The Effect of the B Subunit of Cholera Toxin on the Action of Nerve Growth Factor on PC12 Cells

Abstract: Exogenous gangliosides, especially ganglioside GM1 (GM1), seem to potentiate the action of nerve growth factor (NGF). We have examined the possible regulation of the NGF signaling pathway in PC12 cells by the B subunit of cholera toxin (CTB), which binds to endogenous GM1 specifically and with a high affinity. CTB treatment (1 μg/ml) enhanced NGF-induced neurite outgrowth from PC12 cells, NGF-induced activation of ribosomal protein S6 kinase, and NGF-induced stimulation of trk phosphorylation. CTB plus NGF also caused a greater inhibition of [³H]-thymidine incorporation into DNA than did NGF alone. These enhancing effects of CTB were blocked by the presence of cytochalasin B in the culture medium but were not affected by the presence of colchicine or by the depletion of Ca²⁺ in the medium. ¹²⁵I-NGF binding experiments revealed that CTB treatment did not affect the specific binding of NGF to the cells. These results strongly suggest that the binding of cell surface GM1 by CTB modulates the pathway of intracellular signaling initiated by NGF and that the association of CTB with a cytoskeletal component is essential for these effects.     

A novel membrane protein involved in protein translocation across the cytoplasmic membrane of Escherichia coli.

A novel factor, which is a membrane component of the protein translocation machinery of Escherichia coli, was discovered. This factor was found in the trichloracetic acid-soluble fraction of solubilized cytoplasmic membrane. The factor was purified to homogeneity by ion exchange column chromatographies and found to be a hydrophobic protein with a molecular mass of approximately 12 kDa. The factor caused > 20-fold stimulation of the protein translocation when it was reconstituted into proteoliposomes together with SecE and SecY. SecE, SecY, SecA and ATP were essential for the factor-dependent stimulation of the activity. The factor stimulated the translocation of all three precursor proteins examined, including authentic proOmpA. Stimulation of the translocation of proOmpF-Lpp, a model presecretory protein, was especially remarkable, since no translocation was observed unless proteoliposomes were reconstituted with the factor. Partial amino acid sequence of the purified factor was determined. An antibody raised against a synthetic peptide of this sequence inhibited the protein translocation into everted membrane vesicles, indicating that the factor is playing an important role in protein translocation into membrane vesicles. The partial amino acid sequence was found to coincide with that deduced from the reported DNA sequence of the upstream region of the leuU gene. Cloning and sequencing of the upstream region revealed the presence of a new open reading frame, which encodes a hydrophobic protein of 11.4 kDa. We propose that the factor is a general component of the protein translocation machinery of E. coli.     

The second phantom aquatic leaf beetle in Japan: Macroplea mutica rediscovery in the wetlands (Coleoptera: Chrysomelidae)

Wetland biodiversity is currently declining on a global scale. Wetland biodiversity understanding is critical for determining the wetlands' conservation value. In this study, Macroplea Samouelle, 1819 (Coleoptera: Chrysomelidae) was discovered in Aomori Prefecture, Honshu Island, Japan. Only two Macroplea species have been recorded in Japan, M. japana (Jacoby, 1885) and M. mutica (Fabricius, 1792). Macroplea japana had been unrecorded for 60 years before being rediscovered in Honshu Island in 2022, and a single adult M. mutica female was discovered in Hokkaido Prefecture in 2003. The discovered individuals were concluded to be M. mutica based on morphological and molecular analyses. Although morphological differences were observed with the Eurasian M. mutica individuals, the male genitalia was nearly identical to M. mutica. For the molecular phylogenetic analysis based on COI and 28S sequences, Macroplea individuals in Japan were clustered with M. mutica on the Eurasian Continent. This is the first record of this species on Honshu Island (and the second in Japan), as well as the first record of adult males. This species would require conservation policies and additional distributional surveys.     

Effects of vitamin D3 on signaling by prostaglandin E2 in osteoblast-like cells

We investigated the effects of vitamin D₃ on the signaling pathways by prostaglandin E₂ (PGE₂) in osteoblast-like MC3T3-E1 cells. The pretreatment with 1,25-dihydroxyvitamin D₃ (1,25-(OH)₂D₃), an active form of vitamin D₃, significantly inhibited cAMP accumulation induced by 10 μM PGE₂ in a dose-dependent manner in the range between 1 pM and 1 nM. This effect of 1,25-(OH)₂D₃ was dependent on the time of pretreatment up to 8 h. 1,25-(OH)₂D₃ also inhibited the cAMP accumulation induced by NaF, a GTP-binding protein activator, or forskolin which directly activates adenylate cyclase. On the other hand, 1,25-(OH)₂D₃ significantly inhibited PGE₂-induced IP₃ formation in a dose-dependent manner between 10 pM and 1 nM. However, 1,25-(OH)₂D₃ had little effect on NaF-induced IP₃ formation. The pretreatment with 24,25-dihydroxyvitamin D₃, an inactive form of vitamin D₃, affected neither cAMP accumulation nor IP₃ formation induced by PGE₂. These results strongly suggest that 1,25-(OH)₂D₃ modulates the signaling by PGE₂ in osteoblast-like cells as follows: the inhibitory effect on the cAMP production is exerted at a point downstream from adenylate cyclase and the inhibitory effect on the phosphoinositide hydrolysis is exerted at the point between the PGE₂ receptor and GTP-binding protein, probably G_i2.     

Lethality of the covalent linkage between mislocalized major outer membrane lipoprotein and the peptidoglycan of Escherichia coli.

The major outer membrane lipoprotein (Lpp) of Escherichia coli possesses serine at position 2, which is thought to function as the outer membrane sorting signal, and lysine at the C terminus, through which Lpp covalently associates with peptidoglycan. Arginine (R) is present before the C-terminal lysine in the wild-type Lpp (LppSK). By replacing serine (S) at position 2 with aspartate (D), the putative inner membrane sorting signal, and by deleting lysine (K) at the C terminus, Lpp mutants with a different residue at either position 2 (LppDK) or the C terminus (LppSR) or both (LppDR) were constructed. Expression of LppSR and LppDR little affected the growth of E. coli. In contrast, the number of viable cells immediately decreased when LppDK was expressed. Prolonged expression of LppDK inhibited separation of the inner and outer membranes by sucrose density gradient centrifugation, whereas short-term expression did not. Pulse-labeled LppDK and LppDR were localized in the inner membrane, indicating that the amino acid residue at position 2 functions as a sorting signal for the membrane localization of Lpp. LppDK accumulated in the inner membrane covalently associated with the peptidoglycan and thus prevented the separation of the two membranes. Globomycin, an inhibitor of lipoprotein-specific signal peptidase II, was lethal for E. coli only when Lpp possessed the C-terminal lysine. Taken together, these results indicate that the inner membrane accumulation of Lpp per se is not lethal for E. coli. Instead, a covalent linkage between the inner membrane Lpp having the C-terminal lysine and the peptidoglycan is lethal for E. coli, presumably due to the disruption of the cell surface integrity.     

Production of d-Tagatose from Dulcitol by Arthrobacter globiformis

A process for the bacterial oxidation of dulcitol to d-tagatose has been developed. The strain Arthrobacter globiformis ST48 used in this fermentation was isolated from soil. The yield of d-tagatose accumulated in the medium from dulcitol was as high as 85%. About 14 g of d-tagatose crystals was isolated from 1 liter of 2% dulcitol medium.     

Rat cathepsin H-catalyzed transacylation: comparisons of the mechanism and the specificity with papain-superfamily proteases.

We found that rat cathepsin H showed strong transacylation activity under physiological conditions. It is a feature of cathepsin H to utilize amino acid amides not only as acyl-acceptors but also as acyl-donors in the reaction. The pH-dependence of the transacylation activity was distinct from those of other papain-superfamily proteases. The alkaline limb (pKapp = 7.5) could be regarded as the pKa of the alpha-amino group of the acyl-donor, which was also involved in the original amino-peptidase activity. The acidic limb (pKapp = 5.8) was suggested to be involved in the deacylation step, where amino acid amide attacked the acyl-intermediate as a nucleophile in place of water in the hydrolysis. Although the N alpha-deprotonated acyl-acceptor, which is supposed to govern the nucleophilic attack, has a small population in the acidic pH range (above pH5), the transacylation was detectable even at the acidic pH-range because of the high S1'-site binding ability and suitable nucleophilicity of the acyl-acceptor. In the transacylation between various amino acid amides, the S1 and S1' site appeared to prefer hydrophobic residues without and regardless of a branch at beta-carbon, respectively. From these results and the sequence homology in the papain superfamily, we concluded that the reaction was governed by the acyl-donor having a protonated amino group, the acyl-acceptor having a deprotonated amino group and the remarkable hydrophobic character (especially favoring tryptophan amide) of the S1' site, presumably reflecting the good conservation of Trp177 in papain-superfamily proteases.     

Immunogenicity and protective effect against oral colonization by Streptococcus mutans of synthetic peptides of a streptococcal surface protein antigen

Streptococcus mutans is known to be a major causative organism of human dental caries. A surface protein Ag with a molecular mass of 190 kDa of S. mutans (PAc) is receiving attention as an anticaries vaccine. We have recently determined the complete nucleotide sequence of the gene for PAc. In this study, four peptides were synthesized on the basis of amino acid sequence of PAc. Among these peptides, PAc(301-319) corresponding to the alanine-rich repeating amino acid region was the most strongly bound by polyclonal murine anti-rPAc antibodies. The peptide partially inhibited the binding of polyclonal anti-rPAc antibodies to rPAc. The peptide induced the proliferation of T cells from BALB/c mice immunized with rPAc. Subcutaneous immunization with PAc(301-319) or rPAc emulsified in CFA/IFA induced high serum IgG responses to rPAc and PAc(301-319). In addition, serum IgG responses to a surface protein Ag with a molecular mass of 210 kDa of Streptococcus sobrinus were elicited in mice immunized by s.c. injection with PAc(301-319) or rPAc. Intranasal immunization with PAc(301-319) coupled to cholera toxin B subunit (CTB) or with rPAc and free CTB induced high serum IgG responses to rPAc. The immunization with PAc(301-319) coupled to CTB or rPAc and free CTB suppressed the colonization of murine teeth by S. mutans. These results suggest that intranasal immunization with the peptide or rPAc may be effective for the prevention of dental caries.