Identification of chemosensory sensilla activating antennular grooming behavior in the Caribbean spiny lobster,Panulirus argus

Crustaceans such as crabs and lobsters clean or 'groom' their olfactory organ, the antennule, by wiping it through a pair of mouthpart appendages, the third maxillipeds. In the lobster, only a few chemicals found in prey extracts, especially glutamate, elicit grooming. Chemosensory input driving grooming is likely to be mediated via sensilla located on antennules and third maxillipeds. Chemosensory antennular sensilla are innervated by neurons with central projections either to the glomerular olfactory lobe (aesthetasc sensilla) or to non-glomerular antennular neuropils (nonaesthetasc sensilla). By selectively ablating the chemosensory sensilla on the antennules and the third maxillipeds we have determined that the aesthetascs are necessary and sufficient to drive grooming behavior. Chemosensory activation of antennular grooming behavior likely follows a 'labeled-line' model in that aesthetasc neurons tuned to glutamate provide adequate input via the olfactory lobe to motor centers in the brain controlling antennular movements.     

Interactive effects of lateral shade and wind on stem allometry, biomass allocation, and mechanical stability in Abutilon theophrasti (Malvaceae)

The effects of lateral shade and wind on stem allometry, whole-plant biomass allocation, and mechanical stability were examined for Abutilon theophrasti in a fully factorial glasshouse experiment. Lateral shade from neighboring plants increased stem height by 33% relative to control plants grown individually, despite a decrease in plant dry mass. Intermittent wind decreased stem height by 18% in unshaded plants, but by only 3% in shaded plants. Surprisingly, both lateral shade and wind caused decreases in stem diameter, even with diameter controlled for height, resulting in low diameter?:?height ratios in wind-treated plants relative to untreated plants. Under shade, wind-treated plants had higher root allocation than untreated plants, which allowed wind-treated shade plants to compensate for a low diameter?:?height ratio. This did not occur in the absence of shade, where stem tissue density and root allocation of wind-treated plants did not exceed that of untreated plants. Nevertheless, wind-treated plants experienced low drag relative to untreated plants due to a lower leaf area. Consequently, stem deflections of wind-treated plants did not exceed those of untreated plants at any given windspeed. Our results document a complex interaction between shade and wind on plant morphology and suggest that the nature of this interaction is generally that lateral shade acts to reduce or eliminate thigmomorphogenic responses.     

The relationship between ligand aggregation and G-quadruplex DNA selectivity in a series of 3,4,9,10-perylenetetracarboxylic acid diimides

Human telomeres are comprised of d(TTAGGG) repeats that are capable of forming G-quadruplex DNA structures. Ligands that bind to and stabilize these G-quadruplex DNA structures are potential inhibitors of the cancer cell-associated enzyme telomerase. Other potential biological uses of G-quadruplex targeting ligands have been proposed. One particularly challenging aspect of the contemplated uses of G-quadruplex targeting ligands is their selectivity for G-quadruplex DNA versus double-stranded DNA structures. We have previously reported the observation that two structurally related 3,4,9,10-perylenetetracarboxylic acid diimide-based G-quadruplex DNA ligands, PIPER [N,N'-bis(2-(1-piperidino)ethyl)-3,4,9,10-perylenetetracarboxylic acid diimide] and Tel01 [N,N'-bis(3-(4-morpholino)propyl)-3,4,9,10-perylenetetracarboxylic acid diimide], have different levels of G-quadruplex DNA binding selectivity at pH 7 as determined by absorbance changes in the presence of different DNA structures [Kerwin, S. M., Chen, G., Kern, J. T., and Thomas, P. W. (2002) Bioorg. Med. Chem. Lett. 12, 447-450]. Here we report that the less G-quadruplex DNA selective ligand PIPER can unwind double-stranded, closed circular plasmid DNA, as determined by a topoisomerase I assay. A model for the interaction of Tel01 with the G-quadruplex DNA structure formed by d(TAGGGTTA) was determined from NMR experiments. This model is similar to the previously published model for PIPER bound to the same G-quadruplex DNA and failed to provide a structural basis for the observed increased selectivity of Tel01 interaction with G-quadruplex DNA. In contrast, investigation into the aggregation state of Tel01 and PIPER as well as other 3,4,9,10-perylenetetracarboxylic acid diimide analogues bearing basic side chains demonstrates that ligand aggregation is correlated with G-quadruplex DNA binding selectivity. For all six analogues examined, those ligands that were aggregated at pH 7 in 70 mM potassium phosphate, 100 mM KCl, 1 mM EDTA buffer also demonstrated G-quadruplex DNA binding selectivity under these buffer conditions. Ligands that were not aggregated under these conditions display much lower levels of G-quadruplex DNA selectivity. The aggregation state of these ligands is extremely sensitive to the buffer pH. Tel01, which is aggregated at pH 7, is not aggregated at pH 6.4, where it demonstrates only modest G-quadruplex DNA binding selectivity, and PIPER in pH 8.5 buffer is both aggregated and highly G-quadruplex DNA-selective. To our knowledge, these studies demonstrate the first DNA structure selectivity as achieved through pH-mediated ligand aggregation. The potential impact of these findings on the selectivity of other classes of G-quadruplex DNA ligands is discussed.     

Diagnosis of gastric glomus tumor by endoscopic ultrasound-guided fine needle aspiration biopsy. A case report with cytologic,histologic and immunohistochemical studies

BACKGROUND: The majority of glomus tumor are small, benign neoplasms that arise from modified smooth muscle cells. They usually occur in the dermis or subcutis of the extremities. However, rare cases have been reported in the visceral locations, most often in the stomach. CASE: A 32-year-old woman presented with episodes of right upper quadrant pain. She was found to have a gastric tumor that was biopsied at another hospital, where the diagnosis of gastrointestinal stromal tumor (GIST) was made. Endoscopic ultrasound (EUS) performed at our institution revealed a gastric submucosal tumor that was then biopsied by fine needle aspiration (FNA). Cytology revealed cohesive clusters of uniform, round, small cells with ill-defined cytoplasmic borders and scanty, amphophilic cytoplasm. Nuclei were round, with smooth nuclear membranes and evenly distributed, dusty chromatin. Intermingled with those epithelioid cells were small, short, spindled, normal endothelial cells. Immunohistochemical studies performed on cell block showed that the tumor cells were negative for CD34, CD117, chromogranin, synaptophysin, desmin and AE1/AE3 and were strongly positive for SMA, HHF-35 and collagen type IV. Glomus tumor was diagnosed and later confirmed by histology. CONCLUSION: EUS-guided FNA biopsy is efficient and permits adequate sampling for accurate diagnosis of gastric glomus tumor. Although rare, glomus tumor should be in the differential diagnosis among other gastric lesions, such as well-differentiated adenocarcinoma, epithelioid GIST and carcinoid tumor.     

Apolipoprotein A-I alpha -helices 7 and 8 modulate high density lipoprotein subclass distribution.

Mice have a monodisperse high density lipoprotein (HDL) profile, whereas humans have two major subfractions designated HDL(2) and HDL(3). Human apoA-I transgenic mice exhibit a human-like HDL profile, indicating that the amino acid sequence of apoA-I is a determinant of the HDL profile. Comparison of the primary sequence of mouse and human apoA-I and the previously designated "hinge" domain of apoA-I led us to hypothesize that alpha-helices 7 and 8 (7/8) are determinants of HDL subclass distribution. The following proteins were expressed in Escherichia coli: human apoA-I, T7-hAI; mouse apoA-I, T7-mAI; chimeric human apoA-I containing murine helices 7/8 in place of human helices 7/8, T7-hAI(m7/8); and the reciprocal chimera, T7-mAI(h7/8). The recombinant proteins were examined for their association with human plasma HDL subclasses. The results demonstrated that T7-hAI bound HDL(2) and HDL(3) equally well, whereas T7-mAI bound to HDL(2) preferentially. T7-hAI(m7/8) behaved like T7-mAI, and T7-mAI(h7/8) behaved like T7-hAI. Thus, alpha-helices 7/8 are strong contributors to the pattern of HDL subclass association. Self-association, alpha-helicity, cholesterol efflux, and lecithin-cholesterol acyltransferase activity of the recombinant proteins were also assessed. Human apoA-I self-associates more and activates human lecithin-cholesterol acyltransferase better than mouse apoA-I. These differential characteristics of human and mouse apoA-I are not dependent on helices 7/8.     

Isolation of antibiotics turbomycin a and B from a metagenomic library of soil microbial DNA

To access the genetic and biochemical potential of soil microorganisms by culture-independent methods, a 24,546-member library in Escherichia coli with DNA extracted directly from soil had previously been constructed (M. R. Rondon, P. R. August, A. D. Bettermann, S. F. Brady, T. H. Grossman, M. R. Liles, K. A. Loiacono, B. A. Lynch, I. A. MacNeil, M. S. Osburne, J. Clardy, J. Handelsman, and R. M. Goodman, Appl. Environ. Microbiol. 66:2541-2547, 2000). Three clones, P57G4, P89C8, and P214D2, produced colonies with a dark brown melanin-like color. We fractionated the culture supernatant of P57G4 to identify the pigmented compound or compounds. Methanol extracts of the acid precipitate from the culture supernatant contained a red and an orange pigment. Structural analysis revealed that these were triaryl cations, designated turbomycin A and turbomycin B, respectively; both exhibited broad-spectrum antibiotic activity against gram-negative and gram-positive organisms. Mutagenesis, subcloning, and sequence analysis of the 25-kb insert in P57G4 demonstrated that a single open reading frame was necessary and sufficient to confer production of the brown, orange, and red pigments on E. coli; the predicted product of this sequence shares extensive sequence similarity with members of the 4-hydroxyphenylpyruvate dioxygenase (4HPPD) family of enzymes. Another member of the same family of genes, lly, which is required for production of the hemolytic pigment in Legionella pneumophila, also conferred production of turbomycin A and B on E. coli. We further demonstrated that turbomycin A and turbomycin B are produced from the interaction of indole, normally secreted by E. coli, with homogentisic acid synthesized by the 4HPPD gene products. The results demonstrate successful heterologous expression of DNA extracted directly from soil as a means to access previously uncharacterized small organic compounds, serving as an example of a chimeric pathway for the generation of novel chemical structures.     

Evolutionary relationships and polymorphisms among V κ 10 genes from inbred and wild-derived inbred mice

The V kappa 10 family in BALB/c mice is composed of three members, two of which are utilized in a variety of immune responses. We previously demonstrated that the product of the third gene, V kappa 10C, has never been detected as part of a functional antibody and productive rearrangements are selectively lost during B-cell development. Here we analyzed germline V kappa 10 genes from inbred and wild-derived mice by RFLP and sequencing in order to determine the origin of the V kappa 10C gene, as well as to examine the evolutionary relationships of V kappa 10 genes. Our results demonstrated that the V kappa 10 family is highly conserved across Mus species and subspecies, but that V kappa 10C is rare, being found in only inbred mice of V kappa 10 allelic group b and two of six M. m. domesticus isolates. It was not found in other M. musculus subspecies or M. spretus. V kappa 10A and V kappa 10B were found in all strains, with the exception of one M. m. domesticus isolate, which had only V kappa 10B genes. Overall, V kappa 10A sequences were more highly conserved than V kappa 10B, indicating that different selective pressures may be operating on these genes. The two V kappa 10C sequences from M. m. domesticus were 100% identical to that found in inbred mice. V kappa 10C is more closely related to V kappa 10B than to V kappa 10A and our data suggest that it is a recent duplication of the V kappa 10B gene.     

Mice expressing the alpha(1B)-adrenergic receptor induces a synucleinopathy with excessive tyrosine nitration but decreased phosphorylation

We had previously reported that systemic overexpression of the alpha(1B)-adrenergic receptor (AR) in a transgenic mouse induced a neurodegenerative disease that resembled the parkinsonian-like syndrome called multiple system atrophy (MSA). We now report that our mouse model has cytoplasmic inclusion bodies that colocalize with oligodendrocytes and neurons, are positive for alpha-synuclein and ubiquitin, and therefore may be classified as a synucleinopathy. Alpha-synuclein monomers as well as multimers were present in brain extracts from both normal and transgenic mice. However, similar to human MSA and other synucleinopathies, transgenic mice showed an increase in abnormal aggregated forms of alpha-synuclein, which also increased its nitrated content with age. However, the same extracts displayed decreased phosphorylation of alpha-synuclein. Other traits particular to MSA such as Purkinje cell loss in the cerebellum and degeneration of the intermediolateral cell columns of the spinal cord also exist in our mouse model but differences still exist between them. Interestingly, long-term therapy with the alpha(1)-AR antagonist, terazosin, resulted in protection against the symptomatic as well as the neurodegeneration and alpha-synuclein inclusion body formation, suggesting that signaling of the alpha(1B)-AR is the cause of the pathology. We conclude that overexpression of the alpha(1B)-AR can cause a synucleinopathy similar to other parkinsonian syndromes.     

The Tim9p-Tim10p complex binds to the transmembrane domains of the ADP/ATP carrier

The soluble Tim9p-Tim10p (Tim, translocase of inner membrane) complex of the mitochondrial intermembrane space mediates the import of the carrier proteins and is a component of the TIM22 import system. The mechanism by which the Tim9p-Tim10p complex assembles and binds the carriers is not well understood, but previous studies have proposed that the conserved cysteine residues in the 'twin CX3C' motif coordinate zinc and potentially generate a zinc-finger-like structure that binds to the matrix loops of the carrier proteins. Here we have purified the native and recombinant Tim9p-Tim10p complex, and show that both complexes resemble each other and consist of three Tim9p and three Tim10p. Results from inductively coupled plasma--mass spectrometry studies failed to detect zinc in the Tim9p-Tim10p complex. Instead, the cysteine residues seemingly formed disulfide linkages. The Tim9p-Tim10p complex bound specifically to the transmembrane domains of the ADP/ATP carrier, but had no affinity for Tim23p, an inner membrane protein that is inserted via the TIM22 complex. The chaperone-like Tim9p-Tim10p complex thus may prevent aggregation of the unfolded carrier proteins in the aqueous intermembrane space.