Carotenoids as possible interphotoreceptor retinoid-binding protein (IRBP) ligands: A surface plasmon resonance (SPR) based study

Uptake, transport and stabilization of xanthophylls in the human retina are important components of a complex multistep process that culminates in a non-uniform distribution of these important nutrients in the retina. The process is far from understood; here, we consider the potential role of interphotoreceptor retinoid-binding protein (IRBP) in this process. IRBP is thought to facilitate the exchange of 11-cis-retinal, 11-cis-retinol and all-trans-retinol between the retinal pigment epithelium (RPE), photoreceptors and Müller cells in the visual cycle. Structural and biochemical studies suggest that IRBP has a variety of nonequivalent ligand binding sites that function in this process. IRBP is multifunctional, being able to bind a variety of physiologically significant molecules including fatty acids in the subretinal space. This wide range of binding activities is of particular interest because it is unknown whether the lutein and zeaxanthin found in the macula originate from the choroidal or retinal circulations. If from the choroidal circulation, then IRBP is a likely mediator for their transport across the interphotoreceptor matrix. In this report, we explore the binding interactions of retinoids, fatty acids, and carotenoids with IRBP using surface plasmon resonance (SPR)-based biosensors. IRBP showed similar affinity toward retinoids and carotenoids (1–2 μM), while fatty acids had approximately 10 times less affinity. These results suggest that further studies should be carried out to evaluate whether IRBP has a physiologically relevant role in binding lutein and zeaxanthin in the interphotoreceptor matrix.     

Synthesis and secretion of interphotoreceptor retinoid-binding protein (IRBP) by isolated normal and rd mouse retinal photoreceptor neurons in culture

Cultures of dissociated retinal neurons and photoreceptors from homozygous wild-type, heterozygous rd/+ and homozygous rd/rd retinas have been used to investigate the capacity of isolated photoreceptor cells to synthesize and secrete the interphotoreceptor retinoid-binding protein (IRBP). Retinal cells were dissociated on postnatal day 2 and grown in chemically defined medium in the absence of glial and pigmented epithelial cells. Expression of IRBP immunoreactive materials in these cultures was cell type-specific and developmentally regulated. Thus increasing numbers of rod photoreceptor cells showed immunoreactivity during the first week in culture, whereas nonphotoreceptor cell types remained consistently negative. Photoreceptor immunoreactivity could be detected in permeated (detergent-treated) as well as in unpermeated preparations, the latter suggesting that some IRBP is associated with the photoreceptor cell surface. These materials appeared to be loosely bound to the photoreceptors, since they disappeared when the cultures were exposed for 6 hr to IRBP-free medium but not when they were exposed to IRBP-containing medium. IRBP synthesis and secretion could be demonstrated by analyzing either cell extracts or conditioned medium by "slot blot" and Western blot techniques using affinity purified antibodies against bovine IRBP as well as by fluorographic analysis after metabolic labeling of the cultures with 35S-methionine. Comparisons of cultures from the different genotypes showed many similarities, including the abundance of IRBP-immunoreactive photoreceptors in 7 day cultures. However, immunochemical analysis showed lower conditioned medium/cell extract IRBP ratios in rd/rd cultures, an observation consistent with previous reports suggesting that IRBP secretion may be deficient in rd/rd photoreceptor cells.     

Reduced level of interphotoreceptor retinoid-binding protein (IRBP), a possible cause for retinal degeneration in the Abyssinian cat

Summary Retinae of Abyssinian cats homozygous for a retinal degeneration gene, and normal controls, have been investigated using antibodies directed against opsin, transducin (TD-), S-antigen (48K protein), interphotoreceptor retinoid-binding protein (IRBP), and cone outer segments. IRBP-immunoreactivity (IR) is much reduced at stage 2 of the disease in affected retinae; later massive photoreceptor cell death occurs. In cats, at a late stage of the disease, the retina exhibits few S-antigen-IR cells in the peripheral part of the retina whereas, in the central part, some patches of cells exhibiting opsin-IR, TD--IR, and S-antigen-IR are present in remnants of the outer nuclear layer (ONL). No IRBP-IR is detectable at this stage. The form and size of the majority of these remaining cells, however, does not resemble that of normal photoreceptors. No, or only rudimentary, inner and outer segments are present; long bifurcating basal protrusions often occur. These cells, which could be remains of cone elements, are S-antigen immunoreactive. Double labelling for different retina-specific proteins reveals a co-localization of opsin, TD- and S-antigen in some, but not all, remaining photoreceptor elements. Cells exhibiting opsin-IR also show TD--IR and S-antigen-IR located within the entire cell and its protrusions. In control retinae and retinae at early stages of the disease, immunoreactions are comparable with all antibodies used. However, TD--IR is less intensive in the photoreceptor terminals. S-antigen-IR cones are most frequently present in the peripheral retina. Reduction of IRBP at an early stage of the disease could be one of the factors leading to photoreceptor cell death at later stages.     

Phosphorylation and dephosphorylation of the regulatory subunit of cyclic 3′,5′-monophosphate-dependent protein kinase (type II) in vivo and in vitro

A phosphorylated regulatory subunit of cyclic AMP-dependent protein kinase (type II) was purified to homogeneity from inorganic [³²P]phosphate-injected rats.A new method of measuring the phosphorylation reaction was developed. It was found that this regulatory subunit was phosphorylated in cells and comprised 60, 82 and 55% of the total regulatory subunit in brain, heart and liver cytosol fractions from rats, respectively.Dephosphorylation was stimulated by cyclic nucleotides. The K_a values for cyclic AMP and cyclic IMP were 0.30 and 1.0 μM, respectively. Purified phosphoprotein phosphatase could dephosphorylate the regulatory subunit and this reaction was also stimulated by cyclic nucleotides with similar K_a values. The inhibitors of phosphoprotein phosphatase, NaF and ZnCl₂, protected against dephosphorylation unless ADP or cyclic AMP were present.     

Chemical probes of extended biological structures: Synthesis and properties of the cleavable protein cross-linking reagent [35S]dithiobis(succinimidyl propionate)

The synthesis and properties of a new cleavable protein cross-linking reagent, [³⁵S]dithiobis(succinimidyl propionate), are detailed. Free primary and secondary aliphatic amino groups are quantitatively acylated by the reagent in either organic or aqueous media within two minutes at 23 °C. By contrast, the half-time for hydrolysis of the active ester termini in buffer at pH 7 is four to five hours, so that protein cross-linkage can be optimized by application of low concentrations of reagent. Accessible amino groups of hemoglobin are acylated with extreme rapidity of 0 °C in pH 7 buffer when [³⁵S]dithiobis(succinimidyl propionate) is applied in 0.4 to 9-fold molar excess. Submicrogram quantities of the cross-linked hemoglobin subunits which result are detectable by monitoring the ³⁵S distribution in sodium dodecyl sulfate-polyacrylamide gels. In addition to amine acylation, two of the six thiol groups in hemoglobin, tentatively located at cysteine 93 of the β chains, are reversibly modified at 0 °C by mercaptan-disul-fide interchange with the reagent or its bis amide analogs. This equilibrium-controlled, pH-dependent reaction occurs at a slower rate than acylation, and is blocked by short preincubation of the protein with N-ethylmaleimide or by addition of 3,3′- dithiodipropionamide (or other disulfides) to the reaction mixture. Disulfides introduced into hemoglobin by acylation and interchange are quantitatively cleaved by reduction for 30 minutes at 37 °C with 10 mm-dithioerythritol buffered at pH 8.5.The properties of high reactivity under mild conditions, long solution half-life, and the radioactive label make [³⁵S]dithiobis(succinimidyl propionate) a particularly useful and versatile probe of extended structures in a variety of biological systems.     

Phosphorylation of microtubule-associated protein 2 by calmodulin-dependent protein kinase (Kinase II) which occurs only in the brain tissues

Microtubule-associated protein 2 (MAP 2) from the rat brain was phosphorylated by calmodulin-dependent protein kinase (Kinase II) which occurs only in the brain tissues. The apparent Km for MAP 2 of Kinase II was 0.2 μ$\text{M}$. The maximum incorporation of phosphate into MAP 2 by the action of Kinase II was about 5 mol of phosphate per mol of MAP 2, while that by the action of cAMP-dependent protein kinase was about 3 mol of phosphate per mol of MAP 2. When microtubule-associated proteins were incubated with both Kinase II and cAMP-dependent protein kinase together, about 7 mol of phosphate were incorporated into 1 mol of MAP 2.     

Synthesis of proteins coded by plasmid vectors of pCV series (Apr, Tcr) and their recombinant derivatives (pDm) in E. coli minicells.

Polypeptide synthesis directed by vector plasmids of pCV series conferring ampicillin and tetracycline resistance (Apr, Tcr) and by recombinant plasmids (pDm) have been analyzed using the minicell system. It has been found that a polypeptide of 34 000 daltons is responsible for the Tcr phenotype and regulated from the promoter near the HindIII site. Cloning of DNA fragments into HindIII site allowed to conclude that DNA from Drosophila melanogaster contains nucleotide sequences which may act as promoters for a 34 000 dalton polypeptide gene. beta-Lactamase is expressed as five proteins of 24 000, 26 5000, 27 000, 28 500 and 29 500 daltons. Insertion of DNA fragments into PstI site prevents the synthesis of all five polypeptides. Recombinant clones Dm39 and Dm187 produce additional proteins of 19 000, 23 000, 24 000 and 27 000 daltons.     

24S-hydroxycholesterol and cholesterol-24S-hydroxylase (CYP46A1) in the retina: from cholesterol homeostasis to pathophysiology of glaucoma

Free cholesterol is the predominant form of cholesterol in the neural retina. The vertebrate neural retina exhibits its own capacity to synthesize cholesterol and meets its demand also by taking it from the circulation. Defects in cholesterol synthesis and trafficking in the neural retina has detrimental consequences on its structure and function, highlighting the crucial importance of maintaining cholesterol homeostasis in the retina. Our purpose was to give a review on the functioning of the retina, the role of cholesterol and cholesterol metabolism therein, with special emphasis on cholesterol-24S-hydroxylase (CYP46A1). Similar to the brain, the retina expresses cholesterol-24S-hydroxylase (CYP46A1) and is enriched in its metabolic product, 24S-hydroxycholesterol. We recently published that one single nucleotide polymorphism in CYP46A1 gene, designated as rs754203, was a risk factor for glaucoma. Glaucoma is the second leading cause of blindness worldwide, affecting more than 60 million people. Glaucoma is characterized by the loss of retinal ganglion cells, which show high CYP46A1 expression. These data suggest the potential involvement of CYP46A1 and 24S-hydroxycholesterol in the pathophysiology of glaucoma.     

Newcastle disease virus (NDV) induces protein oxidation and nitration in brain and liver of chicken: Ameliorative effect of vitamin E

The present study was aimed at investigating the therapeutic efficacy of vitamin E on oxidative injury in brain and liver of Newcastle disease virus (NDV) challenged chickens. We have analyzed the xanthine oxidase (XOD) activity; uric acid (UA) levels and superoxide radical generation by using electron spin resonance spectroscopy. Further, protein oxidation, nitration and apoptosis were evaluated in the brain and liver of the control, NDV-infected and NDV + Vit. E treated groups. A significant elevation was observed in XOD activity and UA levels in brain (p < 0.001) and liver (p < 0.05) of NDV infected birds when compared to controls. Further, significant increase in the production of superoxides, enhanced intracellular protein carbonyls and nitrates were observed in the brain and liver of NDV-infected birds over healthy subjects. Apoptosis studies also suggested that a larger number of TUNEL positive cells were observed in brain and a moderately in liver of NDV-infected chickens. However, all these perturbations were significantly ameliorated in NDV + Vit. E treated chickens as compared to NDV-infected birds. Taken together, our results suggested that NDV-induced neuronal and hepatic damage at least in part mediates oxidative stress and on the other hand, supplementation of vitamin E mitigates NDV-induced oxidative damage thereby protects brain and liver of chickens. These findings could provide new insights into the understanding of NDV pathogenesis and therapeutic effects of dietary antioxidants.     

Dynamic modulation of prohormone convertase 2 (PC2)-mediated precursor processing by 7B2 protein: preferential effect on glucagon synthesis

The small neuroendocrine protein 7B2 is required for the production of active prohormone convertase 2 (PC2), an enzyme involved in the synthesis of peptide hormones, such as glucagon and proopiomelanocortin-derived α-melanocyte-stimulating hormone. However, whether 7B2 can dynamically modulate peptide production through regulation of PC2 activity remains unclear. Infection of the pancreatic alpha cell line α-TC6 with 7B2-encoding adenovirus efficiently increased production of glucagon, whereas siRNA-mediated knockdown of 7B2 significantly decreased stored glucagon. Furthermore, rescue of 7B2 expression in primary pituitary cultures prepared from 7B2 null mice restored melanocyte-stimulating hormone production, substantiating the role of 7B2 as a regulatory factor in peptide biosynthesis. In anterior pituitary and pancreatic beta cell lines, however, overexpression of 7B2 affected neither production nor secretion of peptides despite increased release of active PC2. In direct contrast, 7B2 overexpression decreased the secretion and increased the activity of PC2 within α-TC6 cells; the increased intracellular concentration of active PC2 within these cells may therefore account for the enhanced production of glucagon. In line with these findings, we found elevated circulating glucagon levels in 7B2-overexpressing cast/cast mice in vivo. Surprisingly, when proopiomelanocortin and proglucagon were co-expressed in either pituitary or pancreatic alpha cell lines, proglucagon processing was preferentially decreased when 7B2 was knocked down. Taken together, these results suggest that proglucagon cleavage has a greater dependence on PC2 activity than other precursors and moreover that 7B2-dependent routing of PC2 to secretory granules is cell line-specific. The manipulation of 7B2 could therefore represent an effective way to selectively regulate synthesis of certain PC2-dependent peptides.     

Diminished levels of nasal S100A7 (psoriasin) in seasonal allergic rhinitis: an effect mediated by Th2 cytokines

Background

S100A7 is an antimicrobial peptide involved in several inflammatory diseases. The aim of the present study was to explore the expression and regulation of S100A7 in seasonal allergic rhinitis (SAR).

Methods

Nasal lavage (NAL) fluid was obtained from healthy controls before and after lipopolysaccharide (LPS) provocation, from SAR patients before and after allergen challenge, and from SAR patients having completed allergen-specific immunotherapy (ASIT). Nasal biopsies, nasal epithelial cells and blood were acquired from healthy donors. The airway epithelial cell line FaDu was used for in vitro experiments. Real-time RT-PCR and immunohistochemistry were used to determine S100A7 expression in nasal tissue and cells. Release of S100A7 in NAL and culture supernatants was measured by ELISA. The function of recombinant S100A7 was explored in epithelial cells, neutrophils and peripheral blood mononuclear cells (PBMC).

Results

Nasal administration of LPS induced S100A7 release in healthy non-allergic subjects. The level of S100A7 was lower in NAL from SAR patients than from healthy controls, and it was further reduced in the SAR group 6 h post allergen provocation. In contrast, ASIT patients displayed higher levels after completed treatment. S100A7 was expressed in the nasal epithelium and in glands, and it was secreted by cultured epithelial cells. Stimulation with IL-4 and histamine repressed the epithelial S100A7 release. Further, recombinant S100A7 induced activation of neutrophils and PBMC.

Conclusions

The present study shows an epithelial expression and excretion of S100A7 in the nose after microbial stimulation. The levels are diminished in rhinitis patients and in the presence of an allergic cytokine milieu, suggesting that the antimicrobial defense is compromised in patients with SAR.     

Characterization of vegetative storage protein (VSP) and low molecular proteins induced by water deficit in stolon of white clover

In stolon of white clover (Trifolium repens L.), the 17.3 kDa protein has been newly identified as a vegetative storage protein (VSP) which has preponderant roles in N accumulation and mobilization to sustain growth when capacity of N uptake is strongly reduced. To characterize the water deficit effect on this protein, the kinetic pattern of soluble protein, SDS–PAGE, Western blotting, and proteomic analysis was studied in the stolon of white clover during 28 days of water-deficit. Water deficit led to decrease protein concentration. SDS–PAGE revealed that two major proteins of 17.3 and 16 kDa were accumulated to high level in response to water stress. These proteins cross-reacted positively with antibodies raised against the 17.3 kDa VSP, a protein which shared biochemical features with stress proteins implied in dehydration tolerance. Using two-dimensional electrophoresis (2-DE) gel and matrix-assisted laser desorption/ionization time-of-flight mass spectrometer (MALDI-TOF-MS) analysis, it was demonstrated that 19.5 and 17.3 kDa protein spots were up-regulated by water stress, and both spots were identical to nucleoside diphosphate kinase (NDPK) and lipid transfer proteins (LTPs), respectively. These results suggest that low molecular proteins induced by water-deficit in the stolon of white clover act as an alternative N reserves or play significant roles in plant protection against water-deficit stress.     

Apolipoprotein-E degradation in human very low density lipoproteins by plasma protease(s): chemical and biological consequences

Serine proteases coisolate with human very low density lipoproteins (VLDL) which degrade apolipoprotein E and cause hypertriglyceridemic VLDL to lose the ability to interact with the LDL receptor of human skin fibroblasts. We identified proteolytic fragments of apolipoprotein-E in isolated VLDL which can be produced by the action of thrombin on purified apoE. There are two major thrombin cleavage products: M_r ～ 22,000 (E-22) and M_r ～ 12,000 (E-12), the N- and C-terminal fragments, respectively, of apoE. We conclude that the structural integrity and the ability of VLDL to interact with cell receptors are a function of not only VLDL constituents but also of the extent to which VLDL apoprotein E has been degraded.     

Patch selection by red deer in relation to energy and protein intake: a re-evaluation of Langvatn and Hanley's (1993) results

Langvatn and Hanley (1993) recently reported that patch use by red deer (Cervus elaphus) was more strongly correlated with short term rates of intake of digestible protein than dry matter. Such short term measures overlook effects of gut filling, which may constrain intake by ruminants over longer time scales (i.e., daily rates of gain). We reanalyzed Langvatn and Hanley's data using an energy intake model incorporating such a processing constraint, to determine whether their conclusions are robust. We found that the use of patches by red deer was just as strongly correlated with an estimate of the daily rate of intake of digestible energy as one of digestible protein during four out of seven trials, but slightly lower in three out of seven trials. In all cases, daily intake of digestible energy was a much better predictor of patch preference by red deer than was the intake of dry matter. Our reanalysis suggests that the daily intake of energy was highly correlated with that of protein in these trials, as may often be the case for herbivores feeding on graminoids. Hence the observed pattern of patch use by red deer could simultaneously enhance rates of both protein and energy intake.     

Identification of a cation-specific channel (TipA) in the cell wall of the gram-positive mycolata Tsukamurella inchonensis: the gene of the channel-forming protein is identical to mspA of Mycobacterium smegmatis and mppA of Mycobacterium phlei

Detergent extracts of whole cells of the Gram-positive bacterium Tsukamurella inchonensis ATCC 700082, which belongs to the mycolata, were studied for the presence of ion-permeable channels using lipid bilayer experiments. One channel with a conductance of about 4.5 nS in 1 M KCl was identified in the extracts. The channel-forming protein was purified to homogeneity by preparative SDS-PAGE. The protein responsible for channel-forming activity had an apparent molecular mass of about 33 kDa as judged by SDS-PAGE. Interestingly, the protein showed cross-reactivity with polyclonal antibodies raised against a polypeptide derived from MspA of Mycobacterium smegmatis similarly as the cell wall channel of Mycobacterium phlei. Primers derived from mspA were used to clone and sequence the gene of the cell wall channels of T. inchonensis (named tipA for T. inchonensis porin A) and M. phlei (named mppA for M. phlei porin A). Surprisingly, both genes, tipA and mppA, were found to be identical to mspA of M. smegmatis, indicating that the genomes of T. inchonensis, M. phlei and M. smegmatis contain the same genes for the major cell wall channel. RT-PCR revealed that tipA is transcribed in T. inchonensis and mppA in M. phlei. The results suggest that despite a certain distance between the three organisms, their genomes contain the same gene coding for the major cell wall channel, with a molecular mass of 22 kDa for the monomer.     

Induction of PER1 mRNA expression in immortalized gonadotropes by gonadotropin-releasing hormone (GnRH): Involvement of protein kinase C and MAP kinase signaling

The initiation and maintenance of reproductive function in mammals is critically dependent on the pulsatile secretion of gonadotropin-releasing hormone (GnRH). This peptide drives the pulsatile release of FSH and LH from the pituitary pars distalis via signaling pathways that are activated by the type I GnRH receptor (GnRH-R). Recently, a microarray analysis study reported that a number of genes, including mPer1, are induced by GnRH in immortalized gonadotrope cells. In view of these data, we have begun to analyze in detail the signaling pathways mediating the action of GnRH on mPer1 expression in these cells. Using quantitative real-time polymprose cho read (PCR), we could confirm that exposure of immortalized gonadotropes (LβT2 cells) to the GnRH analog, buserelin, markedly induces mPer1 (but not mPer2) expression. Consistent with GnRH receptor signaling via the protein kinase (PK)-C pathway, exposure of the cells to phorbol 12,13-dibutyrate rapidly elevates both mPer1 and LHβ subunit mRNA levels, while pharmacological inhibition of PKC prevents the mPer1 and LHβ response to buserelin. As GnRH is known to regulate gonadotropin synthesis via activation of p42/44 mitogen-activated protein kinase (MAPK) signaling pathways, we then examined the involvement of this pathway in regulating mPer1 expression in gonadotropes. Our data reveal that GnRH-induced mPer1 expression is blocked following acute exposure to a MAPK kinase inhibitor. Although the involvement of this signaling mechanism in the regulation of mPer1 is known in neurons, e.g., in the suprachiasmatic nuclei, the induction of mPer1 in gonadotropes represents a novel mechanism of GnRH signaling, whose functional significance is still under investigation.     

Regulation of phospholipase A(2) activity in cockroach (Periplaneta americana) fat body by hypertrehalosemic hormone: evidence for the participation of protein kinase C

Phospholipase A₂ (PLA₂) associated with the membrane fraction of trophocytes from Periplaneta americana fat body increases by as much as 100% when the cells are incubated with hypertrehalosemic hormone (HTH-II). Activation with HTH-II is approximately halved by inclusion of the PKC inhibitor sphingosine in the incubation medium. Because activation of PLA₂ by HTH-II is blocked by the GDP analogue GDP-β-S, and the unactivated enzyme is activated by the GTP analogue GTP-γ-S it is likely that a G protein is involved in activation of the enzyme. Activation of PLA₂ was also achieved by treating the trophocytes with the synthetic diacylglycerol 1-oleoyl-2-acetylglycerol in the presence of thapsigargin. This supports the view that protein kinase C is also involved in the activation process.