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1.
eNeuro ; 4(1)2017.
Article in English | MEDLINE | ID: mdl-28317020

ABSTRACT

Oxytocin regulates a diverse set of processes including stress, analgesia, metabolism, and social behavior. How such diverse functions are mediated by a single hormonal system is not well understood. Different functions of oxytocin could be mediated by distinct cell groups, yet it is currently unknown whether different oxytocinergic cell types exist that specifically mediate peripheral neuroendocrine or various central neuromodulatory processes via dedicated pathways. Using the Brainbow technique to map the morphology and projections of individual oxytocinergic cells in the larval zebrafish brain, we report here the existence of two main types of oxytocinergic cells: those that innervate the pituitary and those that innervate diverse brain regions. Similar to the situation in the adult rat and the adult midshipman, but in contrast to the situation in the adult trout, these two cell types are mutually exclusive and can be distinguished based on morphological and anatomical criteria. Further, our results reveal that complex oxytocinergic innervation patterns are already established in the larval zebrafish brain.


Subject(s)
Brain/cytology , Brain/growth & development , Larva/cytology , Oxytocin/metabolism , Zebrafish/anatomy & histology , Zebrafish/growth & development , Animals , Animals, Genetically Modified , Brain/metabolism , Endocrine Glands/cytology , Endocrine Glands/growth & development , Endocrine Glands/metabolism , Female , Imaging, Three-Dimensional , Immunohistochemistry , Larva/metabolism , Male , Microscopy, Confocal , Neural Pathways/cytology , Neural Pathways/growth & development , Neural Pathways/metabolism , Zebrafish/metabolism
2.
Mol Cell Biol ; 28(8): 2782-91, 2008 Apr.
Article in English | MEDLINE | ID: mdl-18268009

ABSTRACT

The development of a highly branched dendritic tree is essential for the establishment of functional neuronal connections. The evolutionarily conserved immunoglobulin superfamily member, the protein dendrite arborization and synapse maturation 1 (Dasm-1) is thought to play a critical role in dendrite formation of dissociated hippocampal neurons. RNA interference-mediated Dasm-1 knockdown was previously shown to impair dendrite, but not axonal, outgrowth and branching (S. H. Shi, D. N. Cox, D. Wang, L. Y. Jan, and Y. N. Jan, Proc. Natl. Acad. Sci. USA 101:13341-13345, 2004). Here, we report the generation and analysis of Dasm-1 null mice. We find that genetic ablation of Dasm-1 does not interfere with hippocampal dendrite growth and branching in vitro and in vivo. Moreover, the absence of Dasm-1 does not affect the modulation of dendritic outgrowth induced by brain-derived neurotrophic factor. Importantly, the previously observed impairment in dendrite growth after Dasm-1 knockdown is also observed when the Dasm-1 knockdown is performed in cultured hippocampal neurons from Dasm-1 null mice. These findings indicate that the dendrite arborization phenotype was caused by off-target effects and that Dasm-1 is dispensable for hippocampal dendrite arborization.


Subject(s)
Dendrites/metabolism , Immunoglobulins/metabolism , Nerve Tissue Proteins/metabolism , Animals , Brain-Derived Neurotrophic Factor/pharmacology , Gene Expression Regulation , Hippocampus/abnormalities , Hippocampus/drug effects , Hippocampus/metabolism , Immunoglobulins/deficiency , Immunoglobulins/genetics , Mice , Mice, Knockout , Nerve Tissue Proteins/deficiency , Nerve Tissue Proteins/genetics , RNA Interference , Tissue Culture Techniques
3.
BMC Biotechnol ; 7: 92, 2007 Dec 20.
Article in English | MEDLINE | ID: mdl-18096031

ABSTRACT

BACKGROUND: GFP-fusion proteins and immunostaining are methods broadly applied to investigate the three-dimensional organization of cells and cell nuclei, the latter often studied in addition by fluorescence in situ hybridization (FISH). Direct comparisons of these detection methods are scarce, however. RESULTS: We provide a quantitative comparison of all three approaches. We make use of a cell line that contains a transgene array of lac operator repeats which are detected by GFP-lac repressor fusion proteins. Thus we can detect the same structure in individual cells by GFP fluorescence, by antibodies against GFP and by FISH with a probe against the transgene array. Anti-GFP antibody detection was repeated after FISH. Our results show that while all four signals obtained from a transgene array generally showed qualitative and quantitative similarity, they also differed in details. CONCLUSION: Each of the tested methods revealed particular strengths and weaknesses, which should be considered when interpreting respective experimental results. Despite the required denaturation step, FISH signals in structurally preserved cells show a surprising similarity to signals generated before denaturation.


Subject(s)
DNA/isolation & purification , Immunohistochemistry/methods , In Situ Hybridization, Fluorescence/methods , Recombinant Fusion Proteins , Animals , Cell Line, Tumor , Green Fluorescent Proteins/metabolism , Image Processing, Computer-Assisted , Mice , Repressor Proteins/metabolism
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