Methods of treating cancer with antibodies that bind colony stimulating factor 1 receptor (CSF1R) in combination with PD-1/PD-L1 inhibitors are provided.

Embodiments of the present invention relate to use of a GP73 inhibitor in preparation of a drug for treating diabetes. In the embodiments of the present invention, the inventor finds that GP73 plays a key role in blood glucose regulation, and in particular, finds that soluble GP73 can specifically bind to glucagon to form a complex, enhances the blood glucose-rising function and gluconeogenesis function of glucagon and prolongs the half-life of glucagon; and finds soluble GP73 can activate the glucose production in liver and/or kidney and a gluconeogenesis signaling pathway in a glucagon-independent manner. Based on the blood glucose regulation effect of the GP73 described above, the inventor also proves through animal experiments: the GP73 inhibitor can reduce the blood glucose level and glycated hemoglobin level of diabetic mice and have a protective effect on islet β cells, and thereby having the effect of treating diabetes.

This present disclosure relates to the use of syncytiotrophoblast-derived microvesicles for diagnosing and/or monitoring a subject with preeclampsia. Accordingly, this disclosure provides for methods for isolating, purifying, and/or detecting syncytiotrophoblast-derived microvesicles from a biological fluid of a pregnant subject. The present disclosure also provides kits for diagnosing a subject with preeclampsia, where the kit contains reagents useful for isolating, purifying, and/or identifying the syncytiotrophoblast-derived microvesicles in a biological sample and for detecting one or more biomarkers present on the surface of or within the syncytiotrophoblast-derived microvesicles.

A method of obtaining a pluripotent-like multipotent cell, including providing a cell of a first type which is not a pluripotent-like multipotent cell; contacting the cell of a first type with an agent capable of remodeling the chromatin and/or DNA of the cell; transiently increasing expression of at least one pluripotent gene regulator in the cell of a first type, to a level at which the at least one pluripotent gene regulator is capable of driving transformation of the cell of a first type into the pluripotent-like multipotent cell; and placing or maintaining the cell in a differentiation medium and maintaining intracellular levels of the at least one pluripotent gene regulator for a sufficient period of time to allow a stable pluripotent-like multipotent cell to be obtained; wherein the pluripotent-like multipotent cell so obtained does not exhibit teratoma formation in vivo.

This invention concerns in general treatment of diseases and pathological conditions with anti-VEGF antibodies. More specifically, the invention concerns the treatment of human patients susceptible to or diagnosed with cancer using an anti-VEGF antibody, preferably in combination with one or more additional anti-tumor therapeutic agents for the treatment of ovarian cancer.

The present disclosure relates to methods for increasing telomere length in one or more human cells and/or increasing genome stability of one or more human cells, for example by contacting one or more human cells with an agent that increases expression of Zscan4 in the one or more human cells. Methods of treating a subject in need of telomere lengthening, treating a disease or condition associated with a genomic and/or chromosome abnormality, of rejuvenating one or more human cells, of rejuvenating tissues or organs, and of rejuvenating a subject in need thereof, for example by contacting one or more human cells in the subject with an agent that increases expression of Zscan4, or by administering to a subject in need thereof, an agent that increases expression of Zscan4 are also provided.

The present invention relates to a pyrazine derivative, an application thereof in inhibiting SHP2, and a compound of formula (I) or pharmaceutically acceptable salts, esters, isomers, solvates, prodrugs or isotope labels thereof. The structure of the compound of formula (I) is as follows. The novel pyrazine derivative provided by the present invention has excellent inhibition of SHP2 activity and can be used to prevent and/or treat non-receptor protein tyrosine phosphatase-mediated or dependent diseases or disorders.

Disclosed herein are monomeric and oligomeric compound embodiments for use as contraceptive agents. Monomeric compound embodiments disclosed herein comprise substituents that facilitate the ability of the compounds to exhibit progestogenic, androgenic, and estrogenic activity, which can prevent or inhibit bone density loss in subjects. Oligomeric compound embodiments disclosed herein provide the ability to control receptor activation and/or treatment by incorporating a tunable linker group which couples steroidal-based compounds to one another or with therapeutic agents and facilitates selective cleavage of the monomeric components of the oligomeric compound.

The present invention relates to isolated or purified or partially purified peptide derived molecules having the following general formula (S1): X-[(Pro).sub.n-His-Pro-His-Ala-Arg-Ile-Lys].sub.m-Y. The peptides are for medical use, in particular as anti-tumoral agents.

The invention provides improved T cell compositions and methods for manufacturing T cells. More particularly, the invention provides methods of T cell manufacturing that result in adoptive T cell immunotherapies with improved survival, expansion, and persistence in vivo.