D-cbl, a negative regulator of the Egfr pathway, is required for dorsoventral patterning in Drosophila oogenesis

During Drosophila oogenesis, asymmetrically localized Gurken activates the EGF receptor (Egfr) and determines dorsal follicle cell fates. Using a mosaic follicle cell system we have identified a mutation in the D-cbl gene which causes hyperactivation of the Egfr pathway. Cbl proteins are known to downregulate activated receptors. We find that the abnormal Egfr activation is ligand dependent. Our results show that the precise regulation of Egfr activity necessary to establish different follicle cell fates requires two levels of control. The localized ligand Gurken activates Egfr to different levels in different follicle cells. In addition, Egfr activity has to be repressed through the activity of D-cbl to ensure the absence of signaling in the ventral most follicle cells.     

Die Cytogenetik zweier norddeutscher Populationen von Nosopsyllus fasciatus Bosc (Aphaniptera)

Specimens of the populations Hamburg and Wilhelmshaven of the ratflea N. fasciatus exhibit variation of the chromosome number in the range of 2n=20–23 and 2n=20–27 respectively, resulting from individual differences in the number of supernumerary chromosomes beyond the basic chromosome complement of 2n=20. The supernumerary chromosomes are mostly euchromatic and partly or completely homologous to each other and to the 10. pair of the basic complement. The numerical variation in the population Wilhelmshaven is produced by recurrent mitotic non-disjunction of the supernumerary chromosomes in anaphase II of spermatogenesis. Constant mitotic non-disjunction and preferential segregation of the supernumerary chromosomes towards the pronucleus leads to their accumulation in the population.—A multiple sex-chromosome mechanism of the type X₁ X₂ Y₁ Y₂ (male): X₁ X₁ X₂ X₂ (female) has been demonstrated for the population Wilhelmshaven of N. fasciatus. The X₁ X₂ Y₁ Y₂-chain of four is restricted to the male meiosis, in oogenesis two sex bivalents (X₁ X₁ and X₂ X₂) are formed. — The cytogenetic data presented do not support the concept of a closer phylogenetic relationship between the Aphaniptera and Nematocera, but do not preclude the possibility of a kinship of Aphaniptera and Neomecoptera.     

Die Cytogenetik der Flöhe (Aphaniptera)

The phylogenetical relationship of the fleas (Aphaniptera=Siphonaptera) to the other orders of the Insecta remains unsolved. Comparative studies of the cytology of the fleas are undertaken in an attempt to elucidate this problem. Two populations of Xenopsylla cheopis Rothschild, 1903, exhibit a chromosome complement of 2n = 14 A + X₁X₂Y (male): 14 A+X₁X₁X₂X₂ (female). The X₁X₂Y-sex-trivalent is restricted to the male meiosis, in oogenesis two sex-bivalents (X₁X₁ and X₂X₂) are formed. One population of Leptopsylla segnis Schönherr, 1811 shows 2n =18 A + XY (male): 18 A+XX (female). The high chromosome number of X. cheopis, L. segnis, and N. fasciatus (Bayreuther, 1969), the diffuse premeiotic stage in the spermatogenesis of the threespecies investigated and the multiple sex-chromosome-mechanisms of X. cheopis and N. fasciatus do not support the concept of a closer phylogenetic relationship between the Aphaniptera and Nematocera, but do not preclude the possibility of a kinship of Aphaniptera and Neomecoptera. Additional studies of the cytogenetics of these two orders are required before lasting conclusions can be drawn. The analysis of the chromosome cytology of the fleas of the Marsupialia, which are considered to be the most primitive of all living forms, could prove particularly instructive.     

Identification and cytogenetic localization of vitelline membrane messenger RNAs in Drosophila

During stages 9 and 10 of oogenesis in Drosophila the major proteins involved in vitelline membrane (VM) formation are synthesized and secreted by the somatic follicle cells surrounding the oocyte. To identify potential mRNAs involved in VM protein synthesis, newly synthesized poly(A)-containing RNA from egg chambers of different developmental stages was studied. Urea-agarose gel electrophoresis revealed two RNA bands in stage 10 egg chambers in the size range expected for those which encode the smaller VM proteins. These RNA bands, T₁ and T₂, are specifically enriched in stage 10 follicle cell preparations. In vitro translations in reticulocyte lysates in the absence and presence of microsomal membranes showed both RNA bands code for products that are synthesized in precursor forms which are processed to species that comigrate with VM proteins. T₂ directed the synthesis of processed species that comigrated with the 23- to 24-kDa and 17.5-kDa VM proteins (J. Fargnoli and G. L. Waring, 1982, Dev. Biol. 92, 306–314) while the T₁ translation product comigrated with the 14-kDa protein. To determine the cytogenetic location of the genes encoding T₁ and T₂ RNAs, radiolabeled T₁ and T₂ RNAs were hybridized in situ to salivary gland chromosomes. The results suggest that the structural genes coding for the small vitelline membrane proteins are localized at two sites on the second chromosome: 39DE and 42A.     

Bicaudal-C associates with a Trailer Hitch/Me31B complex and is required for efficient Gurken secretion

Bicaudal-C (Bic-C) is a multiple KH-domain RNA-binding protein required for Drosophila oogenesis and, maternally, for embryonic patterning. In early oogenesis, Bic-C negatively regulates target mRNAs, including Bic-C, by recruiting the CCR4 deadenylase through a direct association with its NOT3 subunit. Here, we identify a novel function for Bic-C in secretion of the TGF-α homolog Gurken (Grk). In Bic-C mutant egg chambers, Grk is sequestered within actin-coated structures during mid-oogenesis. As a consequence, Egfr signalling is not efficiently activated in the dorsal-anterior follicle cells. This phenotype is strikingly similar to that of trailer hitch (tral) mutants. Consistent with the idea that Bic-C and Tral act together in Grk secretion, Bic-C co-localizes with Tral within cytoplasmic granules, and can be co-purified with multiple protein components of a Tral mRNP complex. Taken together, our results implicate translational regulation by Bic-C and Tral in the secretory pathway.     

Origin of the X1X1X2X2/X1X2Y sex chromosome system of Harttia punctata (Siluriformes,Loricariidae) inferred from chromosome painting and FISH with ribosomal DNA markers

Harttia is a genus in the subfamily Loricariinae that accommodates fishes popularly known as armored catfishes. They show extensive karyotypic diversity regarding interspecific numerical/structural variation of the karyotypes, with the presence of the XX/XY₁Y₂ multiple sex chromosome system, as found in H. carvalhoi. In this context, this study aimed to characterize Harttia punctata chromosomally, for the first time, and to infer the rearrangements that originated the X₁X₁X₂X₂/X₁X₂Y multiple sex chromosome system present in this species. The data obtained in this study, with classical (Giemsa, C-banding and AgNORs) and molecular methodologies (fluorescence in situ hybridization) and chromosome microdissection, indicated that a translocation between distinct acrocentric chromosomes bearing rRNA genes, accompanied by deletions in both chromosomes, might have originated the neo-Y chromosome in this species. The data also suggest that the multiple sex chromosome systems present in H. carvalhoi and H. punctata had an independent origin, evidencing the recurrence of chromosome alterations in species from this genus.     

Premature Translation of oskar in Oocytes Lacking the RNA-Binding Protein Bicaudal-C

Bicaudal-C (Bic-C) is required during Drosophila melanogaster oogenesis for several processes, including anterior-posterior patterning. The gene encodes a protein with five copies of the KH domain, a motif found in a number of RNA-binding proteins. Using antibodies raised against the BIC-C protein, we show that multiple isoforms of the protein exist in ovaries and that the protein, like the RNA, accumulates in the developing oocyte early in oogenesis. BIC-C protein expressed in mammalian cells can bind RNA in vitro, and a point mutation in one of the KH domains that causes a strong Bic-C phenotype weakens this binding. In addition, oskar translation commences prior to posterior localization of oskar RNA in Bic-C⁻ oocytes, indicating that Bic-C may regulate oskar translation during oogenesis.     

Evolutionary breakpoint regions and chromosomal remodeling in Harttia (Siluriformes: Loricariidae) species diversification

The Neotropical armored catfish genus Harttia presents a wide variation of chromosomal rearrangements among its representatives. Studies indicate that translocation and Robertsonian rearrangements have triggered the karyotype evolution in the genus, including differentiation of sex chromosome systems. However, few studies used powerful tools, such as comparative whole chromosome painting, to clarify this highly diversified scenario. Here, we isolated probes from the X₁ (a 5S rDNA carrier) and the X₂ (a 45S rDNA carrier) chromosomes of Harttia punctata, which displays an X₁X₁X₂X₂/X₁X₂Y multiple sex chromosome system. Those probes were applied in other Harttia species to evidence homeologous chromosome blocks. The resulting data reinforce that translocation events played a role in the origin of the X₁X₂Y sex chromosome system in H. punctata. The repositioning of homologous chromosomal blocks carrying rDNA sites among ten Harttia species has also been demonstrated. Anchored to phylogenetic data it was possible to evidence some events of the karyotype diversification of the studied species and to prove an independent origin for the two types of multiple sex chromosomes, XX/XY₁Y₂ and X₁X₁X₂X₂/X₁X₂Y, that occur in Harttia species. The results point to evolutionary breakpoint regions in the genomes within or adjacent to rDNA sites that were widely reused in Harttia chromosome remodeling.     

On the mechanism of the PMS-effected quenching of chloroplast fluorescence

Evidence is presented which suggests that N-methylphenazonium methosulfate suppresses the fluorescence of 3-(3,4-dichlorophenyl)-1,1-dimethylurea-poisoned chloroplasts by two mechanisms: (i) indirectly, by catalyzing the buildup of the phosphorylating potential X_E across the thylaknid membrane; (ii) directly, by interacting with excited chlorophyll molecules.Arguments in support of direct quenching are as follows: (i) N-methylphenazonium methosulfate is an efficient quencher of the fluorescence of chlorophyll a in methanol; (ii) the dark-irreversible portion of the light-induced fluorescence lowering in the presence of N-methylphenazonium-methosulfate increases with the concentration of the cofactor, (iii) N-methylphenazonium methosulfate lowers the fluorescence of chloroplasts at an excitation that is too weak to allow formation of X_E.Ascorbate-reduced N-methylphenazonium methosulfate (PMS-SQ) is a more efficient direct quencher of chloroplast fluorescence than oxidized PMS because the thylakoid membrane is more permeable to the reduced species. The permeability to these quenchers is enhanced by the light-induced protonation of the membrane, and suppressed by added Mg²⁺. Different permeability barriers appear to exist for the direct and for the X_E-mediated quenching by N-methylphenazonium methosulfate, since the latter is known to be insensitive to the presence of Mg²⁺.     

Unwinding of the Substrate Transmembrane Helix in Intramembrane Proteolysis

Intramembrane-cleaving proteases (I-CLiPs) activate pools of single-pass helical membrane protein signaling precursors that are key in the physiology of prokaryotic and eukaryotic cells. Proteases typically cleave peptide bonds within extended or flexible regions of their substrates, and thus the mechanism underlying the ability of I-CLiPs to hydrolyze the presumably α-helical transmembrane domain (TMD) of these membrane proteins is unclear. Using deep-ultraviolet resonance Raman spectroscopy in combination with isotopic labeling, we show that although predominantly in canonical α-helical conformation, the TMD of the established I-CLiP substrate Gurken displays 3₁₀-helical geometry. As measured by microscale thermophoresis, this substrate binds with high affinity to the I-CLiPs GlpG rhomboid and MCMJR1 presenilin homolog in detergent micelles. Binding results in deep-ultraviolet resonance Raman spectra, indicating conformational changes consistent with unwinding of the 3₁₀-helical region of the substrate’s TMD. This 3₁₀-helical conformation is key for intramembrane proteolysis, as the substitution of a single proline residue in the TMD of Gurken by alanine suppresses 3₁₀-helical content in favor of α-helical geometry and abolishes cleavage without affecting binding to the I-CLiP. Complemented by molecular dynamics simulations of the TMD of Gurken, our vibrational spectroscopy data provide biophysical evidence in support of a model in which the transmembrane region of cleavable I-CLiP substrates displays local deviations in canonical α-helical conformation characterized by chain flexibility, and binding to the enzyme results in conformational changes that facilitate local unwinding of the transmembrane helix for cleavage.     

Expression of P2X6 receptors in the enteric nervous system of the rat gastrointestinal tract

Expression of P2X₄ and P2X₆ receptor subunits in the gastrointestinal tract of the rat was studied with double-labeling fluorescence immunohistochemistry. The results showed that P2X₆ receptors were expressed widely in the submucosal and myenteric plexuses. In the myenteric plexus, P2X₆ receptors were expressed mainly in large size neurons which resembled Dogiel type II neurons. These P2X₆ receptor-immunoreactive (ir) neurons also expressed calbindin 28K, calretinin and neuronal nuclei (NeuN), proteins that are markers of intrinsic sensory neurons. In the submucosal plexus, all the calbindin 28K, calretinin and NeuN-ir cells were immunoreactive for P2X₆ receptors. P2X₆ receptors do not form homomultimers, but rather heteromultimers with either P2X₂ or P2X₄ receptors. P2X₄ receptors were not expressed in neurons, but were expressed in macrophages of the rat gastrointestinal tract. These data indicate that P2X₆ receptors are mainly expressed on intrinsic sensory neurons and that ATP, via P2X₆ receptors probably in heteromeric combination with P2X₂ receptors, may be involved in regulating the physiological functions of these neurons.     

X1X1X2X2/X1X2Y sex chromosome systems in the Neotropical Gymnotiformes electric fish of the genus Brachyhypopomus

Several types of sex chromosome systems have been recorded among Gymnotiformes, including male and female heterogamety, simple and multiple sex chromosomes, and different mechanisms of origin and evolution. The X₁X₁X₂X₂/X₁X₂Y systems identified in three species of this order are considered homoplasic for the group. In the genus Brachyhypopomus, only B. gauderio presented this type of system. Herein we describe the karyotypes of Brachyhypopomus pinnicaudatus and B. n. sp. FLAV, which have an X₁X₁X₂X₂/X₁X₂Y sex chromosome system that evolved via fusion between an autosome and the Y chromosome. The morphology of the chromosomes and the meiotic pairing suggest that the sex chromosomes of B. gauderio and B. pinnicaudatus have a common origin, whereas in B . n. sp. FLAV the sex chromosome system evolved independently. However, we cannot discard the possibility of common origin followed by distinct processes of differentiation. The identification of two new karyotypes with an X₁X₁X₂X₂/X₁X₂Y sex chromosome system in Gymnotiformes makes it the most common among the karyotyped species of the group. Comparisons of these karyotypes and the evolutionary history of the taxa indicate independent origins for their sex chromosomes systems. The recurrent emergence of the X₁X₁X₂X₂/X₁X₂Y system may represent sex chromosomes turnover events in Gymnotiformes.     

Point mutation in the mouse P2X7 receptor affects intercellular calcium waves in astrocytes

Purinergic P2 receptors and gap junctions are two groups of proteins involved in the transmission of ICWs (intercellular calcium waves) between astrocytes. The extent to which ICWs spread among these glial cells depends on the amount of ATP released, which can occur through membrane channels, as well as other pathways. Our previous studies have shown that the pore-forming P2X₇R (P2X₇ receptor) contributes to the amplification of ICW spread by providing sites of ATP release through Panx1 (Pannexin1) channels. To gain insight into the signal transduction events mediating this response we compared the properties of the P2X₇R–Panx1 complex in astrocytes from a mouse strain (C57Bl/6) containing a naturally occurring point mutation (P451L) in the C-terminus of the P2X₇R to that of non-mutated receptors (Balb/C mice). Electrophysiological, biochemical, pharmacological and fluorescence imaging techniques revealed that the P451L mutation located in the SH3 domain (a Src tyrosine kinase-binding site) of the C-terminus of the P2X₇R attenuates Panx1 currents, ATP release and the distance of ICW spread between astrocytes. Similar results were obtained when using the Src tyrosine inhibitor (PP2) and a membrane-permeant peptide spanning the P451L mutation of the P2X₇R of the C57Bl6 astrocytes. These results support the participation of a tyrosine kinase of the Src family in the initial steps mediating the opening of Panx1 channels following P2X₇R stimulation and in the transmission of calcium signals among astrocytes.     

Supernumerary chromosomes in the human bed bug,Cimex lectularius Linn. (Cimicidae:Hemiptera)

The chromosome complement in the human bed bug, Cimex lectularius Linn., is 26+X₁X₂Y in the male and 26+X₁X₁X₂X₂ in the female. However, a population from Cairo, Egypt has 4 supernumerary X chromosomes. In the hybrid between the Berkeley population (with no supernumeraries) and the Cairo population (with 4 supernumeraries), the behavior of supernumeraries was observed during embryogenesis and oogenesis as well as spermatogenesis.In embryogenesis the transmission of supernumeraries was quite regular. However, one chromosome may sometimes be eliminated early in the germ line. This abnormality could induce the variations in chromosome number encountered in later stages. In the first meiotic division, some of the supernumeraries were nondisjunctional. Moreover, in the second division, some supernumeraries were eliminated. These results show that there is a tendency towards a decrease in the number of supernumeraries in the hybrids.Although the supernumeraries behave like X chromosomes, they seem not to be important for sex determination and appear to be largely or entirely inert genetically. Supernumeraries in the bed bug originate from small fragments caused by structural rearrangement. They are increased by an accumulation mechanism. Supernumeraries in the bed bug appear to be of relatively recent origin. The phylogenetic sequence in their development was probably from none to a stabilized number of four in the Old World. Then the supernumeraries were lost in two specialized lines, Cimex columbarius Jenyns on domestic birds in Europe and Cimex lectularius Linn. on man in the Western Hemisphere.This study was carried out under U.S. Public Health Service Grant (GM-13197).