Abstract: Described are methods of enhancing development of renal organoids, methods of using the same, and kits.

Abstract: The illuminated boat rub rail is adapted for use with a water vessel. The illuminated boat rub rail is a combination rub rail and navigational lighting system that is mounted on the hull of the water vessel. The rub rail of the illuminated boat rub rail has integrated into it a plurality of lights that are used for augmented navigational and transportation purposes.

Abstract: Described herein are methods related to generating intermediate mesoderm (IM) cells, including using sequential treatment of small molecules and growth factors, and composition produced by the described methods. Using small molecules such as CHIR99021 in combination with FGF2 and RA, efficient differentiation of human pluripotent stem cells (hPSCs) into intermediate mesoderm, such as PAX2+LHX1+ cells, is achieved. The method is extensible different hPSC cell lines and does not require flow sorting. Importantly, resulting PAX2+LHX1+ cells, are capable of WT1 expression and addition of FGF9 and activin, PAX2+LHX1+ cells specifically differentiates cells into SIX2, SALL1, and WT1 expressing cells representative of cap mesenchyme nephron progenitor cells. The described methods and compositions facilitate and improve the directed differentiation of hPSCs into cells of the kidney lineage for the purposes of bioengineering kidney tissue and iPS cell disease modeling.

Abstract: The present invention is directed to methods of inhibiting the production of proinflammatory agents by macrophages by contacting the cells with a monocarboxylate such as nicotinic acid. The invention also includes methods of treating diseases that are associated with macrophage activation such as atherosclerosis; systemic lupus erythematosus; rheumatoid arthritis; inflammatory bowel disease; and diabetes mellitus.

Abstract: Disclosed are antibodies that inhibit proteolytic release of a soluble KIM-1 polypeptide from KIM-1 expressing cells. Also disclosed are methods of using the antibodies to inhibit shedding of the KIM-1 polypeptide.

Abstract: Disclosed are antibodies that inhibit proteolytic release of a soluble KIM-1 polypeptide from KIM-1 expressing cells. Also disclosed are methods of using the antibodies to inhibit shedding of the KIM-1 polypeptide.

Abstract: Proteins which are upregulated in injured or regenerating tissues, as well as the DNA encoding these proteins, are disclosed, as well as therapeutic compositions and methods of treatment encompassing these compounds.

Abstract: Disclosed are cis-acting regulatory elements from a KIM-1 gene. The elements can be used to direct the expression of operably linked sequences in renal tissue.

Abstract: Disclosed are cis-acting regulatory elements from a KIM-1 gene. The elements can be used to direct the expression of operably linked sequences in renal tissue.

Abstract: Proteins which are upregulated in injured or regenerating tissues, as well as the DNA encoding these proteins, are disclosed, as well as therapeutic compositions and methods of treatment encompassing these compounds.

Abstract: Disclosed are antibodies that inhibit proteolytic release of a soluble KIM-1 polypeptide from KIM-1 expressing cells. Also disclosed are methods of using the antibodies to inhibit shedding of the KIM-1 polypeptide.

Abstract: Disclosed are antibodies that inhibit proteolytic release of a soluble KIM-1 polypeptide from KIM-1 expressing cells. Also disclosed are methods of using the antibodies to inhibit shedding of the KIM-1 polypeptide.

Abstract: Disclosed are antibodies that inhibit proteolytic release of a soluble KIM-1 polypeptide from KIM-1 expressing cells. Also disclosed are methods of using the antibodies to inhibit shedding of the KIM-1 polypeptide.

Abstract: Proteins which are upregulated in injured or regenerating tissues, as well as the DNA encoding these proteins, are disclosed, as well as therapeutic compositions and methods of treatment encompassing these compounds.

Abstract: Disclosed are cis-acting regulatory elements from a KIM-1 gene. The elements can be used to direct the expression of operably linked sequences in renal tissue.

Abstract: The invention relates to the use of MEK1 inhibitors to reduce tissue damage resulting from ischemia and/or reperfusion, particularly brain damage associated with ischemia resulting from stroke. Pharmaceutical compositions, kits and perfusion fluids including MEK1 inhibitors are also provided.

Abstract: The invention relates to the use of MEK1 inhibitors to reduce tissue damage resulting from ischemia and/or reperfusion, particularly brain damage associated with ischemia resulting from stroke. Pharmaceutical compositions, kits and perfusion fluids including MEK1 inhibitors are also provided.

Abstract: A SOK polypeptide, an isolated DNA having a nucleotide sequence encoding a SOK polypeptide, and a method of determining whether a candidate compound modulates SOK-1 activity or expression, comprising the steps of providing a first and a second recombinant cell expressing a SOK gene; introducing a candidate compound into the first cell, but not into the second cell; measuring a SOK function in the first and second cells; and comparing the results obtained with the first and second SOK transformed cells, wherein an increase or decrease in the SOK function in the first cell compared to the second cell is an indication that the candidate compound modulates SOK expression or activity.

Abstract: A SOK polypeptide, an isolated DNA having a nucleotide sequence encoding a SOK polypeptide, and a method of determining whether a candidate compound modulates SOK-1 activity or expression, comprising the steps of providing a first and a second recombinant cell expressing a SOK gene; introducing a candidate compound into the first cell, but not into the second cell; measuring a SOK function in the first and second cells; and comparing the results obtained with the first and second SOK transformed cells, wherein an increase or decrease in the SOK function in the first cell compared to the second cell is an indication that the candidate compound modulates SOK expression or activity.