The dyslexia-associated KIAA0319 protein undergoes proteolytic processing with {gamma}-secretase-independent intramembrane cleavage

The KIAA0319 gene has been associated with reading disability in several studies. It encodes a plasma membrane protein with a large, highly glycosylated, extracellular domain. This protein is proposed to function in adhesion and attachment and thought to play an important role during neuronal migration in the developing brain. We have previously proposed that endocytosis of this protein could constitute an important mechanism to regulate its function. Here we show that KIAA0319 undergoes ectodomain shedding and intramembrane cleavage. At least five different cleavage events occur, four in the extracellular domain and one within the transmembrane domain. The ectodomain shedding processing cleaves the extracellular domain, generating several small fragments, including the N-terminal region with the Cys-rich MANEC domain. It is possible that these fragments are released to the extracellular medium and trigger cellular responses. The intramembrane cleavage releases the intracellular domain from its membrane attachment. Our results suggest that this cleavage event is not carried out by γ-secretase, the enzyme complex involved in similar processing in many other type I proteins. The soluble cytoplasmic domain of KIAA0319 is able to translocate to the nucleus, accumulating in nucleoli after overexpression. This fragment has an unknown role, although it could be involved in regulation of gene expression. The absence of DNA-interacting motifs indicates that such a function would most probably be mediated through interaction with other proteins, not by direct DNA binding. These results suggest that KIAA0319 not only has a direct role in neuronal migration but may also have additional signaling functions.     

A glycoprotein hormone expressed in corticotrophs exhibits unique binding properties on thyroid-stimulating hormone receptor

Corticotroph-derived glycoprotein hormone (CGH), also referred to as thyrostimulin, is a noncovalent heterodimer of glycoprotein hormone alpha 2 (GPHA2) and glycoprotein hormone beta 5 (GPHB5). Here, we demonstrate that both subunits of CGH are expressed in the corticotroph cells of the human anterior pituitary, as well as in skin, retina, and testis. CGH activates the TSH receptor (TSHR); (125)I-CGH binding to cells expressing TSHR is saturable, specific, and of high affinity. In competition studies, unlabeled CGH is a potent competitor for (125)I-TSH binding, whereas unlabeled TSH does not compete for (125)I-CGH binding. Binding and competition analyses are consistent with the presence of two binding sites on the TSHR transfected baby hamster kidney cells, one that can interact with either TSH or CGH, and another that binds CGH alone. Transgenic overexpression of GPHB5 in mice produces elevations in serum T(4) levels, reductions in body weight, and proptosis. However, neither transgenic overexpression of GPHA2 nor deletion of GPHB5 produces an overt phenotype in mice. In vivo administration of CGH to mice produces a dose-dependent hyperthyroid phenotype including elevation of T(4) and hypertrophy of cells within the inner adrenal cortex. However, the distinctive expression patterns and binding characteristics of CGH suggest that it has endogenous biological roles that are discrete from those of TSH.     

DNA probes for the rapid identification of medically important Candida species using a multianalyte profiling system

Recently, a new flow cytometric technology to detect multiple DNA target sequences in a single microtiter well plate was developed [multianalyte profiling (MAP) System, Luminex Corp., Austin, TX]. DNA probes, directed to the internal transcribed spacer 2 region of ribosomal DNA, were therefore designed to detect and differentiate PCR amplicons from six medically important Candida species using this system. Each probe was covalently linked to one of 100 available microsphere (bead) sets. Biotinylated PCR amplicons were then hybridized to the complementary probe on each bead set. Bound amplicons were detected fluorometrically using a streptavidin-linked reporter dye, R-phycoerythrin. Specific hybridization was noted for all six Candida species probes (mean sample-to-background ratio+/-standard error: Candida albicans, 58.7+/-1.2; Candida tropicalis, 53.2+/-3.8; Candida glabrata, 46.9+/-2.1; Candida parapsilosis, 59.9+/-1.6; Candida krusei, 54.7+/-3.7 vs. 0.9+/-0.03 for all heterologous Candida species DNA targets and vs. 1.0+/-0.1 for samples containing water instead of DNA; P < 0.001). The limit of test sensitivity was 0.5 pg of DNA. A sample could be processed and analyzed within 1 h post-PCR amplification. Therefore, the multianalyte profiling system was rapid, sensitive and specific for the detection and differentiation of the most medically important species of Candida.     

Polyploids with different origins and ancestors form a single sexual polyploid species

Polyploidization is one of the few mechanisms that can produce instantaneous speciation. Multiple origins of tetraploid lineages from the same two diploid progenitors are common, but here we report the first known instance of a single tetraploid species that originated repeatedly from at least three diploid ancestors. Parallel evolution of advertisement calls in tetraploid lineages of gray tree frogs has allowed these lineages to interbreed, resulting in a single sexually interacting polyploid species despite the separate origins of polyploids from different diploids. Speciation by polyploidization in these frogs has been the source of considerable debate, but the various published hypotheses have assumed that polyploids arose through either autopolyploidy or allopolyploidy of extant diploid species. We utilized molecular markers and advertisement calls to infer the origins of tetraploid gray tree frogs. Previous hypotheses did not sufficiently account for the observed data. Instead, we found that tetraploids originated multiple times from extant diploid gray tree frogs and two other, apparently extinct, lineages of tree frogs. Tetraploid lineages then merged through interbreeding to result in a single species. Thus, polyploid species may have complex origins, especially in systems in which isolating mechanisms (such as advertisement calls) are affected directly through hybridization and polyploidy.     

Detection of submicroscopic magnetite particles using reflectance mode confocal laser scanning microscopy

Light microscopy and transmission electron microscopy work at such different scales that some components of cells may be too small to detect using light microscopy but too dispersed among cells within tissues to be discovered using electron microscopy. We have used reflectance mode confocal laser scanning microscopy to detect single-domain magnetite crystals in both live and resin-embedded preparations of magnetotactic bacteria. We show that reflections from bacterial cells are uniquely associated with the magnetite, which underpins the magnetotactic response of the bacteria. En bloc viewing shows that relatively large volumes of material can be searched with sufficient resolution to enable detection of submicroscopic particles. The techniques reported here may be of interest to others wishing to detect submicroscopic objects dispersed in large volumes of tissue.