8 research outputs found

    Glomerular structure after regeneration in 10-month-old mice.

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    <p>Localisation of Vglut2 (A–D) and OMP (E–H) immunolabelling in olfactory bulb glomeruli of WT (A, C, E, G) and STOP null (B, D, F H) mice in controls (A, B, E, F) and after regeneration (C, D, G, H). Note the characteristic feature of a mosaicism between Vglut2 or OMP positive fibers and Vglut2 or OMP negative dentrites in WT mice either in controls or after regeneration (A, E and C, G respectively). In STOP null mice, a clumped aspect of either Vglut2 (D) or OMP (H) positive fibers was observed. Scale bar: 20 µm.</p

    Ultrastructure of olfactory bulb glomeruli.

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    <p>Electron microscopy micrographs of olfactory bulb glomeruli in WT (A) and STOP null (B–F) mice at 3 to 6 months of age. In STOP null mice, olfactory axon endings are filled with autophagic-like structures (B, arrow), tubulovesicular profiles (C, arrowhead), or both (D). When few autophagic structures were present (arrows) (E, F), olfactory axons endings could be identified by the presence of synaptic vesicles and postsynaptic densities (arrowheads) (E, F). De: dentrite; OA: olfactory axon. Scale bar: 0,5 µm (A, C, E, F); 1 µm (B, D).</p

    Neurogenesis in the vomeronasal epithelium.

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    <p>Localisation and mean density of BrdU (A–C), Ki67 (D–F), cleaved caspase 3 (G–I), GAP 43 (J–L), doublecortin (M–O) and OMP (P–R) labelled cells in the vomeronasal epithelium of WT and STOP null mice. The x-axis refers to the three levels studied, from rostral (level 1) to caudal (level 3), where the vomeronasal organ was present. A statistically significant increase in proliferating (BrdU and Ki67 positive cells), apoptotic (caspase 3 positive cells) and immature neurons (GAP 43 and doublecortin positive cells), but not mature OMP positive neurons was observed in STOP null mice as compared to WT mice. All values are represented as mean +/− SEM, *p<0.05, **p<0.01. Scale bar: 100 µm.</p

    Regeneration of the olfactory epithelium.

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    <p>Mean epithelial OMP positive area before and after regeneration at the three levels 4, 5, 6 in WT and STOP null mice at two different ages. The x-axis refers to the three levels studied, from rostral (level 4) to caudal (level 6), where turbinates are most developed and olfactory epithelium most abundant. There is no difference in the ability of olfactory epithelium to regenerate at the three levels studied between WT and STOP null mice in 3 month-old (A) and 10 month-old (B) animals. All values are represented as mean +/− SEM, *p<0.05. The photomicrographs in A and B illustrate OMP immunostaining in the olfactory epithelium of animals after regeneration. Scale bar: 500 µm.</p

    Glomeruli ultrastructure after regeneration in 10-month-old mice.

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    <p>Semithin sections (A–D) and electron microscopy micrographs (E, F) of olfactory bulb glomeruli in WT (A, C) and STOP null (B, D, E, F) mice. In STOP null controls, some olfactory endings are densely packed (*) (B); after regeneration this aspect is more pronounced (D). E illustrates the ultrastructure of a densely packed terminal area in D (*); olfactory axons are densely packed and associated with few electron clear dendrites area. F illustrates concentrically organized axon terminals (F, arrow) in STOP null mice following regeneration. Scale bar: 20 µm (A–D); 5 µm (E); 3 µm (F).</p

    Neurogenesis in the olfactory epithelium.

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    <p>Localisation and mean density of BrdU (A–C), Ki67 (D–F), cleaved caspase 3 (G–I), GAP 43 (J–L), doublecortin (M–O) and OMP (P–R) labelled cells in the olfactory epithelium of WT and STOP null mice. The x-axis refers to the six levels studied, from rostral (level 1) to caudal (level 6). A statistically significant increase in the number of proliferating (BrdU and Ki67 positive cells), apoptotic (caspase 3 positive cells) and immature neurons (GAP 43 and doublecortin positive cells) was observed in STOP null mice as compared to WT mice. There was no difference in the number of mature OMP expressing neurons between the two genotypes. All values are represented as mean +/− SEM, *p<0.05, **p<0.01. Scale bar: 25 µm.</p

    Localisation of BrdU-labelled cells in the olfactory epithelium.

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    <p>Mean density of BrdU-labelled cells in cytokeratine 5 positive HBC layer (A), cytokeratine 5 negative GBC layer (B) and superficial layer (C) in the olfactory epithelium of WT and STOP null mice. The x-axis refers to the six levels studied, from rostral (level 1) to caudal (level 6). Double immunolabelling (arrows) for BrdU (brown) and cytokeratin 5 (green) in the olfactory epithelium of a STOP null mouse is illustrated in D. An increase in globose basal cells but not in horizontal basal and superficial cells was observed in STOP null mice as compared to WT mice. All values are represented as mean +/− SEM, **p<0.01. Scale bar: 30 µm.</p

    Neurogenesis in the olfactory epithelium after regeneration.

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    <p>Mean density of Ki 67 (A, B), caspase 3 (C, D), GAP 43 (E, F) and OMP (G, H) positive cells in the olfactory epithelium of WT and STOP null mice at two different ages. In the 3-month-old groups (A, C, E, G), apoptotic, proliferating and immature, but not mature neurons are more numerous in STOP null mice as compared to WT mice, both in control animals and after regeneration. In the 10-month-old groups (B, D, F, H) only the number of caspase 3 positive neurons (D) was increased in STOP null mice as compared to WT mice, in controls and after regeneration. All values are represented as mean +/− SEM, *p<0.05, **p<0.01. The photomicrographs illustrate immunostaining in animals after regeneration. Scale bar: 25 µm.</p
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