Deficiency of alpha-dystroglycan in muscle-eye-brain disease

Alpha-dystroglycan is a component of the dystrophin-glycoprotein-complex, which is the major mechanism of attachment between the cytoskeleton and the extracellular matrix. Muscle-eye-brain disease (MEB) is an autosomal recessive disorder characterized by congenital muscular dystrophy, ocular abnormalities and lissencephaly. We recently found that MEB is caused by mutations in the protein O-linked mannose beta1,2-N-acetylglucosaminyltransferase (POMGnT1) gene. POMGnT1 is a glycosylation enzyme that participates in the synthesis of O-mannosyl glycan, a modification that is rare in mammals but is known to be a laminin-binding ligand of alpha-dystroglycan. Here we report a selective deficiency of alpha-dystroglycan in MEB patients. This finding suggests that alpha-dystroglycan is a potential target of POMGnT1 and that altered glycosylation of alpha-dystroglycan may play a critical role in the pathomechanism of MEB and some forms of muscular dystrophy.     

Prominent immunogenicity of monosialosyl galactosylgloboside, carrying a stage-specific embryonic antigen-4 (SSEA-4) epitope in the ACHN human renal tubular cell line—a simple method for producing monoclonal antibodies against detergent-insoluble microdomains/raft

The binding of Shiga toxin (Stx) to Gb3Cer in detergent-insoluble microdomains (DIM)/raft of the ACHN human renal tubular cell line causes the temporal activation of the Src-family kinase Yes [1]. As a strategy for examining signaling mechanisms in DIM/raft, monoclonal antibodies (MAbs) are reliable tools for characterizing the constituent molecules in these microdomains. Thus, we employed DIM/raft suspensions of ACHN cells as an immunogen to develop MAbs. Simply subcutaneous injections of ACHN DIM/raft could elevate the serum titer after several boosts. The first screening was performed using dot-blot immunostaining with culture supernatants on a polyvinylidene difluoride (PVDF) membrane, on which DIM/raft or their chloroform/methanol (C/M) (2:1, v/v) extracts were dot-blotted. The next screening was performed by flowcytometric analysis of ACHN cells treated with or without a permeabilizing reagent. Many of the clones (21/31 clones=68%) thus obtained were also found to recognize to lipid fractions of the DIM/raft. Strikingly, all of the 21 clones that reacted to the lipid fraction were found to recognize monosialosyl galactosylgloboside (MSGG) or GL7, which carries the SSEA-4 epitope. Using DIM/raft as immunogens may enable us to easily obtain MAbs for glycolipids.     

Cloning and characterization of cDNA clones encoding membrane-bound and potentially secreted major histocompatibility class I receptors from walleye (Stizostedion vitreum)

Major histocompatibility (MH) gene polymorphism has been used to type populations of humans, mice, and fish. Walleye ( Stizostedion vitreum) comprise an economically important fishery in Lake Erie, but whether those in the western basin form a single population or separate shoal- and river-breeding populations is not known. To develop MH gene markers for use in defining their population structure, we constructed a head kidney cDNA library from which five full-length class I heavy-chain clones were isolated and sequenced. Although they came in roughly three sizes, 1300, 1400, and over 2000 bp, the clones all exhibited a high degree of sequence similarity to each other and to known teleost MH class I cDNAs in the area encoding the extracellular domains, but showed dramatic differences in their transmembrane and cytoplasmic domains. One clone had an AG repeat that eliminated the hydrophobicity of the transmembrane domain, indicating that it may encode a secreted class I receptor. The other four clones encode three distinctly different cytoplasmic domains. The two clones that encode the same cytoplasmic domain resemble those of the known teleost MH class I sequences the most. Southern blotting indicated that there were four copies of the gene present in the walleye genome. Northern blotting showed that class I MH genes are expressed in most tissues and mRNAs of all three size classes can be detected. A preliminary survey of the polymorphism of these genes indicates that they will provide useful markers for differentiating fish stocks.     

Genetic mapping of the rat mutation creeping and evaluation of its positional candidate gene reelin

We have previously described a rat autosomal recessive mutation, creeping (cre), causing severe ataxia and disarrangement of neuronal cells in the central nervous system. The mutant strain has recently been successfully inbred, named Komeda Zucker creeping (KZC) rat. In the present study, we have performed a genetic analysis of the creeping mutation, and mapped it to rat Chromosome (Chr) 4. Comparative mapping, together with the similarity of the phenotype, suggested that the creeping mutation is homologous to the mouse reeler mutation. In fact, reelin expression was markedly reduced in the homozygous mutant (cre/cre) animals compared with the normal littermates. Thus, the KZC rat should become a useful biological model with a novel mutation in the reelin gene. Received: 25 June 1999 / Accepted: 19 October 1999     

Synthesis of 6-Methyluridine via Palladium-Catalyzed Cross-Coupling Between A 6-Iodouridine Derivative and Tetramethylstannane

Abstract

6-Methyluridine can be synthesized from 5′-O-(tert-butyl-dimethylsilyl)-6-iodo-2′,3′-O-isopropylideneuridine via palladiumcatalyzed cross-coupling with Me₄Sn followed by deprotection. Application of this method for the synthesis of 6-phenyluridine was also carried out.     

Onset of Buccal Pumping in Catshark Embryos: How Breathing Develops in the Egg Capsule

Respiration in fishes involves buccal pumping, which is characterized by the generation of nearly continuous water flow over the gills because of the rhythmic expansion/compression of the pharyngeal cavity. This mechanism is achieved by the functions of the vascular, skeletal, and muscular systems. However, the process by which the embryo establishes the mechanism remains a mystery. Morphological and kinematical observations on captive cloudy catsharks, Scyliorhinus torazame, have suggested that the embryo starts buccal pumping just before the respiratory slits open on the egg capsule. During the pre-opening period, the embryo acquires oxygen mainly via the external gill filaments. After slit opening, respiration of the embryo involves buccal pumping to pass water over the “internal gills.” The onset of buccal pumping accompanies four morphological changes: (1) regression of the external gill filaments, (2) development of blood vessels within the “internal gills,” (3) completion of the development of hyoid skeletal and muscular elements, and (4) development of the oral valve. A previous study showed that buccal pumping allows the embryo to actively regulate oxygen intake by changing the pumping frequency. Thus, establishment of buccal pumping in the egg capsule is probably important for embryo survival in the unstable oxygen environment of the egg capsule after slit opening.     

Phosphate–Induced Renal Fibrosis Requires the Prolyl Isomerase Pin1

Tubulo-interstitial fibrosis is a common, destructive endpoint for a variety of kidney diseases. Fibrosis is well correlated with the loss of kidney function in both humans and rodents. The identification of modulators of fibrosis could provide novel therapeutic approaches to reducing disease progression or severity. Here, we show that the peptidyl-prolyl isomerase Pin1 is an important molecular contributor that facilitates renal fibrosis in a well-characterized animal model. While wild-type mice fed a high phosphate diet (HPD) for 8–12 weeks developed calcium deposition, macrophage infiltration and extracellular matrix (ECM) accumulation in the kidney interstitium, Pin1 null mice showed significantly less pathology. The serum Pi in both WT and KO mice were significantly increased by the HPD, but the serum Ca was slightly decreased in KO compared to WT. In addition, both WT and KO HPD mice had less weight gain but exhibited normal organ mass (kidney, lung, spleen, liver and heart). Unexpectedly, renal function was not initially impaired in either genotype irrespective of the HPD. Our results suggest that diet containing high Pi induces rapid renal fibrosis before a significant impact on renal function and that Pin1 plays an important role in the fibrotic process.