Pivotal role of Toll-like receptors 2 and 4, its adaptor molecule MyD88, and inflammasome complex in experimental tubule-interstitial nephritis

Tubule-interstitial nephritis (TIN) results in decreased renal function and interstitial inflammation, which ultimately leads to fibrosis. Excessive adenine intake can cause TIN because xanthine dehydrogenase (XDH) can convert this purine into an insoluble compound, which precipitates in the tubuli. Innate immune sensors, such as Toll-like receptors (TLR) and inflammasome complex, play a crucial role in the initiation of inflammation. The aim of this study was to evaluate the roles of TLR-2 and -4, Myd88 and inflammasome complex in an experimental model of TIN. Here, we show that wild-type (WT) mice fed adenine-enriched food exhibited significant renal dysfunction and enhanced cellular infiltration accompanied by collagen deposition. They also presented higher gene and protein expression of pro-inflammatory cytokines. In contrast, TLR-2, -4, MyD88, ASC and Caspase-1 KO mice showed renoprotection associated with expression of inflammatory molecules at levels comparable to controls. Furthermore, treatment of WT animals with allopurinol, an XDH inhibitor, led to reduced levels of uric acid, oxidative stress, collagen deposition and a downregulation of the NF-kB signaling pathway. We concluded that MyD88 signaling and inflammasome participate in the development of TIN. Furthermore, inhibition of XDH seems to be a promising way to therapeutically target the developing inflammatory process.     

Chronic VEGF blockade worsens glomerular injury in the remnant kidney model

VEGF inhibition can promote renal vascular and parenchymal injury, causing proteinuria, hypertension and thrombotic microangiopathy. The mechanisms underlying these side effects are unclear. We investigated the renal effects of the administration, during 45 days, of sunitinib (Su), a VEGF receptor inhibitor, to rats with 5/6 renal ablation (Nx). Adult male Munich-Wistar rats were distributed among groups S+V, sham-operated rats receiving vehicle only; S+Su, S rats given Su, 4 mg/kg/day; Nx+V, Nx rats receiving V; and Nx+Su, Nx rats receiving Su. Su caused no change in Group S. Seven and 45 days after renal ablation, renal cortical interstitium was expanded, in association with rarefaction of peritubular capillaries. Su did not worsen hypertension, proteinuria or interstitial expansion, nor did it affect capillary rarefaction, suggesting little angiogenic activity in this model. Nx animals exhibited glomerulosclerosis (GS), which was aggravated by Su. This effect could not be explained by podocyte damage, nor could it be ascribed to tuft hypertrophy or hyperplasia. GS may have derived from organization of capillary microthrombi, frequently observed in Group Nx+Su. Treatment with Su did not reduce the fractional glomerular endothelial area, suggesting functional rather than structural cell injury. Chronic VEGF inhibition has little effect on normal rats, but can affect glomerular endothelium when renal damage is already present.     

Heterologous production of death ligands' and death receptors' extracellular domains: structural features and efficient systems

The extracellular domains of death ligands and those of death receptors are closely related to many serious human diseases through the initiation of apoptosis. Recombinant production of the extracellular domains has been investigated due to demand for a large amount of purified samples, which are a prerequisite for their biochemical characterization and constitute the fundamentals of medical applications. This review focuses on the recombinant production of extracellular domains of the major members of death ligand and death receptor families using non-mammalian expression systems with an emphasis on Fas ligand and Fas receptor. In contrast to the efficient production of the functional extracellular domains of TRAIL, TNFα and LTα by intracellular expression systems using Escherichia coli or Pichia pastoris, that of Fas ligand requires the secretory expression systems using P. pastoris or Dictyostelium discoideum, and the productivity in P. pastoris was largely dependent on tag sequence, potential N-glycosylation site and expressed protein region. On the other hand, the exploitation of insect cell systems is generally useful for the preparation of functional extracellular domains of death receptors containing many disulfide bridges in the absence of extended secondary structure, and a Bombyx mori larvae secretion system presented a superior productivity for human Fas receptor extracellular domain. Based on the results obtained so far, further efforts should be devoted to the artificial control of death ligand - death receptor interactions in order to make a contribution to medicine, represented by the development of novel biopharmaceuticals.     

Experimental Neuromyelitis Optica Induces a Type I Interferon Signature in the Spinal Cord

Neuromyelitis optica (NMO) is an acute inflammatory disease of the central nervous system (CNS) which predominantly affects spinal cord and optic nerves. Most patients harbor pathogenic autoantibodies, the so-called NMO-IgGs, which are directed against the water channel aquaporin 4 (AQP4) on astrocytes. When these antibodies gain access to the CNS, they mediate astrocyte destruction by complement-dependent and by antibody-dependent cellular cytotoxicity. In contrast to multiple sclerosis (MS) patients who benefit from therapies involving type I interferons (I-IFN), NMO patients typically do not profit from such treatments. How is I-IFN involved in NMO pathogenesis? To address this question, we made gene expression profiles of spinal cords from Lewis rat models of experimental neuromyelitis optica (ENMO) and experimental autoimmune encephalomyelitis (EAE). We found an upregulation of I-IFN signature genes in EAE spinal cords, and a further upregulation of these genes in ENMO. To learn whether the local I-IFN signature is harmful or beneficial, we induced ENMO by transfer of CNS antigen-specific T cells and NMO-IgG, and treated the animals with I-IFN at the very onset of clinical symptoms, when the blood-brain barrier was open. With this treatment regimen, we could amplify possible effects of the I-IFN induced genes on the transmigration of infiltrating cells through the blood brain barrier, and on lesion formation and expansion, but could avoid effects of I-IFN on the differentiation of pathogenic T and B cells in the lymph nodes. We observed that I-IFN treated ENMO rats had spinal cord lesions with fewer T cells, macrophages/activated microglia and activated neutrophils, and less astrocyte damage than their vehicle treated counterparts, suggesting beneficial effects of I-IFN.     

Progressive hypervolemia despite hypoproteinemia and massive edema formation in rats with nephrotoxic serum nephritis.

Blood volume and whole kidney and single nephron function were evaluated 2 and 10 days after nephrotoxic serum nephritis (NSN) induction in Wistar rats. Progressive proteinuria, hypervolemia and edema were observed in NSN rats. Sodium retention was associated with a progressive depression of single nephron glomerular filtration rate and elevated fractional tubular reabsorption rates. Since hypervolemia rather than hypovolemia was observed in this study, edema formation must have been a consequence of intrarenal rather than extrarenal phenomena.     

GPI-AP release in cellular,developmental, and reproductive biology

Glycosylphosphatidylinositol-anchored proteins (GPI-APs) contain a covalently linked GPI anchor located on outer cell membranes. GPI-APs are ubiquitously conserved from protozoa to vertebrates and are critical for physiological events such as development, immunity, and neurogenesis in vertebrates. Both membrane-anchored and soluble GPI-APs play a role in regulating their protein conformation and functional properties. Several pathways mediate the release of GPI-APs from the plasma membrane by vesiculation or cleavage. Phospholipases and putative substrate-specific GPI-AP-releasing enzymes, such as NOTUM, glycerophosphodiesterase 2, and angiotensin-converting enzyme, have been characterized in mammals. Here, the protein modifications resulting from the cleavage of the GPI anchor are discussed in the context of its physiological functions.     

Fast-growing root nodule bacteria produce a novel polyamine, aminobutylhomospermidine

Polyamines in various root nodule bacteria including Bradyrhizobium japonicum, Rhizobium fredii, R. leguminosarum, R. meliloti and R. loti were identified by capillary gas chromatography. Homospermidine was the polyamine present in highest concentration in all the rhizobia tested. In addition to putrescine and homospermidine, fast-growing type of rhizobial cells contained a novel polyamine, aminobutylhomospermidine, NH2(CH2)4NH(CH2)4NH(CH2)4NH2. The unusual tetraamine was not found in the cells of slow-growing type of rhizobia throughout their growth period, indicating a difference in polyamine metabolism between fast-growing type and slow-growing type of root nodule bacteria.     

Development of Genotyping Methods for Single Nucleotide Polymorphism in the Human Pancreatic Ribonuclease Gene (RNASE1) and Their Application to Population Studies

Two potential single nucleotide polymorphisms [SNPs; rs1804215 (G979T) and rs11545379 (G1169T)] have been identified in the human pancreatic ribonuclease, RNase 1, gene (RNASE1) that could give rise to an amino acid substitution in the protein, but relevant population data are not available. We have developed genotyping methods for each SNP using the mismatched PCR-restriction fragment length polymorphism technique. These methods are advantageous in comparison with other SNP genotyping methods because they are technically simpler and do not require specialized instruments. We applied these genotyping methods to examine the genotype distribution of each SNP in four populations, including Japanese populations living in two prefectures, an Ovambo population, and a Turkish population. In all the populations studied, however, only a single genotype for each SNP was found. Therefore, irrespective of differences in ethnic groups, RNASE1 might show markedly low heterogeneity in its genetic structure with regard to these SNPs.     

Growth inhibitory effect of peel extract from Citrus junos

Extract from yuzu fruit peel (Citrus junos Sieb. ex Tanaka) strongly suppressed the germination of lettuce seeds while that from the peel of other citrus fruits such as navel orange (C. sinensis) and lemon (C. limon Burm. f.) had very little or no effect. The highest inhibitory activity was located in the peel followed by the segment but no significant activity was found in the seed extract of yuzu fruit. The effect of yuzu peel extract was tested on a variety of major crops including 38 crop species. Germination of seeds of tomato (Lycopersicon esculentum Mill.), celery (Apium graveolens L. var. dulce) and watercress (Nasturtium officinale R. Br.) was completely blocked by 27.8 mg dry peel equivalent ml^–1 of yuzu peel extract, while that of cucumber (Cucumis sativus L.) and pumpkin (Cucurbita moschata [Duch. ex Lam.] Duch. ex Poir.) seeds was not affected at this concentration, showing a broad variation in the sensitivity of crop seeds to the extract. The effectiveness of yuzu peel was also tested on some harmful weeds. The extract inhibited the elongation of both radicle and hypocotyl in summer weed quinoa (Chenopodium quinoa) grown on agar plates. Yuzu peel powder added to the soil was also effective in suppressing the growth of C. quinoa, Sonchus oleraceus L. and Digitaria ciliaris, while it had little effect on the spring weed Alopecurus aequalis Sobol. A strong growth inhibitory activity of yuzu peel was found in the aqueous phase after solvent extraction and most of the activity was recovered in the neutral fraction that passed through cation and anion exchange resins.