Use of a gel-forming dipeptide derivative as a carrier for antigen presentation

A dipeptide of the formula Fmoc-Leu-Asp and some other related dipeptides were synthesized in solution by standard methods. When such peptides are dissolved in water at concentrations below 1% at 100 °C and cooled below 60 °C they form turbid solutions and eventaully visocelastic gels at lower temperatures. Such gels are thermoreversible and can also be disrupted by mechanical agitation. At a concentration of 2 mg/ml the peptide Fmoc-Leu-Asp forms an aqueous gel at 60 °C with a shear modulus of 80 Pa measured at a frequency of 1 rad/s. Peptide solutions undergo an abrupt increase in light scattering between 1 and 1.5 mg/ml at both 23 and 60 °C. By analogy with previous observations of other systems, this increse appears to be due to the formation of filamentous micelles and the aggregation of filamaents into a three-dimensional network. When low molecular weight adamantanamine derivatives, which are inherently non-antigenci antiviral drugs, were incorporated into the Fmoc-Leu-Asp gel and injected into rabbits, high titre specific antibodies were efficiently produced without the need for additional adjuvant. Both the physical properties of the gel and its effect on the antigenicity of low molecular weight compounds suggest a number of practical applications.     

CASK interacts with PMCA4b and JAM-A on the mouse sperm flagellum to regulate Ca2+ homeostasis and motility

Deletion of the highly conserved gene for the major Ca²⁺ efflux pump, Plasma membrane calcium/calmodulin‐dependent ATPase 4b (Pmca4b), in the mouse leads to loss of progressive and hyperactivated sperm motility and infertility. Here we first demonstrate that compared to wild‐type (WT), Junctional adhesion molecule‐A (Jam‐A) null sperm, previously shown to have motility defects and an abnormal mitochondrial phenotype reminiscent of that seen in Pmca4b nulls, exhibit reduced (P < 0.001) ATP levels, significantly (P < 0.001) greater cytosolic Ca²⁺ concentration ([Ca²⁺]_c) and ～10‐fold higher mitochondrial sequestration, indicating Ca²⁺ overload. Investigating the mechanism involved, we used co‐immunoprecipitation studies to show that CASK (Ca²⁺/calmodulin‐dependent serine kinase), identified for the first time on the sperm flagellum where it co‐localizes with both PMCA4b and JAM‐A on the proximal principal piece, acts as a common interacting partner of both. Importantly, CASK binds alternatively and non‐synergistically with each of these molecules via its single PDZ (PDS‐95/Dlg/ZO‐1) domain to either inhibit or promote efflux. In the absence of CASK–JAM‐A interaction in Jam‐A null sperm, CASK–PMCA4b interaction is increased, resulting in inhibition of PMCA4b's enzymatic activity, consequent Ca²⁺ accumulation, and a ～6‐fold over‐expression of constitutively ATP‐utilizing CASK, compared to WT. Thus, CASK negatively regulates PMCA4b by directly binding to it and JAM‐A positively regulates it indirectly through CASK. The decreased motility is likely due to the collateral net deficit in ATP observed in nulls. Our data indicate that Ca²⁺ homeostasis in sperm is maintained by the relative ratios of CASK–PMCA4b and CASK–JAM‐A interactions. J. Cell. Physiol. 227: 3138–3150, 2012. © 2011 Wiley Periodicals, Inc.     

Involvement of phosphatidylinositol 4,5-bisphosphate in phosphatidylserine exposure in platelets: use of a permeant phosphoinositide-binding peptide.

During platelet activation, phosphatidylserine (PS) exposure on the extracellular face of the plasma membrane is associated with increased procoagulant activity. PS externalization is generally attributed to an increase in intracellular Ca(2+). Various phospholipid transporters, such as specific scramblases or proteins from the family of multidrug resistance proteins, and cofactors such as phosphatidylinositol 4,5-bisphosphate (PIP2) have been proposed to participate in this process. In this study, we used a membrane-permeant polycationic peptide (RhB-QRLFQVKGRR), derived from the PIP2-binding site of gelsolin (GS 160-169) and linked to rhodamine B, to investigate the role of PIP2 in PS externalization in whole platelets. The peptide penetrated rapidly into the platelets, specifically bound to PIP2, and induced PS exposure to a similar extent as thrombin or collagen, but independently of changes in intracellular Ca(2+) or phosphoinositide 3-kinase activity. A pretreatment of platelets with quercetin, an inhibitor of phosphoinositide metabolism, drastically decreased PS exposure induced by agonists or peptide. In large unilamellar vesicles (LUVs), the presence of PIP2 was strictly required for the induction of scrambling of NBD-labeled phospholipids (PC and PS) by the peptide. In inside-out vesicles from erythrocytes (IOVs), the peptide also induced redistribution of PC and PS. Our data suggest that, in intact platelets, PIP2 acts as a target of polycationic effectors, including Ca(2+), to promote PS exposure. The use of a membrane-permeant and fluorescent peptide which binds to PIP2 is a promising tool to investigate the role of PIP2 in various cellular processes.     

Acidic hyaluronidase activity is present in mouse sperm and is reduced in the absence of SPAM1: Evidence for a role for hyaluronidase 3 in mouse and human sperm

The molecular mechanisms underlying sperm penetration of the physical barriers surrounding the oocyte have not been completely delineated. Although neutral‐active or “reproductive” hyaluronidases (hyases), exemplified by Sperm Adhesion Molecule 1 (SPAM1), are thought to be responsible for hyaluronan digestion in the egg vestments and for sperm‐zona binding, their roles in mouse sperm have been recently questioned. Here we report that acidic “somatic” Hyaluronidase 3 (HYAL3), a homolog of SPAM1 with 74.6% structural similarity, exists in two isoforms in human (～47 and ～55 kDa) and mouse (～44 and ～47 kDa) sperm, where it resides on the plasma membrane over the head and midpiece. Mouse isoforms are differentially distributed in the soluble (SAP), membrane (MBP), and acrosome‐reacted (AR) fraction where they are most abundant. Comparisons of zymography of Hyal3 null and wild‐type (WT) AR and MBP fractions show significant HYAL3 activity at pH 3 and 4, and less at pH 7. At pH 4, a second acid‐active hyase band at ～57 kDa is present in the AR fraction. HYAL3 activity was confirmed using immunoprecipitated HYAL3 and spectrophotometry. In total proteins, hyase activity was higher at pH 6 than at 4, where Spam1 nulls had significantly (P < 0.01) diminished activity implicating an acidic optima for murine SPAM1. Although fully fertile, Hyal3 null sperm showed delayed cumulus penetration and reduced acrosomal exocytosis. HYAL3 is expressed in epididymal tissue/fluid, from where it is acquired by caudal mouse sperm in vitro. Our results reveal concerted activity of both neutral‐ and acid‐active hyaluronidases in sperm. Mol. Reprod. Dev. 77: 759–772, 2010. © 2010 Wiley‐Liss, Inc.     

Cell permeant polyphosphoinositide-binding peptides that block cell motility and actin assembly

Polyphosphoinositides (PPIs) affect the localization and activities of many cellular constituents, including actin-modulating proteins. Several classes of polypeptide sequences, including pleckstrin homology domains, FYVE domains, and short linear sequences containing predominantly hydrophobic and cationic residues account for phosphoinositide binding by most such proteins. We report that a ten-residue peptide derived from the phosphatidylinositol 4,5-bisphosphate (PIP(2)) binding region in segment 2 of gelsolin, when coupled to rhodamine B has potent PIP(2) binding activity in vitro; crosses the cell membrane of fibroblasts, platelets, melanoma cells, and neutrophils by a process not involving endocytosis; and blocks cell motility. This peptide derivative transiently disassembles actin filament structures in GFP-actin-expressing NIH3T3 fibroblasts and prevents thrombin- or chemotactic peptide-stimulated actin assembly in platelets and neutrophils, respectively, but does not block the initial [Ca(2+)] increase caused by these agonists. The blockage of actin assembly and motility is transient, and cells recover motility within an hour after their immobilization by 5-20 microm peptide. This class of reagents confirms the critical relation between inositol lipids and cytoskeletal structure and may be useful to probe the location and function of polyphosphoinositides in vivo.     

Ability of trypsin in mimicking germ cell factors that affect Sertoli cell secretory function

A biological factor that inhibits the in vitro secretion of testin by Sertoli cells was purified to apparent homogeneity from conditioned medium of germ cells isolated using trypsin. Partial N-terminal amino acid sequence analysis of the purified germ cell factor revealed a sequence of NH₂-IVGGYTXAAN. Comparison of the sequence with the existing protein database revealed that it is homologous to trypsin. Immunoprecipitation experiments using either [¹⁵S]-labeled germ or Sertoli cell proteins and a monospecific anti-trypsin antibody failed to demonstrate the synthesis and secretion of trypsin by these testicular cells, suggesting the isolated factor is the residuary trypsin that was used for isolating germ cells from seminiferous tubules. Subsequent experiments revealed that trypsin per se can inhibit the secretion of Sertoli cell testin and clusterin dose-dependently, whose effect can be prohibited by soybean trypsin inhibitor (STI). In view of these findings, a nonenzymatic procedure was deemed necessary to prepare germ cell conditioned medium (GCCM) to assess whether an authentic biological factor(s) is indeed present. Four batches of conditioned medium of germ cells isolated by a mechanical procedure without the use of trypsin were fractionated by sequential Mono Q anion exchange and C8 reversed-phase HPLC. When these fractions were monitored for testin modulatory activity using an in vitro bioassay with primary cultures of Sertoli cells, it was shown that GCCM prepared by this procedure indeed contained testin modulatory bioactivity. Since testin is a novel component of specialized junctions between Sertoli and germ cells, the identification of a germ cell factor(s) that affects its secretion by Sertoli cells suggests a dynamic biochemical relationship between these cell types in the seminiferous epithelium. © 1996 Wiley-Liss, Inc.     

Spectroscopic studies of a phosphoinositide-binding peptide from gelsolin: behavior in solutions of mixed solvent and anionic micelles.

The peptide G(150-169) corresponds to a phosphatidylinositol 4,5-bisphosphate (PIP2) and filamentous actin (F-actin) binding site on gelsolin (residues 150-169, with the sequence KHVVPNEVVVQRLFQVKGRR). The conformation of this peptide in trifluoroethanol (TFE) aqueous solution was determined by 1H nuclear magnetic resonance as the first step toward understanding the structural aspects of the interaction of G(150-169) and PIP2. The circular dichroism experiments show that G(150-169) adopts a predominantly alpha-helical form in both 50% TFE aqueous solution and in the presence of PIP2 micelles, therefore establishing a connection between the two conformations. 1H nuclear magnetic resonance experiments of G(150-169) in TFE co-solvent show that the helical region extends from Pro-154 to Lys-166. The amphiphilic nature of this helical structure may be the key to understanding the binding of the peptide to lipids. Sodium dodecyl sulfate micelle solution is used as a model for anionic lipid environments. Preliminary studies of the conformation of G(150-169) in sodium dodecyl sulfate micelle solution show that the peptide forms an alpha-helix similar to but with some structural differences from that in TFE co-solvent. Fluorescence experiments provide evidence of peptide clustering over a narrow range of peptide/PIP2 ratios, which is potentially relevant to the biological function of PIP2.