Teneurins, a transmembrane protein family involved in cell communication during neuronal development

Kenzelmann, D.; Chiquet‐Ehrismann, Ruth; Tucker, Richard P.

doi:10.1007/s00018-007-7108-9

Cited by 44 publications

(34 citation statements)

References 23 publications

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“…With respect to behavior, TCAP-1 is potent at inhibiting stress-induced behaviors in vertebrates as shown in elevated-plus maze (Al Chawaf et al, 2007b;Tan et al, 2008) open-field (Tan et al, 2008), acoustic startle response (Tan et al, 2008;Wang et al, 2005) and cocaine reinstatement studies (Erb et al, in press;Kupferschmidt et al, 2010). The evidence to date suggests that this mechanism is mediated by changes in synaptic plasticity as shown by changes in axon, neurite and dendritic modifications by TCAP-1 (Al Chawaf et al, 2007a;Chand et al, 2012a,b;Tan et al, , 2011a and is supported by a clear regulation of cytoskeletal elements in vertebrates (Chand et al, 2012a,b;2013a,b) and invertebrates Kenzelmann et al, 2007;Mosca et al, 2012;Zhang et al, 2012). However, other studies suggest that this may be only part of the explanation.…”

Section: Discussionmentioning

confidence: 89%

Characterization of the teneurin C-terminal associated peptide (TCAP) in the vase tunicate, Ciona intestinalis: A novel peptide system associated with energy metabolism and reproduction

Colacci¹,

Almeida²,

Chand³

et al. 2015

General and Comparative Endocrinology

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Section: Discussionmentioning

confidence: 89%

Characterization of the teneurin C-terminal associated peptide (TCAP) in the vase tunicate, Ciona intestinalis: A novel peptide system associated with energy metabolism and reproduction

Colacci¹,

Almeida²,

Chand³

et al. 2015

General and Comparative Endocrinology

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“…These included genes encoding immunoglobulin (Ig) (Fischbach et al, 2009 and Zipursky et al, 2006), leucine-rich repeat (LRR) (de Wit et al, 2011), and epidermal growth factor (EGF) domain-containing proteins (Kenzelmann et al, 2007 and Serafini et al, 1994), as well as many members of the large tetraspanin protein family (Fradkin et al, 2002 and Kopczynski et al, 1996) (Figures 3B and S3). …”

Section: Resultsmentioning

confidence: 99%

Ig Superfamily Ligand and Receptor Pairs Expressed in Synaptic Partners in Drosophila

Tan

Zhang

Pecot

et al. 2015

Cell

193

292

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Summary Information processing relies on precise patterns of synapses between neurons. The cellular recognition mechanisms regulating this specificity are poorly understood. In the medulla of the Drosophila visual system, different neurons form synaptic connections in different layers. Here, we sought to identify candidate cell recognition molecules underlying this specificity. Using RNA sequencing (RNA-seq), we show that neurons with different synaptic specificities express unique combinations of mRNAs encoding hundreds of cell surface and secreted proteins. Using RNA-seq and protein tagging, we demonstrate that 21 paralogs of the Dpr family, a subclass of immunoglobulin (Ig)-domain containing proteins, are expressed in unique combinations in homologous neurons with different layer-specific synaptic connections. Dpr interacting proteins (DIPs), comprising nine paralogs of another subclass of Ig-containing proteins, are expressed in a complementary layer-specific fashion in a subset of synaptic partners. We propose that pairs of Dpr/DIP paralogs contribute to layer-specific patterns of synaptic connectivity.

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“…Teneurins are type II integral membrane proteins that help to establish neuronal cell connections during development (30,31). Remarkably, some teneurins carry C-terminal sequences that resemble neuroendocrine signaling peptides (32). These sequences are adjacent to predicted furin cleavage sites, suggesting that the C-terminal peptides are released and transmit signals to neighboring cells.…”

Section: Discussionmentioning

confidence: 99%

Rhs proteins from diverse bacteria mediate intercellular competition

Koskiniemi¹,

Lamoureux²,

Nikolakakis³

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

371

437

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Rearrangement hotspot (Rhs) and related YD-peptide repeat proteins are widely distributed in bacteria and eukaryotes, but their functions are poorly understood. Here, we show that Gram-negative Rhs proteins and the distantly related wall-associated protein A (WapA) from Gram-positive bacteria mediate intercellular competition. Rhs and WapA carry polymorphic C-terminal toxin domains (Rhs-CT/WapA-CT), which are deployed to inhibit the growth of neighboring cells. These systems also encode sequence-diverse immunity proteins (RhsI/WapI) that specifically neutralize cognate toxins to protect rhs + /wapA + cells from autoinhibition. RhsA and RhsB from Dickeya dadantii 3937 carry nuclease domains that degrade target cell DNA. D. dadantii 3937 rhs genes do not encode secretion signal sequences but are linked to hemolysin-coregulated protein and valine-glycine repeat protein G genes from type VI secretion systems. Valine-glycine repeat protein G is required for inhibitor cell function, suggesting that Rhs may be exported from D. dadantii 3937 through a type VI secretion mechanism. In contrast, WapA proteins from Bacillus subtilis strains appear to be exported through the general secretory pathway and deliver a variety of tRNase toxins into neighboring target cells. These findings demonstrate that YD-repeat proteins from phylogenetically diverse bacteria share a common function in contact-dependent growth inhibition.

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Teneurins, a transmembrane protein family involved in cell communication during neuronal development

Cited by 44 publications

References 23 publications

Characterization of the teneurin C-terminal associated peptide (TCAP) in the vase tunicate, Ciona intestinalis: A novel peptide system associated with energy metabolism and reproduction

Characterization of the teneurin C-terminal associated peptide (TCAP) in the vase tunicate, Ciona intestinalis: A novel peptide system associated with energy metabolism and reproduction

Ig Superfamily Ligand and Receptor Pairs Expressed in Synaptic Partners in Drosophila

Rhs proteins from diverse bacteria mediate intercellular competition

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