The present invention discloses cell lines and recombinant growth factor receptors useful in adoptive cell therapy (ACT), wherein the recombinant growth factor receptor can act as a molecular switch enabling cells expressing the rGFR protein to be expanded in-vitro or in-vivo. Thus the invention provides a T or NK cell, comprising a recombinant growth factor receptor (rGFR) comprising: (i) an extracellular (EC) domain; (ii) a thrombopoietin receptor transmembrane (TM) domain; and (iii) a growth factor receptor intracellular (IC) domain.

The present invention discloses cell lines and recombinant growth factor receptors useful in adoptive cell therapy (ACT), wherein the recombinant growth factor receptor can act as a molecular switch enabling cells expressing the rGFR protein to be expanded in-vitro or in-vivo. Thus the invention provides a T or NK cell, comprising a recombinant growth factor receptor (rGFR) comprising: (i) an extracellular (EC) domain; (ii) a thrombopoietin receptor transmembrane (TM) domain; and (iii) a growth factor receptor intracellular (IC) domain.

The present invention concerns compounds and their use to treat cardiovascular disease, renal disease, thrombic disease, stroke, metabolic syndrome, cell proliferation, and ischemic cardiovascular disorders. Compounds of the present invention display significant potency as antagonists of 20-hydroxyeicosatetraenoic acid (20-HETE), and function as anti-hypertensive, anti-inflammatory, or anti-growth agents.

The invention, in some aspects relates to light-activated ion channel molecules and methods for their use to alter cell activity and function. Light-activated ion channel molecules of the invention can be administered to subjects, expressed in cells, and activated with light, to alter membrane potential in the cells, and can be used in methods for assaying compounds, treating diseases and conditions, compound screening and more.

Provided herein are methods for determining the functional status of G-protein coupled receptor (GPCR) signaling pathways in a diseased cell sample obtained from a subject to thereby select for therapeutic use in the subject a RAS node or receptor tyrosine kinase (RTK) targeted therapeutic. Also provided are methods for determining whether a GPCR signaling pathway is ultrasensitive in a diseased cell sample from a subject. Methods of administering a selected RAS node or RTK targeted therapeutic agent to the subject are also provided.

The invention relates to compositions and methods for making and use of a real-time cellular sensor. Components of a multipart enzyme are sequestered in different cellular compartments and only come together after receptor activation; a pool of substrate is made available in the cell to ensure real-time enzymatic output.

The present invention discloses cell lines and recombinant growth factor receptors useful in adoptive cell therapy (ACT), wherein the recombinant growth factor receptor can act as a molecular switch enabling cells expressing the rGFR protein to be expanded in-vitro or in- vivo. Thus the invention provides a T or NK cell, comprising a recombinant growth factor receptor (rGFR) comprising: (i) an extracellular (EC) domain; (ii) a thrombopoietin receptor transmembrane (TM) domain; and (iii) a growth factor receptor intracellular (IC) domain.

Provided herein are generalized extracellular molecule sensors (GEMSs) and polynucleotides encoding the GEMSs. Also provided herein are methods of making and using the GEMSs, such as therapeutic and diagnostic methods.

Provided herein are generalized extracellular molecule sensors (GEMSs) and polynucleotides encoding the GEMSs. Also provided herein are methods of making and using the GEMSs, such as therapeutic and diagnostic methods.

Provided is a modified immune cell, comprising a chimeric antigen receptor and/or a coding element therefor, or comprising a T cell receptor and/or a coding element therefor. The immune cell further comprises: leptin and/or a functional fragment thereof; and/or, a leptin receptor and/or a functional fragment thereof, and the expression quantity of the leptin receptor and/or the functional fragment thereof in the immune cell is increased compared with that in an immune cell without the corresponding modification. In addition, also provided is another modified immune cell, comprising leptin and/or a functional fragment thereof, and/or, a leptin receptor and/or a functional fragment thereof, and a low-density lipoprotein-receptor-related protein or a fragment thereof.