by exposure to an elevated concentration sulfide or other ROS inducing chemical and measuring the fluorescence intensity of a fluorescent dye or color intensity of dye that reacts with ROS. Oxidative stress can be reduced by reducing dietary sulfur, consumption of a methanogenic probiotic, or apheresis methods to replace ROS-positive blood cells with normal blood cells. Plasma oxidative stress can be compared in venous and arterial blood samples to evaluate small vessel disease. Oxidative stress can be increased by increasing dietary sulfur or the use of an intravenous method that exposes blood cells to an elevated blood concentration of sulfide or other ROS inducing chemical.

The present invention relates to a fluorescence sensor capable of real-time imaging for measuring a cellular thiol level. The present invention reveals that the fluorescence intensity of the fluorescent real-time SH group-tracer (FreSH-Tracer) of the present invention increases or decreases continuously, ratiometrically or reversibly depending on the thiol level in living cells, and thus can be usefully used as a biosensor which is remarkably susceptible to quantitative or qualitative real-time detection of the cellular thiol level in living cells.

In various embodiments, the present invention provides methods of treating and/or preventing cardiovascular-related disease and, in particular, a method of reducing or preventing HDL oxidation in a subject, the method comprising administering to the subject a pharmaceutical composition comprising eicosapentaenoic acid or a derivative thereof.