Effects of Light Stress on Redox Potential Forms of Cyt b-559 in Photosystem II Membranes Depleted of Water-Oxidizing Complex

Effects of photoinhibition on the redox properties of Cyt b-559were studied with NH₂OH treated PSII membranes, which are depletedof the water-oxidizing complex. The membranes contained threeredox forms (HP-, IP- and LP-forms) of Cyt b-559, with E_m valuesof +435, +237 and +45 mV, respectively. A novel intermediate-potentialform of Cyt b-559 was generated during photoinhibition on thedonor side of PSII: photoinhibitory illumination (7,000 µEm^–2 s^–1) for 1 min induced a 30% decrease in thelevel of the HP-form, with concomitant generation of the intermediate-potential(IP-) form whose E_m value was about +350mV. Prolonged illumination(10 min) resulted in complete loss of the HP-form and an apparentincrease in the level of the IPform. After further photoinhibitorytreatment (60 min), complete loss of the IP'-form was observedand levels of the IP- and LP-forms each increased to about 50%of the total amount of Cyt b-559. Kinetic analysis of thesedata led to the conclusion that the HP-form is converted tothe LP-form via two intermediate-potential forms (IP' and IP),and that IP'-form appears only at the early phase of photoinhibition. (Received March 30, 1994; Accepted February 27, 1995)     

Spin-Trapping and Direct Epr Investigations on the Hepatotoxic and Hepatocarcinogenic Actions of Luteoskyrin, An Anthraquinoid Mycotoxin Produced by Penicillium Islandicum Sopp. Generations of Superoxide Anion and Luteoskyrin Semiquinone Radical in the Redox Systems Consisted of Luteoskyrin and Liver Nadph- Or Nadh-Dependent Reductases

Luteoskyrin is a hepatotoxic and hepatocarcinogenic bisdihydroanthraquinone produced by Penicillium islandicum Sopp. By observing the EPR spectra of DMPO-spin adducts and luteoskyrin semiquinone radical, we investigated in vitro whether luteoskyrin is reduced to its semiquinone radical leading to the generation of active oxygen species in redox systems catalyzed by NADPH-dependent cytochrome reductases of the liver. We found (1) the formation of luteoskyrin semiquinone radical in the NADPH-cytochrome P-450 reductase system under anaerobic conditions, (2) the generation of O- in the systems composed of luteoskyrin, NAD(P)H, and either rat liver microsomal NADPH-cytochrome P-450 reductase or submitochondrial particles and (3) dicoumarol showed no effect on the O- generation in the case of submitochondrial particles. From these results we proposed that luteoskyrin liver injuries are induced by the active oxygen species generated in the process of autoxidation of luteoskyrin semiquinone radical which is produced in the one-electron redox systems catalyzed by the liver NAD(P)H-dependent cytochrome reductases.     

Serological Study of Bartonella henselae in Cat Scratch Disease in Japan

It has become clear that Bartonella henselae is a common cause of cat scratch disease (CSD). The indirect fluorescence antibody (IFA) test for detection of IgG and IgM antibodies to B. henselae concerning CSD showed that 5 (50%) of 10 patients with CSD had a serum IgG antibody titer of 1:128 or more and that 2 (20%) patients had a serum IgM antibody titer of 1:20 or more. One of 7 asymptomatic members of patients' families (14%) had IgG antibody to B. henselae at a titer of 1:256. IgM antibody to B. henselae was not detected in sera from the patients' families. Both IgG and IgM antibodies to B. henselae were not detected in sera from the healthy control group. These data suggest that B. henselae may be a cause of CSD in Japan.     

Immunohistochemical demonstration of prostaglandins in various tissues of the rat

To demonstrate the tissue localization of prostaglandin (PG) E₂, PGF₂ and 6-keto-PGF₁ (a stable metabolite of PGI₂) various tissues, including decalcified periodontal tissue of 7-week-old male Wistar strain rats, were immunohistochemically examined using a streptavidin-biotin complex method. Besides tissue macrophages and endothelial cells in various tissues, hepatocytes, renal tubular cells, and parietal and chief cells in the gastric mucosa showed a positive reaction for the various PGs examined. PGs were demonstrated in the cytoplasm or in association with the cell membrane. We generally observed no difference between the localization patterns of PGE₂-, PGF₂-, and 6-keto-PGF₁-positive cells in these tissues. However, in the periodontal ligament and alveolar bone, 6-keto-PGF₁ was localized in the cytoplasm of osteocytes, osteoblasts, cementocytes, and cementoblasts, while no reaction for PGE₂ or PGF₂ was revealed in these cells. We demonstrated the immunohistochemical localization of PGs in various rat tissues including decalcified periodontal tissue and discuss the important roles of PGs in the modulation of their normal functions in these tissues.     

A VPE family supporting various vacuolar functions in plants

Vacuolar processing enzyme (VPE) is a cysteine protease that has substrate specificity toward Asn and Asp residues, and found in various eukaryotic organisms including higher plants and mammals. Plant VPEs are separated into three subfamilies: seed-type, vegetative-type and uncharacterized-type. VPE was originally identified as a protease responsible for the maturation of seed storage proteins, and recent research has shown that it is a key protease responsible for the maturation of various vacuolar proteins not only in maturating cotyledons, but also in vegetative tissues. Thus, the VPE-mediated processing system is important for various vacuolar functions in the plant. Vegetative-type VPEs are expressed during senescence or pathogen-induced hypersensitive response. A VPE-deficiency abolished programmed cell death during hypersensitive response in tobacco leaves after TMV infection. This suggests that vegetative-type VPEs are involved in vacuolar-organized programmed cell death.     

The Adaptor Complex AP-4 Regulates Vacuolar Protein Sorting at the trans-Golgi Network by Interacting with VACUOLAR SORTING RECEPTOR1

Adaptor protein (AP) complexes play critical roles in protein sorting among different post-Golgi pathways by recognizing specific cargo protein motifs. Among the five AP complexes (AP-1–AP-5) in plants, AP-4 is one of the most poorly understood; the AP-4 components, AP-4 cargo motifs, and AP-4 functional mechanism are not known. Here, we identify the AP-4 components and show that the AP-4 complex regulates receptor-mediated vacuolar protein sorting by recognizing VACUOLAR SORTING RECEPTOR1 (VSR1), which was originally identified as a sorting receptor for seed storage proteins to target protein storage vacuoles in Arabidopsis (Arabidopsis thaliana). From the vacuolar sorting mutant library GREEN FLUORESCENT SEED (GFS), we isolated three gfs mutants that accumulate abnormally high levels of VSR1 in seeds and designated them as gfs4, gfs5, and gfs6. Their responsible genes encode three (AP4B, AP4M, and AP4S) of the four subunits of the AP-4 complex, respectively, and an Arabidopsis mutant (ap4e) lacking the fourth subunit, AP4E, also had the same phenotype. Mass spectrometry demonstrated that these four proteins form a complex in vivo. The four mutants showed defects in the vacuolar sorting of the major storage protein 12S globulins, indicating a role for the AP-4 complex in vacuolar protein transport. AP4M bound to the tyrosine-based motif of VSR1. AP4M localized at the trans-Golgi network (TGN) subdomain that is distinct from the AP-1-localized TGN subdomain. This study provides a novel function for the AP-4 complex in VSR1-mediated vacuolar protein sorting at the specialized domain of the TGN.Membrane trafficking in plants shares many fundamental features with those in yeast and animals (Bassham et al., 2008). In general, vacuolar proteins are synthesized on the rough endoplasmic reticulum and then transported to vacuoles via the Golgi apparatus (Xiang et al., 2013; Robinson and Pimpl, 2014). The vacuolar trafficking in plants has been studied by monitoring the transport of reporter proteins to lytic vacuoles in vegetative cells and tissues (Jin et al., 2001; Pimpl et al., 2003; Miao et al., 2008; Niemes et al., 2010). Recently, seed storage proteins became a model cargo for monitoring the transport of endogenous vacuolar proteins in plants (Shimada et al., 2003a; Sanmartín et al., 2007; Isono et al., 2010; Pourcher et al., 2010; Uemura et al., 2012; Shirakawa et al., 2014). During seed maturation, a large amount of storage proteins are synthesized and sorted to specialized vacuoles, the protein storage vacuoles (PSVs). To properly deliver vacuolar proteins, sorting receptors play a critical role in recognizing the vacuole-targeting signal of the proteins. VACUOLAR PROTEIN SORTING10 and Man-6-P receptor function as sorting receptors for vacuolar/lysosomal proteins in the trans-Golgi network (TGN) of yeast and mammals, respectively. The best-characterized sorting receptors in plants are VACUOLAR SORTING RECEPTOR (VSR) family proteins (De Marcos Lousa et al., 2012). VSRs have been shown to function in sorting both storage proteins to PSVs (Shimada et al., 2003a; Fuji et al., 2007) and lytic cargos to lytic vacuoles (Zouhar et al., 2010).To sort the receptors in the TGN into vacuoles/lysosomes, the adaptor protein (AP) complex binds the cytosolic domain of the receptors. The AP complexes form evolutionarily conserved machinery that mediates the post-Golgi trafficking in eukaryotic cells (Robinson, 2004). There are five types of AP complexes, AP-1 to AP-5. The functions of AP-1, AP-2, and AP-3 have been established. AP-1 appears to be involved in trafficking between the TGN and endosomes (Hirst et al., 2012), AP-2 is involved in clathrin-mediated endocytosis (McMahon and Boucrot, 2011), and AP-3 is involved in protein trafficking from the TGN/endosomes to the vacuole/lysosomes (Dell’Angelica, 2009). However, little is known about AP-4 and AP-5. Mammalian AP-4 may be involved in basolateral sorting in polarized cells and in the transport of specific cargo proteins, such as the amyloid precursor protein APP, from the TGN to endosomes (Burgos et al., 2010). The fifth AP complex, AP-5, was recently identified, and its orthologs are widely conserved in the eukaryotic genomes (Hirst et al., 2011). The AP complexes exist as heterotetrameric proteins that consist of two large subunits (β1-5 and one each of ɣ/α/δ/ε/ζ), one medium subunit (µ1-5), and one small subunit (σ1-5). The sorting mechanism is best characterized for the medium (µ) subunit, which is known to recognize the Tyr-based YXXФ motif (where Ф represents Leu, Ile, Phe, Met, or Val) that is present in the cytosolic domains of cargo proteins (Ohno et al., 1995). Mutations of the YXXФ motif abolish the interaction with µ and alter the subcellular localization of the cargo proteins.The genome of Arabidopsis (Arabidopsis thaliana) contains all five sets of putative AP genes (Bassham et al., 2008; Hirst et al., 2011). The function of AP-4 in membrane trafficking and its physiological roles in plants are largely unknown. In this study, we identified and characterized the AP-4 complex in Arabidopsis. Mutants lacking the AP-4 subunits exhibited defects in VSR1-mediated vacuolar sorting of storage proteins in seeds. Our results provide new insights into the receptor-mediated vacuolar trafficking in post-Golgi pathways.     

Reducing Short-Wavelength Blue Light in Dry Eye Patients with Unstable Tear Film Improves Performance on Tests of Visual Acuity

PurposeTo investigate whether suppression of blue light can improve visual function in patients with short tear break up time (BUT) dry eye (DE).MethodsTwenty-two patients with short BUT DE (10 men, 12 women; mean age, 32.4 ± 6.4 years; age range, 23–43 years) and 18 healthy controls (10 men, 8 women; mean age, 30.1 ± 7.4 years; age range, 20–49 years) underwent functional visual acuity (VA) examinations with and without wearing eyeglasses with 50% blue light blocked lenses. The functional VA parameters were starting VA, functional VA, and visual maintenance ratio.ResultsThe baseline mean values (logarithm of the minimum angle of resolution, logMAR) of functional VA and the visual maintenance ratio were significantly worse in the DE patients than in the controls (P < 0.05), while no significant difference was observed in the baseline starting VA (P > 0.05). The DE patients had significant improvement in mean functional VA and visual maintenance ratio while wearing the glasses (P < 0.05), while there were no significant changes with and without the glasses in the control group (P > 0.05),ConclusionsProtecting the eyes from short-wavelength blue light may help to ameliorate visual impairment associated with tear instability in patients with DE. This finding represents a new concept, which is that the blue light exposure might be harmful to visual function in patients with short BUT DE.     

Pumpkin (Cucurbita sp.) seed globulin IV. Terminal sequences of the acidic and basic peptide chains and identification of a pyroglutamyl peptide chain

Pumpkin seed globulin is composed of heterogeneous polypeptidechains, acidic and chains and basic ₁ and ₂ chains (12). This study showed that the basicchains had similar N-terminal sequences, Gly-Leu-Asp-Glu-Thr-Ile-for the ₁ chain and Gly-Leu-Glu-Glu-Thr-Ile- for ₂. On the contrary,the N-terminal sequences of the acidic and chains were dissimilar, Ile-Gln-Gly-Tyr- for the chain and no N-terminal residue for the chain, according to routine terminal analysis. Pyrrolidonylpeptidase digestion of the chain and its thermolysin digestion followed by Edman degradationsrevealed that the N-terminal sequence of the chain was < Glu-Ile-Glu-Gln-Gln-Glu-Pro(Trp,Ser)-. The N-terminal sequences and the C-terminal residuesindicated that the acidic and chains were more heterogeneous than the basic ₁ and ₂ chains.A preliminary study on the degradation of storage globulin isalso presented. (Received November 9, 1979; )     

Immunohistochemical colocalization of insulin,aromatic L-amino acid decarboxylase and dopamine beta-hydroxylase in islet B cells of chicken pancreas

Summary The identity of the monoamine which produces a very weak formaldehyde-induced fluorescence in some pancreatic islet cells was studied by fluorescence microscopy and immunohistochemistry either on the same tissue section or on serial tissue sections of tissue from male chickens. Pancreatic islet cells showing this very weak formaldehyde-induced fluorescence react immunohistochemically with antisera directed against insulin, aromatic L-amino acid decarboxylase and dopamine beta-hydroxylase and therefore appear to be islet B cells producing insulin and noradrenaline.