The present invention relates to synergistic pharmaceutical combinations comprising organic arsenoxide compounds and mTOR inhibitors. Further, the present invention relates to the use of these pharmaceutical combinations in therapy, in particular, treatment of proliferative diseases.

The present invention relates to synergistic pharmaceutical combinations comprising organic arsenoxide compounds and mTOR inhibitors. Further, the present invention relates to the use of these pharmaceutical combinations in therapy, in particular, treatment of proliferative diseases.

The present invention relates to organo-arsenoxide compounds and to methods for their synthesis. The invention also relates to pharmaceutical compositions comprising these compounds and to their use in the treatment of diseases and disorders, in particular proliferative diseases and disorders, including treatment of solid tumors and leukaemia.

The methods and compositions described herein improve cardiovascular outcomes using measures related to systemic chronic inflammation (the inflammatory age—iAge, the cardiovascular age—cAge, and levels of certain markers) to stratify patients into low risk and high risk groups. The personalized immune proteome signature creates an individualized initial therapy to reduce cAge and to convert high risk patients into low risk patients. High risk patients can be converted to low risk patients by treating the patients to reduce their cAge, iAge and/or improve their CRS.

The methods and compositions described herein improve cardiovascular outcomes using measures related to systemic chronic inflammation (the inflammatory age—iAge, the cardiovascular age—cAge, and levels of certain markers) to stratify patients into low risk and high risk groups. The personalized immune proteome signature creates an individualized initial therapy to reduce cAge and to convert high risk patients into low risk patients. High risk patients can be converted to low risk patients by treating the patients to reduce their cAge, iAge and/or improve their CRS.

The methods and compositions described herein improve cardiovascular outcomes using measures related to systemic chronic inflammation (the inflammatory age—iAge, the cardiovascular age—cAge, and levels of certain markers) to stratify patients into low risk and high risk groups. The personalized immune proteome signature creates an individualized initial therapy to reduce cAge and to convert high risk patients into low risk patients. High risk patients can be converted to low risk patients by treating the patients to reduce their cAge, iAge and/or improve their CRS.

The methods and compositions described herein improve cardiovascular outcomes using measures related to systemic chronic inflammation (the inflammatory age—iAge, the cardiovascular age—cAge, and levels of certain markers) to stratify patients into low risk and high risk groups. The personalized immune proteome signature creates an individualized initial therapy to reduce cAge and to convert high risk patients into low risk patients. High risk patients can be converted to low risk patients by treating the patients to reduce their cAge, iAge and/or improve their CRS.

A method for treating a lymphoma selected from non-Hodgkin's and Hodgkin's lymphoma comprising administering an organoarsenic compound having a structure of the formula (I) wherein X is S or Se and R.sub.1 and R.sub.2 are independently C.sub.1-30alkyl (R.sub.3, R.sub.3′, R.sub.4, R.sub.5, W and “n” are as defined in claim 1) in particular where the compound is S-dimethylarsinoglutathione, N-(2-S-dimethylarsinothiopropionyl)glycine, 2-amino-3-(dimethylarsino)thio-3-methylbutanoic acid, S-dimethylarsino-thiosuccinic acid or S-dipropylarsino-1-thioglycerol. ##STR00001##

A method for treating a lymphoma selected from non-Hodgkin's and Hodgkin's lymphoma comprising administering an organoarsenic compound having a structure of the formula (I) wherein X is S or Se and R.sub.1 and R.sub.2 are independently C.sub.1-30alkyl (R.sub.3, R.sub.3′, R.sub.4, R.sub.5, W and “n” are as defined in claim 1) in particular where the compound is S-dimethylarsinoglutathione, N-(2-S-dimethylarsinothiopropionyl)glycine, 2-amino-3-(dimethylarsino)thio-3-methylbutanoic acid, S-dimethylarsino-thiosuccinic acid or S-dipropylarsino-1-thioglycerol. ##STR00001##

The use of a genetic method to down-regulate RBO/EFR3/EFR3A/EFR3B proteins, TTC7 protein or PI4KIIIα enzyme protein which interacts with RBO/EFR3/EFR3A/EFR3B proteins and TTC7 protein, or the use of a drug to inhibit PI4KIIIα protein kinase activity reduces the accumulation of Aβ.sub.42 within neurons and age-dependent synaptic transmission failure and other obstacles in a fruit fly AD model, and obtains an effect of improving the learning and memory abilities of AD model mice. Provided is a method for using an RBO/EFR3/EFR3A/EFR3B inhibitor, a TTC7 inhibitor and a PI4KIIIα inhibitor to treat Alzheimer's disease. Also provided is a method for screening a drug treating Alzheimer's disease by whether Aβ secretion by nerve cells is promoted or not.