Albutensin A, an ileum-contracting peptide derived from serum albumin, acts through both receptors for complements C3a and C5a

Albutensin A is an ileum-contracting peptide derived from serum albumin. The sequences of bovine, human and porcine albutensin A are ALKAWSVAR, AFKAWAVAR, and AFKAWSLAR, respectively. These albutensin A homologs all exhibited biphasic ileal contractions in the longitudinal strips of guinea pig ileum. The order of potency in the contraction was porcine > bovine > human homologs. The ileal contraction profiles were similar to those of oryzatensin and casoxin C, agonist peptides for complement C3a receptors derived from rice albumin and bovine -casein, respectively. All three homologs of albutensin A have homology with the COOH-terminal sequences of complements C3a and C5a, which are essential for their activities; porcine albutensin A showed the highest homology. Indeed, porcine albutensin A was confirmed to act through both C3a and C5a receptors by a radioreceptor assay and cross-desensitization in the ileal contraction. In addition, bovine and human homologs also showed affinity for both receptors. This study suggests that a bioactive peptide acting through both C3a and C5a receptors is released by the proteolytic cleavage of serum proteins other than complement components.     

Sensitivity of the surface coat of the halotolerant green alga Dunaliella parva (Volvocales, Chlorophyceae) to lysozyme

The surface coat of Dunaliella parva Lerche was investigated using several techniques. Degradation by several cell lytic enzymes and ultrastructural observation revealed that D. parva has a specialized cell surface structure containing a glycoprotein that is sensitive not only to proteinases but also to lysozyme. This sensitivity was also demonstrated by electrophoresis of the cells and measurement of released glycerol after enzyme treatment. Immunochemical labeling indicated that the surface glycoprotein of D. parva is analogous to pepti-doglycan.     

Biochemical and structural characterization of an endoplasmic reticulum-localized late embryogenesis abundant (LEA) protein from the liverwort Marchantia polymorpha

Late embryogenesis abundant (LEA) proteins, which accumulate to high levels in seeds during late maturation, are associated with desiccation tolerance. A member of the LEA protein family was found in cultured cells of the liverwort Marchantia polymorpha; preculture treatment of these cells with 0.5 M sucrose medium led to their acquisition of desiccation tolerance. We characterized this preculture-induced LEA protein, designated as MpLEA1. MpLEA1 is predominantly hydrophilic with a few hydrophobic residues that may represent its putative signal peptide. The protein also contains a putative endoplasmic reticulum (ER) retention sequence, HEEL, at the C-terminus. Microscopic observations indicated that GFP-fused MpLEA1 was mainly localized in the ER. The recombinant protein MpLEA1 is intrinsically disordered in solution. On drying, MpLEA1 shifted predominantly toward α-helices from random coils. Such changes in conformation are a typical feature of the group 3 LEA proteins. Recombinant MpLEA1 prevented the aggregation of α-casein during desiccation–rehydration events, suggesting that MpLEA1 exerts anti-aggregation activity against desiccation-sensitive proteins by functioning as a “molecular shield”. Moreover, the anti-aggregation activity of MpLEA1 was ten times greater than that of BSA or insect LEA proteins, which are known to prevent aggregation on drying. Here, we show that an ER-localized LEA protein, MpLEA1, possesses biochemical and structural features specific to group 3 LEA proteins.     

Modulation of synaptic plasticity by brain estrogen in the hippocampus

The hippocampus is a center for learning and memory as well as a target of Alzheimer's disease in aged humans. Synaptic modulation by estrogen is essential to understand the molecular mechanisms of estrogen replacement therapy. Because the local synthesis of estrogen occurs in the hippocampus of both sexes, in addition to the estrogen supply from the gonads, its functions are attracting much attention.     

Prolyl Aminopeptidase from Streptomyces thermoluteus subsp. fuscus Strain NBRC14270 and Synthesis of Proline-Containing Peptides by Its S144C Variant

We specifically examined an exopeptidase, prolyl aminopeptidase (PAP), as a target for synthesis of proline-containing peptides. A PAP from Streptomyces thermoluteus subsp. fuscus NBRC14270 ({"type":"entrez-protein","attrs":{"text":"PAP14270","term_id":"1238921194","term_text":"PAP14270"}}PAP14270) was obtained using sequence-based screening. From {"type":"entrez-protein","attrs":{"text":"PAP14270","term_id":"1238921194","term_text":"PAP14270"}}PAP14270, 144Ser was replaced by Cys (scPAP14270) to give aminolysis activity. In contrast to wild-type {"type":"entrez-protein","attrs":{"text":"PAP14270","term_id":"1238921194","term_text":"PAP14270"}}PAP14270, scPAP14270 produced a polymer of proline benzyl ester and cyclo[Pro-Pro]. The product mass was confirmed using liquid chromatography-mass spectrometry (LC/MS). Several factors affecting the reaction, such as the pH, concentration of the substrate, and reaction time, were measured to determine their effects. Furthermore, a correlation was found between substrate specificity in proline peptide synthesis and the log D value of acyl acceptors in aminolysis catalyzed by scPAP14270. Results showed that dipeptide synthesis proceeded in a weakly acidic environment and that cyclization and polymerization occurred under alkaline conditions. Furthermore, results suggest that almost all amino acid esters whose log D value is greater than 0, except hydroxyproline benzyl ester (Hyp-OBzl), can be recognized as acyl acceptors. These findings support the use of PAPs as a tool for production of physiologically active proline peptides.Prolyl aminopeptidase (PAP) (EC 3.4.11.5), belonging to the S33 family, is an exopeptidase that catalyzes the hydrolysis of the N terminus prolyl residue of peptides or proteins. This family has catalytic Ser. To date, few applications of this enzyme for peptide synthesis have been reported. However, from the perspective of biotechnology, PAP might be a good tool for synthesizing proline-containing peptides by catalyzing aminolysis.Recently nutraceutical properties of peptides containing proline have received increasing attention. For example, prolyl hydroxyproline (Pro-Hyp) stimulates the growth of fibroblasts from mouse skin (11). Pro-Arg can protect against oxidative stress/damage and H₂O₂-induced human diploid fibroblast cell death (13). Furthermore, the lactotripeptides Ile-Pro-Pro and Val-Pro-Pro exhibit angiotensin I-converting enzyme-inhibiting activity (9). In addition to these dipeptides and tripeptides, a cyclic dipeptide (namely, diketopiperazine) containing proline shows several physiological functions. Cyclo[Pro-Pro] (cPP) exerts antibacterial activity against Micrococcus luteus and Pseudomonas aeruginosa (8). Caspase-3 activation by cyclo[Pro-Phe] in HT-29 cells has been described (3). However, its synthesis method has not been established. Enzymatic peptide synthesis presents a useful and desirable strategy because it can conduct specific reactions under milder conditions than those of chemical synthesis.Engineered endoserine proteases that have Cys substituted for catalytic Ser have also been applied for peptide synthesis since subtiligase was constructed by Abrahmsén et al. (1). Because of the weakened hydrolytic activity of the parent enzyme, it is considered that Ser/Cys-substituted protease can trap the substrate (acyl donor). Then, a nucleophilic reaction occurs between another substrate (acyl acceptor) and the trapped acyl donor (2). This is a so-called “aminolysis” reaction. Although aminolysis can conduct peptide synthesis in an aqueous solution, the problem of the necessity of using an N-protected amino acid as an acyl donor remains when using endoproteases.These problems would be solved using exoprotease as a catalyst, because N-terminal free amino groups of acyl donors are recognized by enzymes. It is rarely reported that exoprotease was applied for peptide synthesis, except in the report of Oshiro et al., in which Pro-Phe, Pro-Tyr, and Pro-Trp were synthesized (10). Recently our group reported that the Ser/Cys variant of exoprotease, aminolysin-S, has been constructed and has produced l-Phe-l-Phe ethyl ester and their derivatives from non-N-protected phenylalanine and phenylalanine ethyl ester as acyl donors in aqueous solution (12). However, aminolysin-S cannot produce proline-containing dipeptides.In this study, we describe a PAP from Streptomyces thermoluteus subsp. fuscus strain NBRC14270 ({"type":"entrez-protein","attrs":{"text":"PAP14270","term_id":"1238921194","term_text":"PAP14270"}}PAP14270). Furthermore, synthesis of various proline peptides was attempted through catalysis by its Ser/Cys variant (scPAP14270) from proline ester and several amino acids and their esters in aqueous solution. A basic characterization to determine the effect of pH and the amount of substrate was conducted. Moreover, correlation was found between proline peptide synthesis and the log D value, which is the distribution coefficient between octanol and water, of acyl acceptors in aminolysis mediated by scPAP14270.     

SCRAPPER-dependent ubiquitination of active zone protein RIM1 regulates synaptic vesicle release

Little is known about how synaptic activity is modulated in the central nervous system. We have identified SCRAPPER, a synapse-localized E3 ubiquitin ligase, which regulates neural transmission. SCRAPPER directly binds and ubiquitinates RIM1, a modulator of presynaptic plasticity. In neurons from Scrapper-knockout (SCR-KO) mice, RIM1 had a longer half-life with significant reduction in ubiquitination, indicating that SCRAPPER is the predominant ubiquitin ligase that mediates RIM1 degradation. As anticipated in a RIM1 degradation defect mutant, SCR-KO mice displayed altered electrophysiological synaptic activity, i.e., increased frequency of miniature excitatory postsynaptic currents. This phenotype of SCR-KO mice was phenocopied by RIM1 overexpression and could be rescued by re-expression of SCRAPPER or knockdown of RIM1. The acute effects of proteasome inhibitors, such as upregulation of RIM1 and the release probability, were blocked by the impairment of SCRAPPER. Thus, SCRAPPER has an essential function in regulating proteasome-mediated degradation of RIM1 required for synaptic tuning.     

Transforming activity of purinergic receptor P2Y, G-protein coupled, 2 revealed by retroviral expression screening

Colorectal cancer (CRC) is one of the leading causes of cancer death in humans. In order to identify novel cancer-promoting genes in CRC, we here constructed a retroviral cDNA expression library from a CRC cell line RKO, and used it for a focus formation assay with mouse 3T3 fibroblasts, leading to the identification of 42 independent cDNAs. One of such cDNAs turned out to encode purinergic receptor P2Y, G-protein coupled, 2 (P2RY2). The oncogenic potential of P2RY2 was confirmed in vitro with the focus formation assay as well as soft agar-growth assay, and also in vivo with a tumorigenicity assay in nude mice. While our P2RY2 cDNA encodes a protein with two amino-acid substitutions compared to the reported one, we have confirmed that the wild-type P2RY2 has a strong transforming potential as well. These results indicate an unexpected role of P2RY2 in the carcinogenesis of human cancers.     

Characteristics of type IV collagen unfolding under various pH conditions as a model of pathological disorder in tissue

The overall structure of type IV collagen is the same at neutral and acidic pH, as determined by circular dichroism spectra. The heating rate dependence of denaturation midpoint temperature (T(m)) shows that type IV collagen is unstable at body temperature, similarly to type I collagen. The heating rate dependence of T(m) at neutral pH has two phases, but that at acidic pH apparently has a single phase. The T(m) of the first phase (lower T(m)) at neutral pH is consistent with that at acidic pH, and the activation energy of these phases is consistent, within experimental error. The triple helix region of type IV collagen corresponding to the second phase (higher T(m)) at neutral pH is thermally stable when compared to the triple helical structure at acidic pH. At acidic pH, as the loosely packed and unstable region has spread throughout the whole molecule, the thermal transition is thought to be cooperative and is observed as a single phase. Structural flexibility is related to protein function and assembly; therefore, the unstable structure and increased flexibility of type IV collagen induced at acidic pH may affect diseases accompanied by type IV collagen disorder.     

Synthesis and evaluation of a novel lipid-peptide conjugate for functionalized liposome

A novel lipid analog based on amino acids for liposome modification was developed. It consisted of three different kinds of amino acid derivatives and two fatty acids, and can react directly with the peptide synthesized first on resin by Fmoc solid-phase synthesis. In this study, lipid analog conjugated with HIV-TAT peptide (domain of human immunodeficiency virus TAT protein) was synthesized and successfully incorporated into liposome. The liposome containing the lipopeptide bearing HIV-TAT exhibited efficient cellular uptake.