Identification and characterization of a melanin-concentrating hormone receptor

Melanin-concentrating hormone (MCH), a neuropeptide expressed in central and peripheral nervous systems, plays an important role in the control of feeding behaviors and energy metabolism. An orphan G protein-coupled receptor (SLC-1/GPR24) has recently been identified as a receptor for MCH (MCHR1). We report here the identification and characterization of a G protein-coupled receptor as the MCH receptor subtype 2 (MCHR2). MCHR2 has higher protein sequence homology to MCHR1 than any other G protein-coupled receptor. The expression of MCHR2 has been detected in many regions of the brain. In contrast to MCHR1, which is intronless in the coding region and is located at the chromosomal locus 22q13.3, the MCHR2 gene has multiple exons and is mapped to locus 6q21. MCHR2 is specifically activated by nanomolar concentrations of MCH, binds to MCH with high affinity, and signals through Gq protein. This discovery is important for a full understanding of MCH biology and the development of potential therapeutics for diseases involving MCH, including obesity.

Constitutively active human Notch1 binds to the transcription factor CBF1 and stimulates transcription through a promoter containing a CBF1-responsive element.

Notch is a transmembrane receptor that plays a critical role in cell fate determination. In Drosophila, Notch binds to and signals through Suppressor of Hairless. A mammalian homologue of Suppressor of Hairless, named CBF1 (or RBPJk), is a ubiquitous transcription factor whose function in mammalian Notch signaling is unknown. To determine whether mammalian Notch can stimulate transcription through a CBF1-responsive element (RE), we cotransfected a CBF1-RE-containing chloramphenicol acetyltransferase reporter and N1(deltaEC), a constitutively active form of human Notch1 lacking the extracellular domain, into DG75, COS-1, HeLa, and 293T cells, which all contain endogenous CBF1. N1(deltaEC) dramatically increased chloramphenicol acetyltransferase activity in these cells, indicating functional coupling of Notch1 and CBF1. The activity was comparable to that produced by the Epstein-Barr virus protein EBNA2, a well-characterized, potent transactivator of CBF1. To test whether CBF1 and Notch1 interact physically, we tagged CBF1 with an epitope from the influenza virus hemagglutinin or with the N-terminal domain of gal4, and transfected the tagged CBF1 plus N1(deltaEC) into COS-1 cells. Cell lysates were immunoprecipitated and immunoblotted with several anti-Notch1 antibodies [to detect N1(deltaEC)] or with antibodies to hemagglutinin or gal4 (to detect CBF1). Each immunoprecipitate contained a complex of N1(deltaEC) and CBF1. In summary, we find that the truncated, active form of human Notch1, N1(deltaEC), binds CBF1 and activates transcription through a CBF1-RE-containing promoter. We conclude that CBF1 is a critical downstream protein in the human Notch1 signaling pathway.