Kerry Bruns

Autoinhibition of the ligand-binding site of GGA1/3 VHS domains by an internal acidic cluster-dileucine motif.

The GGAs (Golgi-localizing, γ-adaptin ear homology domain, ARF-binding proteins) are a family of proteins implicated in protein trafficking from the Golgi to endosomes/lysosomes. These proteins have modular structures with an N-terminal VHS (VPS-27, Hrs, and STAM) domain followed by a GAT (GGA and TOM1) domain, a connecting hinge segment, and a C-terminal GAE (γ-adaptin ear) domain. Isolated VHS domains have been shown to bind specifically to acidic cluster (AC)-dileucine motifs present in the cytoplasmic tails of the mannose 6-phosphate receptors. Here we report that full-length cytoplasmic GGA1 and GGA3 but not GGA2 bind the cation-independent mannose 6-phosphate receptor very poorly because of autoinhibition. This inhibition is caused by the binding of an AC-LL sequence present in the hinge segment to the ligand-binding site in the VHS domain. The inhibition depends on the phosphorylation of a serine located three residues upstream of the AC-LL motif. The serine is phosphorylated by casein kinase 2 in in vitro assays. Substitution of the GGA1 inhibitory sequence into the analogous location in GGA2, which lacks the AC-LL motif, results in autoinhibition of the latter protein. These data indicate that the activity of GGA1 and GGA3 is regulated by cycles of phosphorylation/dephosphorylation.

Basic fibroblast growth factor induces 3T3 fibroblasts to synthesize and secrete a cyclophilin-like protein and β2-microglobulin

Abstract When stimulated by fibroblast growth factor (FGF) BALB/c 3T3 cells synthesize and secrete elevated amounts of five proteins called the ‘superinducible proteins’, or SIPs. The expression of these proteins is greatly enhanced if the cells are treated with cycloheximide during induction. The 24 kDa protein 0SIP24) has been purified and antiserum raised against it. This protein is N-glycosylated and probably structurally constrained by one or more intramoleular disulfide bonds. The amino acid sequences of three of four peptides show significant identity with cyclophilin, an abundant cytoplasmic protein believed to mediate the immunosuppressive effects of cycloporin A. Several members of the cyclophilin family have been identified, and cDNA clones of two cyclophilin-like proteins with signal sequences have been reported. Here we show that at least one cyclophilin-like protein is secreted and that its expression is regulated by growth factors. The 12.5 kDa protein (SIP12.5) was found to be immunoprecipitated by an antiserum raised to human β2-microglobulin. This protein is strongly induced by interferon, which is a characteristic of the β2-microglobulin gene. Thus, FGF stimulates mouse embryo 3T3 cells to produce two proteins related to immune regulatory molecules. This may reflect an interaction between immune cells and nonimmune cells that occurs in vivo during processes such as wound healing when growth factors are released locally.

Regulation of the expression of mitogen-regulated protein (MRP; proliferin) and cathepsin L in cultured cells and in the murine placenta

The genes encoding mitogen-regulated protein (MRP; also called proliferin; PLF) and procathepsin L (CL; also called major excreted protein; MEP) are expressed to high levels in the mouse placenta. Although they are both regulated by epidermal growth factor (EGF) and fibroblast growth factor (FGF) in 3T3 cells, expression of these genes is differently regulated with growth state. The expression patterns of MRP and CL as a function of murine development are also different. Basal and growth factor-stimulated levels of MRP expression are much higher in growing than in quiescent 3T3 cells, whereas CL levels are similar. These changes in gene expression in cultured quiescent cells parallel the changes in MRP and CL expression observed in the late-gestational quiescent placenta. These results suggest growth factors may regulate the expression of these genes, but other influences also regulate the expression of MRP and CL in vivo.

A Simple Technique for the Purification of Plasma Membranes from Ejaculated Boar Spermatozoa

Spermatozoa were initially separated from fresh boar ejaculates using a 1.0 M sucrose density gradient. Spermatozoa (1 x 10(8) cells/ml) were subjected to gas cavitation (650 psi, 10 minutes), followed by a 4-step centrifugation technique to yield the final plasma membrane preparation. Purity of the plasma membrane isolate was determined using microscopic techniques (i.e. differential interference contrast and transmission electron microscopy) and marker enzymes for biochemical characterization. Plasma membranes were found to be removed primarily from the periacrosomal region of the sperm. Acrosomes appeared to remain intact on the cavitated spermatozoa. Transmission electron microscopy yielded a homogenous population of 100-200 microns unilamellar vesicles. Enzyme markers specific for plasma, acrosome and mitochondrial membranes substantial the purity observed under visual examination.

Hydrocarbon‐stapled lipopeptides exhibit selective antimicrobial activity

Antimicrobial peptides (AMPs) occur widely in nature and have been studied for their therapeutic potential. AMPs are of interest due to the large number of possible chemical structural combinations using natural and unnatural amino acids, with varying effects on their biological activities. Using physicochemical properties from known naturally occurring amphipathic cationic AMPs, several hydrocarbon‐stapled lipopeptides (HSLPs) were designed, synthesized, and tested for antimicrobial properties. Peptides were chemically modified by N‐terminal acylation, C‐terminal amidation, and some were hydrocarbon stapled by intramolecular olefin metathesis. The effects of peptide length, amphipathic character, and stapling on antimicrobial activity were tested against Escherichia coli, three species of Gram‐positive bacteria (Staphylococcus aureus, Bacillus megaterium, and Enterococcus faecalis), and two strains of Candida albicans. Peptides were shown to disrupt liposomes of different phospholipid composition, as measured by leakage of a fluorescent compound from vesicles. Peptides with (S)−2‐(4′‐pentenyl)‐alanine substituted for l‐alanine in a reference peptide showed a marked increase in antimicrobial activity, hemolysis, and membrane disruption. Stapled peptides exhibited slightly higher antimicrobial potency; those with greatest hydrophobic character showed the greatest hemolysis and liposome leakage, but lower antimicrobial activity. The results support a model of HSLPs as membrane‐disruptive AMPs with potent antimicrobial activity and relatively low hemolytic potential at biologically active peptide concentrations.

Exploitation of the Ornithine Effect Enhances Characterization of Stapled and Cyclic Peptides

AbstractA method to facilitate the characterization of stapled or cyclic peptides is reported via an arginine-selective derivatization strategy coupled with MS/MS analysis. Arginine residues are converted to ornithine residues through a deguanidination reaction that installs a highly selectively cleavable site in peptides. Upon activation by CID or UVPD, the ornithine residue cyclizes to promote cleavage of the adjacent amide bond. This Arg-specific process offers a unique strategy for site-selective ring opening of stapled and cyclic peptides. Upon activation of each derivatized peptide, site-specific backbone cleavage at the ornithine residue results in two complementary products: the lactam ring-containing portion of the peptide and the amine-containing portion. The deguanidination process not only provides a specific marker site that initiates fragmentation of the peptide but also offers a means to unlock the staple and differentiate isobaric stapled peptides. Graphical Abstractᅟ

A rapid quantitative method of carisoprodol and meprobamate by liquid chromatography–tandem mass spectrometry

The identification and quantitation of carisoprodol (Soma) and its chief metabolite meprobamate, which is also a clinically prescribed drug, remains a challenge for forensic toxicology laboratories. Carisoprodol and meprobamate are notable for their widespread use as muscle relaxants and their frequent identification in the blood of impaired drivers. Routine screening is possible in both an acidic/neutral pH screen and a traditional basic screen. An improvement in directed testing quantitations was desirable over the current options of an underivatized acidic/neutral extraction or a basic screen, neither of which used ideal internal standards. A new method was developed that utilized a simple protein precipitation, deuterated internal standards and a short 2-min isocratic liquid chromatography separation, followed by multiple reaction monitoring with tandem mass spectrometry. The linear quantitative range for carisoprodol was determined to be 1-35mg/L and for meprobamate was 0.5-50mg/L. The method was validated for specificity and selectivity, matrix effects, and accuracy and precision.