Lsc is required for marginal zone B cells, regulation of lymphocyte motility and immune responses.

Lsc (the murine homolog of human p115 Rho GEF) is a member of the Dbl-homology family of GTP exchange factors and is a specific activator of Rho. Lsc is activated by the G alpha(13) subunit of heterotrimeric G proteins and contains a regulator of G protein signaling domain that downmodulates G alpha(12) and G alpha(13). Lsc is expressed primarily in the hematopoietic system and links the activation of G alpha(12) and G alpha(13)-coupled receptors to actin polymerization in B and T cells. Lsc is essential for marginal zone B (MZB) cell homeostasis and for the generation of immune responses. Although Lsc-deficient lymphocytes show reduced basal motility, MZB cells show enhanced migration after serum activation. Thus, Lsc is a critical regulator of MZB cells and immune functions.

Role of the major homology region in assembly of HIV-1 Gag.

The major homology region (MHR) is a highly conserved sequence in the gag gene of all retroviruses, including HIV-1. Its role in assembly is unknown, but deletion of the motif significantly impairs membrane binding and viral particle formation. To begin characterizing this defect, we have determined the contribution of this region to the energetics of the assembly process. Intrinsic fluorescence studies were conducted to determine the change in free energy associated with membrane and RNA binding using tRNA and large unilamellar vesicles of 1-palmitoyl-2-oleoylphosphatidylserine as models. For the wild-type protein, the change in free energy was within RT [600 cal/(mol.K)] whether Gag binds first to RNA or to the membrane. Thus, the initial binding of Gag can be to either substrate, but in vivo conditions favor initial association to RNA presumably due to its higher local concentration. After establishing the pattern of assembly, we compared the binding energy of Gag(WT) versus the deletion mutant, Gag(Delta)(MHR). Gag(WT) bound to membranes with a 2-fold higher affinity than Gag(Delta)(MHR), and the binding to RNA was similar for the two proteins. Gag prebound to RNA or to membrane exhibited approximately 2-4-fold greater binding affinity than Gag(Delta)(MHR) for binding the membrane or RNA, respectively. Most importantly, the mutant was significantly impaired in its ability to self-associate on RNA or on membrane surfaces. This key role of the MHR in promoting productive protein-protein interactions was also seen in altered amounts of cleavage products and the lack of membrane-bound, RNA-containing replication intermediates in infected cells. These results suggest that Gag first binds to RNA and then assembles into a multimeric complex with a large membrane-binding face that facilitates subsequent membrane binding. Deletion of the MHR disrupts the protein-protein interactions required to complete this process.