558 results on '"Kullander, Klas"'
Search Results
52. Molecular Phylogeny and Evolution of the Neurotrophins from Monotremes and Marsupials
- Author
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Kullander, Klas, Carlson, Barbro, and Hallböök, Finn
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- 1997
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53. The evolutionary history and tissue mapping of GPR123: specific CNS expression pattern predominantly in thalamic nuclei and regions containing large pyramidal cells
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Lagerström, Malin C., Rabe, Nadine, Haitina, Tatjana, Kalnina, Ineta, Hellström, Anders R., Klovins, Janis, Kullander, Klas, and Schiöth, Helgi B.
- Published
- 2007
54. Chrna2-OLM interneurons display different membrane properties and h-current magnitude depending on dorsoventral location
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Hilscher, Markus M, Nogueira, Ingrid, Mikulovic, Sanja, Kullander, Klas, Leão, Richardson Naves, Leão, Katarina E., Hilscher, Markus M, Nogueira, Ingrid, Mikulovic, Sanja, Kullander, Klas, Leão, Richardson Naves, and Leão, Katarina E.
- Abstract
The hippocampus is an extended structure displaying heterogeneous anatomical cell layers along its dorsoventral axis. It is known that dorsal and ventral regions show different integrity when it comes to functionality, innervation, gene expression, and pyramidal cell properties. Still, whether hippocampal interneurons exhibit different properties along the dorsoventral axis is not known. Here, we report electrophysiological properties of dorsal and ventral oriens lacunosum moleculare (OLM) cells from coronal sections of the Chrna2-cre mouse line. We found dorsal OLM cells to exhibit a significantly more depolarized resting membrane potential compared to ventral OLM cells, while action potential properties were similar between the two groups. We found ventral OLM cells to show a higher initial firing frequency in response to depolarizing current injections but also to exhibit a higher spike-frequency adaptation than dorsal OLM cells. Additionally, dorsal OLM cells displayed large membrane sags in response to negative current injections correlating with our results showing that dorsal OLM cells have more hyperpolarization-activated current (I-h) compared to ventral OLM cells. Immunohistochemical examination indicates the h-current to correspond to hyperpolarization-activated cyclic nucleotide-gated subunit 2 (HCN2) channels. Computational studies suggest that I-h in OLM cells is essential for theta oscillations in hippocampal circuits, and here we found dorsal OLM cells to present a higher membrane resonance frequency than ventral OLM cells. Thus, our results highlight regional differences in membrane properties between dorsal and ventral OLM cells allowing this interneuron to differently participate in the generation of hippocampal theta rhythms depending on spatial location along the dorsoventral axis of the hippocampus.
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- 2019
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55. The polyamine transporter Slc18b1(VPAT) is important for both short and long time memory and for regulation of polyamine content in the brain.
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Fredriksson, Robert, Sreedharan, Smitha, Nordenankar, Karin, Alsiö, Johan, Lindberg, Frida A., Hutchinson, Ashley, Eriksson, Anders, Roshanbin, Sahar, Ciuculete, Diana M, Klockars, Anica, Todkar, Aniruddha, Hägglund, Maria G, Hellsten, Sofie V, Hindlycke, Viktoria, Västermark, Åke, Shevchenko, Ganna, Olivo, Gaia, K, Cheng, Kullander, Klas, Moazzami, Ali, Bergquist, Jonas, Olszewski, Pawel K., Schiöth, Helgi B., Fredriksson, Robert, Sreedharan, Smitha, Nordenankar, Karin, Alsiö, Johan, Lindberg, Frida A., Hutchinson, Ashley, Eriksson, Anders, Roshanbin, Sahar, Ciuculete, Diana M, Klockars, Anica, Todkar, Aniruddha, Hägglund, Maria G, Hellsten, Sofie V, Hindlycke, Viktoria, Västermark, Åke, Shevchenko, Ganna, Olivo, Gaia, K, Cheng, Kullander, Klas, Moazzami, Ali, Bergquist, Jonas, Olszewski, Pawel K., and Schiöth, Helgi B.
- Abstract
SLC18B1 is a sister gene to the vesicular monoamine and acetylcholine transporters, and the only known polyamine transporter, with unknown physiological role. We reveal that Slc18b1 knock out mice has significantly reduced polyamine content in the brain providing the first evidence that Slc18b1 is functionally required for regulating polyamine levels. We found that this mouse has impaired short and long term memory in novel object recognition, radial arm maze and self-administration paradigms. We also show that Slc18b1 KO mice have altered expression of genes involved in Long Term Potentiation, plasticity, calcium signalling and synaptic functions and that expression of components of GABA and glutamate signalling are changed. We further observe a partial resistance to diazepam, manifested as significantly lowered reduction in locomotion after diazepam treatment. We suggest that removal of Slc18b1 leads to reduction of polyamine contents in neurons, resulting in reduced GABA signalling due to long-term reduction in glutamatergic signalling.
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- 2019
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56. Characterization of Dmrt3-Derived Neurons Suggest a Role within Locomotor Circuits
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Perry, Sharn, Larhammar, Martin, Vieillard, Jennifer, Nagaraja, Chetan, Hilscher, Markus M, Tafreshiha, Atieh, Rofo, Fadi, Caixeta, Fabio V., Kullander, Klas, Perry, Sharn, Larhammar, Martin, Vieillard, Jennifer, Nagaraja, Chetan, Hilscher, Markus M, Tafreshiha, Atieh, Rofo, Fadi, Caixeta, Fabio V., and Kullander, Klas
- Abstract
Neuronal networks within the spinal cord, collectively known as the central pattern generator (CPG), coordinate rhythmic movements underlying locomotion. The transcription factor doublesex and mab-3-related transcription factor 3 (DMRT3) is involved in the differentiation of the dorsal interneuron 6 class of spinal cord interneurons. In horses, a non-sense mutation in the Dmrt3 gene has major effects on gaiting ability, whereas mice lacking the Dmrt3 gene display impaired locomotor activity. Although the Dmrt3 gene is necessary for normal spinal network formation and function in mice, a direct role for Dmrt3-derived neurons in locomotor-related activities has not been demonstrated. Here we present the characteristics of the Dmrt3-derived spinal cord interneurons. Using transgenic mice of both sexes, we characterized interneurons labeled by their expression of Cre driven by the endogenous Dmrt3 promoter. We used molecular, retrograde tracing and electrophysiological techniques to examine the anatomical, morphological, and electrical properties of the Dmrt3-Cre neurons. We demonstrate that inhibitory Dmrt3-Cre neurons receive extensive synaptic inputs, innervate surrounding CPG neurons, intrinsically regulate CPG neuron's electrical activity, and are rhythmically active during fictive locomotion, bursting at frequencies independent to the ventral root output. The present study provides novel insights on the character of spinal Dmrt3-derived neurons, data demonstrating that these neurons participate in locomotor coordination.
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- 2019
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57. Chrna2‐OLM interneurons display different membrane properties and h‐current magnitude depending on dorsoventral location
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Hilscher, Markus M., primary, Nogueira, Ingrid, additional, Mikulovic, Sanja, additional, Kullander, Klas, additional, Leão, Richardson N., additional, and Leão, Katarina E., additional
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- 2019
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58. Retinoid-Related Orphan Nuclear Receptor RORB is Required for Saltatorial Locomotion in Rabbits
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Carneiro, Miguel, primary, Vieillard, Jennifer, additional, Andrade, Pedro, additional, Boucher, Samuel, additional, Afonso, Sandra, additional, Blanco-Aguiar, José A., additional, Santos, Nuno, additional, Branco, João, additional, Esteves, Pedro J., additional, Ferrand, Nuno, additional, Kullander, Klas, additional, and Andersson, Leif, additional
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- 2019
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59. Characterization of Dmrt3-Derived Neurons Suggest a Role within Locomotor Circuits
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Perry, Sharn, primary, Larhammar, Martin, additional, Vieillard, Jennifer, additional, Nagaraja, Chetan, additional, Hilscher, Markus M., additional, Tafreshiha, Atieh, additional, Rofo, Fadi, additional, Caixeta, Fabio V., additional, and Kullander, Klas, additional
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- 2018
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60. Origin and circuitry of spinal locomotor interneurons generating different speeds
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Boije, Henrik, primary and Kullander, Klas, additional
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- 2018
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61. Nociceptor-expressed ephrin-B2 regulates inflammatory and neuropathic pain
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Kullander Klas, Lagerström Malin C, Nassar Mohammed A, Cendan Cruz M, Yuan Guanglu, Zhao Jing, Gavazzi Isabella, and Wood John N
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Pathology ,RB1-214 - Abstract
Abstract Background EphB receptors and their ephrin-B ligands play an important role in nervous system development, as well as synapse formation and plasticity in the adult brain. Recent studies show that intrathecal treatment with EphB-receptor activator ephrinB2-Fc induced thermal hyperalgesia and mechanical allodynia in rat, indicating that ephrin-B2 in small dorsal root ganglia (DRG) neurons and EphB receptors in the spinal cord modulate pain processing. To examine the role of ephrin-B2 in peripheral pain pathways, we deleted ephrin-B2 in Nav1.8+ nociceptive sensory neurons with the Cre-loxP system. Sensory neuron numbers and terminals were examined using neuronal makers. Pain behavior in acute, inflammatory and neuropathic pain models was assessed in the ephrin-B2 conditional knockout (CKO) mice. We also investigated the c-Fos expression and NMDA receptor NR2B phosphorylation in ephrin-B2 CKO mice and littermate controls. Results The ephrin-B2 CKO mice were healthy with no sensory neuron loss. However, pain-related behavior was substantially altered. Although acute pain behavior and motor co-ordination were normal, inflammatory pain was attenuated in ephrin-B2 mutant mice. Complete Freund's adjuvant (CFA)-induced mechanical hyperalgesia was halved. Formalin-induced pain behavior was attenuated in the second phase, and this correlated with diminished tyrosine phosphorylation of N-methyl-D-aspartic acid (NMDA) receptor subunit NR2B in the dorsal horn. Thermal hyperalgesia and mechanical allodynia were significantly reduced in the Seltzer model of neuropathic pain. Conclusions Presynaptic ephrin-B2 expression thus plays an important role in regulating inflammatory pain through the regulation of synaptic plasticity in the dorsal horn and is also involved in the pathogenesis of some types of neuropathic pain.
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- 2010
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62. Female-biased expression of long non-coding RNAs in domains that escape X-inactivation in mouse
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Lu Lu, Rosen Glenn D, Radomska Katarzyna J, Sandhu Kuljeet, Hengshuo Liu, Shi Chengxi, Reinius Björn, Kullander Klas, Williams Robert W, and Jazin Elena
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Biotechnology ,TP248.13-248.65 ,Genetics ,QH426-470 - Abstract
Abstract Background Sexual dimorphism in brain gene expression has been recognized in several animal species. However, the relevant regulatory mechanisms remain poorly understood. To investigate whether sex-biased gene expression in mammalian brain is globally regulated or locally regulated in diverse brain structures, and to study the genomic organisation of brain-expressed sex-biased genes, we performed a large scale gene expression analysis of distinct brain regions in adult male and female mice. Results This study revealed spatial specificity in sex-biased transcription in the mouse brain, and identified 173 sex-biased genes in the striatum; 19 in the neocortex; 12 in the hippocampus and 31 in the eye. Genes located on sex chromosomes were consistently over-represented in all brain regions. Analysis on a subset of genes with sex-bias in more than one tissue revealed Y-encoded male-biased transcripts and X-encoded female-biased transcripts known to escape X-inactivation. In addition, we identified novel coding and non-coding X-linked genes with female-biased expression in multiple tissues. Interestingly, the chromosomal positions of all of the female-biased non-coding genes are in close proximity to protein-coding genes that escape X-inactivation. This defines X-chromosome domains each of which contains a coding and a non-coding female-biased gene. Lack of repressive chromatin marks in non-coding transcribed loci supports the possibility that they escape X-inactivation. Moreover, RNA-DNA combined FISH experiments confirmed the biallelic expression of one such novel domain. Conclusion This study demonstrated that the amount of genes with sex-biased expression varies between individual brain regions in mouse. The sex-biased genes identified are localized on many chromosomes. At the same time, sexually dimorphic gene expression that is common to several parts of the brain is mostly restricted to the sex chromosomes. Moreover, the study uncovered multiple female-biased non-coding genes that are non-randomly co-localized on the X-chromosome with protein-coding genes that escape X-inactivation. This raises the possibility that expression of long non-coding RNAs may play a role in modulating gene expression in domains that escape X-inactivation in mouse.
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- 2010
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63. Engineering cells to secrete growth factors
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Ebendal, Ted, Lönnerberg, Peter, Pei, Geng, Kylberg, Annika, Kullander, Klas, Persson, Håkan, and Olson, Lars
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- 1994
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64. Design, synthesis, tandem mass spectrometric sequencing and biological activity of NGF mimetics
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ESTENNE-BOUHTOU, GENEVIÈVE, KULLANDER, KLAS, KARLSSON, MAGNUS, EBENDAL, TED, HACKSELL, ULI, and LUTHMAN, KRISTINA
- Published
- 1996
65. Neuron-specific inactivation of Wt1 alters locomotion in mice and changes interneuron composition in the spinal cord
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Schnerwitzki, Danny, Perry, Sharn, Ivanova, Anna, Caixeta, Fabio V., Cramer, Paul, Guenther, Sven, Weber, Kathrin, Tafreshiha, Atieh, Becker, Lore, Panesso, Ingrid L. Vargas, Klopstock, Thomas, de Angelis, Martin Hrabe, Schmidt, Manuela, Kullander, Klas, Englert, Christoph, Schnerwitzki, Danny, Perry, Sharn, Ivanova, Anna, Caixeta, Fabio V., Cramer, Paul, Guenther, Sven, Weber, Kathrin, Tafreshiha, Atieh, Becker, Lore, Panesso, Ingrid L. Vargas, Klopstock, Thomas, de Angelis, Martin Hrabe, Schmidt, Manuela, Kullander, Klas, and Englert, Christoph
- Abstract
Locomotion is coordinated by neuronal circuits of the spinal cord. Recently, dI6 neurons were shown to participate in the control of locomotion. A subpopulation of dI6 neurons expresses the Wilms tumor suppressor gene Wt1. However, the function of Wt1 in these cells is not understood. Here, we aimed to identify behavioral changes and cellular alterations in the spinal cord associated with Wt1 deletion. Locomotion analyses of mice with neuron-specific Wt1 deletion revealed a slower walk with a decreased stride frequency and an increased stride length. These mice showed changes in their fore-/hindlimb coordination, which were accompanied by a loss of contralateral projections in the spinal cord. Neonates with Wt1 deletion displayed an increase in uncoordinated hindlimb movements and their motor neuron output was arrhythmic with a decreased frequency. The population size of dI6, V0, and V2a neurons in the developing spinal cord of conditional Wt1 mutants was significantly altered. These results show that the development of particular dI6 neurons depends on Wt1 expression and that loss of Wt1 is associated with alterations in locomotion.
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- 2018
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66. OLM alpha 2 Cells Bidirectionally Modulate Learning
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Siwani, Samer, Franca, Arthur S. C., Mikulovic, Sanja, Reis, Amilcar, Hilscher, Markus M, Edwards, Steven J., Leão, Richardson N, Tort, Adriano B. L., Kullander, Klas, Siwani, Samer, Franca, Arthur S. C., Mikulovic, Sanja, Reis, Amilcar, Hilscher, Markus M, Edwards, Steven J., Leão, Richardson N, Tort, Adriano B. L., and Kullander, Klas
- Abstract
Inhibitory interneurons participate in mnemonic processes. However, defined roles for identified interneuron populations are scarce. A subpopulation of oriens lacunosum-moleculare (OLM) interneurons genetically defined by the expression of the nicotinic receptor alpha 2 subunit has been shown to gate information carried by either the temporoammonic pathway or Schaffer collaterals in vitro. Here we set out to determine whether selective modulation of OLM alpha 2 cells in the intermediate CA1 affects learning and memory in vivo. Our data show that intermediate OLM alpha 2 cells can either enhance (upon their inhibition) or impair (upon their activation) object memory encoding in freely moving mice, thus exerting bidirectional control. Moreover, we find that OLM alpha 2 cell activation inhibits fear-related memories and that OLM alpha 2 cells respond differently to nicotine in the dorsoventral axis. These results suggest that intermediate OLM alpha 2 cells are an important component in the CA1 microcircuit regulating learning and memory processes.
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- 2018
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67. Origin and circuitry of spinal locomotor interneurons generating different speeds.
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Boije, Henrik, Kullander, Klas, Boije, Henrik, and Kullander, Klas
- Abstract
The spinal circuitry governing the undulatory movements of swimming vertebrates consist of excitatory and commissural inhibitory interneurons and motor neurons. This locomotor network generates the rhythmic output, coordinate left/right alternation, and permit communication across segments. Through evolution, more complex movement patterns have emerged, made possible by sub-specialization of neural populations within the spinal cord. Walking tetrapods use a similar basic circuitry, but have added layers of complexity for the coordination of intralimbic flexor and extensor muscles as well as interlimbic coordination between the body halves and fore/hindlimbs. Although the basics of these circuits are known there is a gap in our knowledge regarding how different speeds and gaits are coordinated. Analysing subpopulations among described neuronal populations may bring insight into how changes in locomotor output are orchestrated by a hard-wired network.
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- 2018
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68. The MINDVIEW project : First results
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Benlloch, Jose M., Gonzalez, Antonio J., Pani, Roberto, Preziosi, Enrico, Jackson, Carl, Murphy, John, Barbera, Julio, Correcher, Carlos, Aussenhofer, Sebastian, Gareis, Daniel, Visvikis, Dimitris, Bert, Julien, Langstrom, Bengt, Farde, Lars, Toth, Miklos, Haggkvist, Jenny, Caixeta, Fabio Viegas, Kullander, Klas, Somlai-Schweiger, Ian, Schwaiger, Markus, Benlloch, Jose M., Gonzalez, Antonio J., Pani, Roberto, Preziosi, Enrico, Jackson, Carl, Murphy, John, Barbera, Julio, Correcher, Carlos, Aussenhofer, Sebastian, Gareis, Daniel, Visvikis, Dimitris, Bert, Julien, Langstrom, Bengt, Farde, Lars, Toth, Miklos, Haggkvist, Jenny, Caixeta, Fabio Viegas, Kullander, Klas, Somlai-Schweiger, Ian, and Schwaiger, Markus
- Abstract
We present the first results of the MINDVIEW project. An innovative imaging system for the human brain examination, allowing simultaneous acquisition of PET/MRI images, has been designed and constructed. It consists of a high sensitivity and high resolution PET scanner integrated in a novel, head-dedicated, radio frequency coil for a 3T MRI scanner. Preliminary measurements from the PET scanner show sensitivity 3 times higher than state-of-the-art PET systems that will allow safe repeated studies on the same patient. The achieved spatial resolution, close to 1 mm, will enable differentiation of relevant brain structures for schizophrenia. A cost-effective and simple method of radiopharmaceutical production from 11C-carbon monoxide and a mini-clean room has been demonstrated. It has been shown that 11C-raclopride has higher binding potential in a new VAAT null mutant mouse model of schizophrenia compared to wild type control animals. A significant reduction in TSPO binding has been found in gray matter in a small sample of drug-naïve, first episode psychosis patients, suggesting a reduced number or an altered function of immune cells in brain at early stage schizophrenia.
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- 2018
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69. Developmental disruption of recurrent inhibitory feedback results in compensatory adaptation in the Renshaw cell - motor neuron circuit
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Enjin, Anders, Perry, Sharn, Hilscher, Markus M, Nagaraja, Chetan, Larhammar, Martin, Gezelius, Henrik, Eriksson, Anders, Leão, Emelie Katarina Svahn, and Kullander, Klas
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Nicotinic acetylcholine receptor alpha2 ,Spinal cord ,ChAT ,Interneurons ,VIAAT ,VGAT ,mouse - Abstract
When activating muscles, motor neurons in the spinal cord also activate Renshaw cells, which provide recurrent inhibitory feedback to the motor neurons. The tight coupling with motor neurons suggests that Renshaw cells have an integral role in movement, a role that is yet to be elucidated. Here we used the selective expression of the nicotinic cholinergic receptor alpha 2 (Chrna2) in mice to genetically target the vesicular inhibitory amino acid transporter (VIAAT) in Renshaw cells. Loss of VIAAT from Chrna2Cre expressing Renshaw cells did not impact any aspect of drug-induced fictive locomotion in the neonatal mouse, nor did it change gait, motor coordination or grip strength in adult mice of both sexes. However, motor neurons from neonatal mice lacking VIAAT in Renshaw cells received spontaneous inhibitory synaptic input with a reduced frequency, showed lower input resistance and had an increased number of proprioceptive glutamatergic and calbindin labeled putative Renshaw cell synapses on their soma and proximal dendrites. Concomitantly, Renshaw cells developed with increased excitability and a normal number of cholinergic motor neuron synapses indicating a compensatory mechanism within the recurrent inhibitory feedback circuit. Our data suggest an integral role for Renshaw cell signaling in shaping the excitability and synaptic input to motor neurons. Enjin A, Perry S, Hilscher MM, Nagaraja C, Larhammar M, Gezelius H, Eriksson A, Leão KE, Kullander K (2017) Developmental disruption of recurrent inhibitory feedback results in compensatory adaptation in the Renshaw cell - motor neuron circuit. J Neurosci. May 8. pii: 0949-16. doi: 10.1523/JNEUROSCI.0949-16.2017.
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- 2017
70. SLC10A4 regulates IgE-mediated mast cell degranulation in vitro and mast cell-mediated reactions in vivo
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Pettersson, Hanna, Zarnegar, Behdad, Westin, Annika, Persson, Viktor, Peuckert, Christiane, Jonsson, Jörgen, Hallgren, Jenny, and Kullander, Klas
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Mice, Knockout ,Symporters ,Science ,Passive Cutaneous Anaphylaxis ,Vesicular Transport Proteins ,Immunology in the medical area ,Nerve Tissue Proteins ,Immunoglobulin E ,Article ,Cell Degranulation ,Mice ,Immunologi inom det medicinska området ,Medicine ,Animals ,Immunologic Factors ,Mast Cells - Abstract
Mast cells act as sensors in innate immunity and as effector cells in adaptive immune reactions. Here we demonstrate that SLC10A4, also referred to as the vesicular aminergic-associated transporter, VAAT, modifies mast cell degranulation. Strikingly, Slc10a4 −/− bone marrow-derived mast cells (BMMCs) had a significant reduction in the release of granule-associated mediators in response to IgE/antigen-mediated activation, whereas the in vitro development of mast cells, the storage of the granule-associated enzyme mouse mast cell protease 6 (mMCP-6), and the release of prostaglandin D2 and IL-6 were normal. Slc10a4-deficient mice had a strongly reduced passive cutaneous anaphylaxis reaction and a less intense itching behaviour in response to the mast cell degranulator 48/80. Live imaging of the IgE/antigen-mediated activation showed decreased degranulation and that ATP was retained to a higher degree in mast cell granules lacking SLC10A4. Furthermore, ATP was reduced by two thirds in Slc10a4 −/− BMMCs supernatants in response to IgE/antigen. We speculate that SLC10A4 affects the amount of granule-associated ATP upon IgE/antigen-induced mast cell activation, which affect the release of granule-associated mast cell mediators. In summary, SLC10A4 acts as a regulator of degranulation in vitro and of mast cell-related reactions in vivo.
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- 2017
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71. EphA4 Is Required for Neural Circuits Controlling Skilled Reaching.
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Juan Jiang, Kullander, Klas, and Alstermark, Bror
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NEURAL circuitry , *EFFERENT pathways , *MOTOR neurons , *PYRAMIDAL tract , *FORELIMB - Abstract
Skilled forelimb movements are initiated by feedforward motor commands conveyed by supraspinal motor pathways. The accuracy of reaching and grasping relies on internal feedback pathways that update ongoing motor commands. In mice lacking the axon guidance molecule EphA4, axonal misrouting of the corticospinal tract and spinal interneurons is manifested, leading to a hopping gait in hindlimbs. Moreover, mice with a conditional forebrain deletion of EphA4, display forelimb hopping in adaptive locomotion and exploratory reaching movements. However, it remains unclear how loss of EphA4 signaling disrupts function of forelimb motor circuit and skilled reaching and grasping movements. Here we investigated how neural circuits controlling skilled reaching were affected by the loss of EphA4. Both male and female C57BL/6 wild-type, heterozygous EphA4+/-, and homozygous EphA4-/- mice were used in behavioral and in vivo electrophysiological investigations. We found that EphA4 knock-out (-/-) mice displayed impaired goal-directed reaching movements. In vivo intracellular recordings from forelimb motor neurons demonstrated increased corticoreticulospinal excitation, decreased direct reticulospinal excitation, and reduced direct propriospinal excitation in EphA4 knock-out mice. Cerebellar surface recordings showed a functional perturbation of the lateral reticular nucleus-cerebellum internal feedback pathway in EphA4 knock-out mice. Together, our findings provide in vivo evidence at the circuit level that loss of EphA4 disrupts the function of both feedforward and feedback motor pathways, resulting in deficits in skilled reaching. [ABSTRACT FROM AUTHOR]
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- 2020
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72. Neuron-specific inactivation ofWt1alters locomotion in mice and changes interneuron composition in the spinal cord
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Schnerwitzki, Danny, primary, Perry, Sharn, additional, Ivanova, Anna, additional, Caixeta, Fabio V, additional, Cramer, Paul, additional, Günther, Sven, additional, Weber, Kathrin, additional, Tafreshiha, Atieh, additional, Becker, Lore, additional, Vargas Panesso, Ingrid L, additional, Klopstock, Thomas, additional, Hrabe de Angelis, Martin, additional, Schmidt, Manuela, additional, Kullander, Klas, additional, and Englert, Christoph, additional
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- 2018
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73. OLMα2 Cells Bidirectionally Modulate Learning
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Siwani, Samer, primary, França, Arthur S.C., additional, Mikulovic, Sanja, additional, Reis, Amilcar, additional, Hilscher, Markus M., additional, Edwards, Steven J., additional, Leão, Richardson N., additional, Tort, Adriano B.L., additional, and Kullander, Klas, additional
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- 2018
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74. The MINDVIEW project: First results
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Benlloch, José M., primary, González, Antonio J., additional, Pani, Roberto, additional, Preziosi, Enrico, additional, Jackson, Carl, additional, Murphy, John, additional, Barberá, Julio, additional, Correcher, Carlos, additional, Aussenhofer, Sebastian, additional, Gareis, Daniel, additional, Visvikis, Dimitris, additional, Bert, Julien, additional, Langstrom, Bengt, additional, Farde, Lars, additional, Toth, Miklos, additional, Haggkvist, Jenny, additional, Caixeta, Fabio V., additional, Kullander, Klas, additional, Somlai-Schweiger, Ian, additional, and Schwaiger, Markus, additional
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- 2018
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75. Loss of Wt1 in the murine spinal cord alters interneuron composition and locomotion
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Schnerwitzki, Danny, primary, Perry, Sharn, additional, Ivanova, Anna, additional, Caixeta, Fabio Viegas, additional, Cramer, Paul, additional, Günther, Sven, additional, Weber, Kathrin, additional, Tafreshiha, Atieh, additional, Becker, Lore, additional, Vargas Panesso, Ingrid L., additional, Klopstock, Thomas, additional, de Angelis, Martin Hrabe, additional, Schmidt, Manuela, additional, Kullander, Klas, additional, and Englert, Christoph, additional
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- 2017
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76. Differential neuroprotective effects of interleukin-1 receptor antagonist on spinal cord neurons after excitotoxic injury
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Schizas, Nikos, Perry, Sharn, Andersson, Brittmarie, Wählby, Carolina, Kullander, Klas, Hailer, Nils, Schizas, Nikos, Perry, Sharn, Andersson, Brittmarie, Wählby, Carolina, Kullander, Klas, and Hailer, Nils
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- 2017
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77. Chrna2-Martinotti Cells Synchronize Layer 5 Type A Pyramidal Cells via Rebound Excitation
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Hilscher, Markus M., Leão, Richardson N., Edwards, Steven J., Leão, Katarina E., Kullander, Klas, Hilscher, Markus M., Leão, Richardson N., Edwards, Steven J., Leão, Katarina E., and Kullander, Klas
- Abstract
Martinotti cells are the most prominent distal dendrite-targeting interneurons in the cortex, but their role in controlling pyramidal cell ( PC) activity is largely unknown. Here, we show that the nicotinic acetylcholine receptor alpha 2 subunit (Chrna2) specifically marks layer 5 (L5) Martinotti cells projecting to layer 1. Furthermore, we confirm that Chrna2-expressing Martinotti cells selectively target L5 thick-tufted type A PCs but not thin-tufted type B PCs. Using optogenetic activation and inhibition, we demonstrate how Chrna2-Martinotti cells robustly reset and synchronize type A PCs via slow rhythmic burst activity and rebound excitation. Moreover, using optical feedback inhibition, in which PC spikes controlled the firing of surrounding Chrna2-Martinotti cells, we found that neighboring PC spike trains became synchronized by Martinotti cell inhibition. Together, our results show that L5 Martinotti cells participate in defined cortical circuits and can synchronize PCs in a frequency-dependent manner. These findings suggest that Martinotti cells are pivotal for coordinated PC activity, which is involved in cortical information processing and cognitive control.
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- 2017
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78. Developmental Disruption of Recurrent Inhibitory Feedback Results in Compensatory Adaptation in the Renshaw Cell–Motor Neuron Circuit
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Enjin, Anders, primary, Perry, Sharn, additional, Hilscher, Markus M., additional, Nagaraja, Chetan, additional, Larhammar, Martin, additional, Gezelius, Henrik, additional, Eriksson, Anders, additional, Leão, Katarina E., additional, and Kullander, Klas, additional
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- 2017
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79. Chrna2-Martinotti Cells Synchronize Layer 5 Type A Pyramidal Cells via Rebound Excitation
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Hilscher, Markus M., primary, Leão, Richardson N., additional, Edwards, Steven J., additional, Leão, Katarina E., additional, and Kullander, Klas, additional
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- 2017
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80. Differential Neuroprotective Effects of Interleukin-1 Receptor Antagonist on Spinal Cord Neurons after Excitotoxic Injury
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Schizas, Nikos, primary, Perry, Sharn, additional, Andersson, Brittmarie, additional, Wählby, Carolina, additional, Kullander, Klas, additional, and Hailer, Nils P., additional
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- 2017
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81. Identification of a Neuronal Receptor Controlling Anaphylaxis
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Rogoz, Katarzyna, Aresh, Bejan, Freitag, Fabio Batista, Pettersson, Hanna, Magnúsdóttir, Elín Ingibjörg, Larsson Ingwall, Linn, Haddadi Andersen, Helena, Franck, Marina Christina Mikaela, Nagaraja, Chetan, Kullander, Klas, Lagerström, Malin Charlotta, Rogoz, Katarzyna, Aresh, Bejan, Freitag, Fabio Batista, Pettersson, Hanna, Magnúsdóttir, Elín Ingibjörg, Larsson Ingwall, Linn, Haddadi Andersen, Helena, Franck, Marina Christina Mikaela, Nagaraja, Chetan, Kullander, Klas, and Lagerström, Malin Charlotta
- Abstract
Allergic reactions can in severe cases induce a state of circulatory shock referred to as anaphylaxis. Histamine, the primary mediator of this condition, is released from immune cells, and, therefore, anaphylaxis has so far been considered an immune system disorder. However, we here show that the glutamatergic receptor mGluR7, expressed on a subpopulation of both peripheral and spinal cord neurons, controls histamine-induced communication through calcium-dependent autoinhibition with implications for anaphylaxis. Genetic ablation of mGluR7, and thus altered regulation of histamine-sensing neurons, caused an anaphylaxis-like state in mGluR7(-/-) mice, which could be reversed by antagonizing signaling between neurons and mast cells but not by antagonizing a central itch pathway. Our findings demonstrate the vital role of nervous system control by mGluR7 in anaphylaxis and open up possibilities for preventive strategies for this life-threatening condition.
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- 2016
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82. On the photovoltaic effect in localfield potential recordings
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Mikulovic, Sanja, Pupe, Stéfano, Peixoto, Helotn Maia, Do Nascimiento, George, Kullander, Klas, Tort, Adriano, Leao, Richardson, Mikulovic, Sanja, Pupe, Stéfano, Peixoto, Helotn Maia, Do Nascimiento, George, Kullander, Klas, Tort, Adriano, and Leao, Richardson
- Abstract
ptogenetics allows light activation of genetically defined cell populations and the study of their link to specific brain functions. While it is a powerful method that has revolutionized neuroscience in the last decade, the shortcomings of directly stimulating electrodes and living tissue with light have been poorly characterized. Here, we assessed the photovoltaic effects in local field potential (LFP) recordings of the mouse hippocampus. We found that light leads to several artifacts that resemble genuine LFP features in animals with no opsin expression, such as stereotyped peaks at the power spectrum, phase shifts across different recording channels, coupling between low and high oscillation frequencies, and sharp signal deflections that are detected as spikes. Further, we tested how light stimulation affected hippocampal LFP recordings in mice expressing channelrhodopsin 2 in parvalbumin neurons (PV/ChR2 mice). Genuine oscillatory activity at the frequency of light stimulation could not be separated from light-induced artifacts. In addition, light stimulation in PV/ChR2 mice led to an overall decrease in LFP power. Thus, genuine LFP changes caused by the stimulation of specific cell populations may be intermingled with spurious changes caused by photovoltaic effects. Our data suggest that care should be taken in the interpretation of electrophysiology experiments involving light stimulation.
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- 2016
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83. Multimodal Eph/Ephrin signaling controls several phases of urogenital development
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Peuckert, Christiane, Aresh, Bejan, Holenya, Pavol, Adams, Derek, Sreedharan, Smitha, Porthin, Annika, Andersson, Louise, Pettersson, Hanna, Wölfl, Stefan, Klein, Rüdiger, Oxburgh, Leif, Kullander, Klas, Peuckert, Christiane, Aresh, Bejan, Holenya, Pavol, Adams, Derek, Sreedharan, Smitha, Porthin, Annika, Andersson, Louise, Pettersson, Hanna, Wölfl, Stefan, Klein, Rüdiger, Oxburgh, Leif, and Kullander, Klas
- Abstract
A substantial portion of the human population is affected by urogenital birth defects resulting from a failure in ureter development. Although recent research suggests roles for several genes in facilitating the ureter/bladder connection, the underlying molecular mechanisms remain poorly understood. Signaling via Eph receptor tyrosine kinases is involved in several developmental processes. Here we report that impaired Eph/Ephrin signaling in genetically modified mice results in severe hydronephrosis caused by defective ureteric bud induction, ureter maturation, and translocation. Our data imply that ureter translocation requires apoptosis in the urogenital sinus and inhibition of proliferation in the common nephric duct. These processes were disturbed in EphA4/EphB2 compound knockout mice and were accompanied by decreased ERK-2 phosphorylation. Using a set of Eph, Ephrin, and signaling-deficient mutants, we found that during urogenital development, different modes of Eph/Ephrin signaling occur at several sites with EphrinB2 and EphrinA5 acting in concert. Thus, Eph/Ephrin signaling should be considered in the etiology of congenital kidney and urinary tract anomalies.
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- 2016
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84. Multimodal Eph/Ephrin signaling controls several phases of urogenital development
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Peuckert, Christiane, primary, Aresh, Bejan, additional, Holenya, Pavlo, additional, Adams, Derek, additional, Sreedharan, Smitha, additional, Porthin, Annika, additional, Andersson, Louise, additional, Pettersson, Hanna, additional, Wölfl, Stefan, additional, Klein, Rüdiger, additional, Oxburgh, Leif, additional, and Kullander, Klas, additional
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- 2016
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85. On the photovoltaic effect in local field potential recordings
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Mikulovic, Sanja, primary, Pupe, Stefano, additional, Peixoto, Helton Maia, additional, Do Nascimento, George C., additional, Kullander, Klas, additional, Tort, Adriano B. L., additional, and Leão, Richardson N., additional
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- 2016
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86. Identification of a Neuronal Receptor Controlling Anaphylaxis
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Rogoz, Katarzyna, primary, Aresh, Bejan, additional, Freitag, Fabio Batista, additional, Pettersson, Hanna, additional, Magnúsdóttir, Elín Ingibjörg, additional, Larsson Ingwall, Linn, additional, Haddadi Andersen, Helena, additional, Franck, Marina Christina Mikaela, additional, Nagaraja, Chetan, additional, Kullander, Klas, additional, and Lagerström, Malin Charlotta, additional
- Published
- 2016
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87. SLC10A4 Is a Vesicular Amine-Associated Transporter Modulating Dopamine Homeostasis
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Larhammar, Martin, Patra, Kalicharan, Blunder, Martina, Emilsson, Lina, Peuckert, Christiane, Arvidsson, Emma, Rönnlund, Daniel, Preobraschenski, Julia, Birgner, Carolina, Limbach, Christoph, Widengren, Jerker, Blom, Hans, Jahn, Reinhard, Wallén-Mackenzie, Åsa, Kullander, Klas, Larhammar, Martin, Patra, Kalicharan, Blunder, Martina, Emilsson, Lina, Peuckert, Christiane, Arvidsson, Emma, Rönnlund, Daniel, Preobraschenski, Julia, Birgner, Carolina, Limbach, Christoph, Widengren, Jerker, Blom, Hans, Jahn, Reinhard, Wallén-Mackenzie, Åsa, and Kullander, Klas
- Abstract
Background The neuromodulatory transmitters, biogenic amines, have profound effects on multiple neurons and are essential for normal behavior and mental health. Here we report that the orphan transporter SLC10A4, which in the brain is exclusively expressed in presynaptic vesicles of monoaminergic and cholinergic neurons, has a regulatory role in dopamine homeostasis. Methods We used a combination of molecular and behavioral analyses, pharmacology, and in vivo amperometry to assess the role of SLC10A4 in dopamine-regulated behaviors. Results We show that SLC10A4 is localized on the same synaptic vesicles as either vesicular acetylcholine transporter or vesicular monoamine transporter 2. We did not find evidence for direct transport of dopamine by SLC10A4; however, synaptic vesicle preparations lacking SLC10A4 showed decreased dopamine vesicular uptake efficiency. Furthermore, we observed an increased acidification in synaptic vesicles isolated from mice overexpressing SLC10A4. Loss of SLC10A4 in mice resulted in reduced striatal serotonin, noradrenaline, and dopamine concentrations and a significantly higher dopamine turnover ratio. Absence of SLC10A4 led to slower dopamine clearance rates in vivo, which resulted in accumulation of extracellular dopamine. Finally, whereas SLC10A4 null mutant mice were slightly hypoactive, they displayed hypersensitivity to administration of amphetamine and tranylcypromine. Conclusions Our results demonstrate that SLC10A4 is a vesicular monoaminergic and cholinergic associated transporter that is important for dopamine homeostasis and neuromodulation in vivo. The discovery of SLC10A4 and its role in dopaminergic signaling reveals a novel mechanism for neuromodulation and represents an unexplored target for the treatment of neurological and mental disorders.
- Published
- 2015
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88. Novel markers for OLM interneurons in the hippocampus
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Mikulovic, Sanja, Restrepo, Ernesto C., Hilscher, Markus M., Kullander, Klas, Leao, Richardson N., Mikulovic, Sanja, Restrepo, Ernesto C., Hilscher, Markus M., Kullander, Klas, and Leao, Richardson N.
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- 2015
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89. VGLUT2 controls heat and punctuate hyperalgesia associated with nerve injury via TRPV1-Cre primary afferents
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Rogóz, Katarzyna, Stjarne, Ludvig, Kullander, Klas, Lagerström, Malin C., Rogóz, Katarzyna, Stjarne, Ludvig, Kullander, Klas, and Lagerström, Malin C.
- Abstract
Nerve injury induces a state of prolonged thermal and mechanical hypersensitivity in the innervated area, causing distress in affected individuals. Nerve injury-induced hypersensitivity is partially due to increased activity and thereby sustained release of neurotransmitters from the injured fibers. Glutamate, a prominent neurotransmitter in primary afferents, plays a major role in development of hypersensitivity. Glutamate is packed in vesicles by vesicular glutamate transporters (VGLUTs) to enable controlled release upon depolarization. While a role for peripheral VGLUTs in nerve injury-induced pain is established, their contribution in specific peripheral neuronal populations is unresolved. We investigated the role of VGLUT2, expressed by transient receptor potential vanilloid (TRPV1) fibers, in nerve injury-induced hypersensitivity. Our data shows that removal of Vglut2 from Trpv1-Cre neurons using transgenic mice abolished both heat and punctuate hyperalgesia associated with nerve injury. In contrast, the development of cold hypersensitivity after nerve injury was unaltered. Here, we show that, VGLUT2-mediated glutamatergic transmission from Trpv1-Cre neurons selectively mediates heat and mechanical hypersensitivity associated with nerve injury. Our data clarifies the role of the Trpv1-Cre population and the dependence of VGLUT2-mediated glutamatergic transmission in nerve injury-induced hyperalgesia.
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- 2015
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90. Firing properties of Renshaw cells defined by Chrna2 are modulated by hyperpolarizing and small conductance ion currents I-h and I-SK
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Perry, Sharn, Gezelius, Henrik, Larhammar, Martin, Hilscher, Markus M., d'Incamps, Boris Lamotte, Leao, Katarina E., Kullander, Klas, Perry, Sharn, Gezelius, Henrik, Larhammar, Martin, Hilscher, Markus M., d'Incamps, Boris Lamotte, Leao, Katarina E., and Kullander, Klas
- Abstract
Renshaw cells in the spinal cord ventral horn regulate motoneuron output through recurrent inhibition. Renshaw cells can be identified in vitro using anatomical and cellular criteria; however, their functional role in locomotion remains poorly defined because of the difficulty of functionally isolating Renshaw cells from surrounding motor circuits. Here we aimed to investigate whether the cholinergic nicotinic receptor alpha2 (Chrna2) can be used to identify Renshaw cells (RCs2) in the mouse spinal cord. Immunohistochemistry and electrophysiological characterization of passive and active RCs2 properties confirmed that neurons genetically marked by the Chrna2-Cre mouse line together with a fluorescent reporter mouse line are Renshaw cells. Whole-cell patch-clamp recordings revealed that RCs2 constitute an electrophysiologically stereotyped population with a resting membrane potential of -50.5 +/- 0.4mV and an input resistance of 233.1 +/- 11M. We identified a ZD7288-sensitive hyperpolarization-activated cation current (I-h) in all RCs2, contributing to membrane repolarization but not to the resting membrane potential in neonatal mice. Additionally, we found RCs2 to express small calcium-activated potassium currents (I-SK) that, when blocked by apamin, resulted in a complete attenuation of the afterhyperpolarisation potential, increasing cellular firing frequency. We conclude that RCs2 can be genetically targeted through their selective Chrna2 expression and that they display currents known to modulate rebound excitation and firing frequency. The genetic identification of Renshaw cells and their electrophysiological profile is required for genetic and pharmacological manipulation as well as computational simulations with the aim to understand their functional role.
- Published
- 2015
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91. Conditional targeting of medium spiny neurons in the striatal matrix
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Reinius, Björn, Blunder, Martina, Brett, Frances M., Eriksson, Anders, Patra, Kalicharan, Jonsson, Jörgen, Jazin, Elena, Kullander, Klas, Reinius, Björn, Blunder, Martina, Brett, Frances M., Eriksson, Anders, Patra, Kalicharan, Jonsson, Jörgen, Jazin, Elena, and Kullander, Klas
- Abstract
The striatum serves as the main input to the basal ganglia, and is key for the regulation of motor behaviors, compulsion, addiction, and various cognitive and emotional states. Its deterioration is associated with degenerative disorders such as Huntington's disease. Despite its apparent anatomical uniformity, it consists of intermingled cell populations, which have precluded straightforward anatomical sub-classifications adhering to functional dissections. Approximately 95% of the striatal neurons are inhibitory projection neurons termed medium spiny neurons (MSNs). They are commonly classified according to their expression of either dopamine receptor D1 or D2, which also determines their axonal projection patterns constituting the direct and indirect pathway in the basal ganglia. lmmunohistochemical patterns have further indicated compartmentalization of the striatum to the striosomes and the surrounding matrix, which integrate MSNs of both the D1 and D2 type. Here, we present a transgenic mouse line, Gpr101-Cre, with Cre recombinase activity localized to matrix D1 and D2 MSNs. Using two Gpr101-Cre founder lines with different degrees of expression in the striatum, we conditionally deleted the vesicular inhibitory amino acid transporter (VIAAT), responsible for storage of GABA and glycine in synaptic vesicles. Partial ablation of VIAAT (in similar to 36% of MSNs) resulted in elevated locomotor activity compared to control mice, when provoked with the monoamine reuptake inhibitor cocaine. Near complete targeting of matrix MSNs led to profoundly changed motor behaviors, which increased in severity as the mice aged. Moreover, these mice had exaggerated muscle rigidity, retarded growth, increased rate of spontaneous deaths, and defective memory. Therefore, our data provide a link between dysfunctional GABA signaling of matrix MSNs to specific behavioral alterations, which are similar to the symptoms of Huntington's disease.
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- 2015
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92. Differential Neuroprotective Effects of Interleukin-1 Receptor Antagonist on Spinal Cord Neurons after Excitotoxic Injury.
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Schizas, Nikos, Perry, Sharn, Andersson, Brittmarie, Wählby, Carolina, Kullander, Klas, and Hailer, Nils P.
- Abstract
Secondary damage following spinal cord injury (SCI) induces neuronal damage through inflammatory and excitotoxic pathways. We hypothesized that the interleukin-1 receptor antagonist (IL1RA) protects neuronal populations and suppresses apoptosis and gliosis after injury. Spinal cord slice cultures (SCSCs) were subjected to excitotoxic injury with N-methyl-D-aspartate (NMDA) and treated with IL1RA. Immunohistochemistry for neuronal nuclei (NeuN), MacII, glial fibrillary acidic protein, and TdT-mediated dUTP nick end labelling stains were used to evaluate neuronal survival, glial activation, and apoptosis. Treatment with IL1RA significantly reduced the number of apoptotic cells in both NMDA-lesioned and unlesioned cultures. Experimental injury with NMDA reduced the number of NeuN-positive ventral horn neurons, and IL1RA treatment counteracted this loss 1 day after injury. However, IL1RA had no effect on the number of presumable Renshaw cells, identified by their selective expression of the cholinergic nicotinic α
2 -receptor subunit (Chrna2 ). Activated microglial cells were more numerous in NMDA-lesioned cultures 1 day after injury, and IL1RA significantly reduced their numbers. We conclude that IL1RA modulates neuronal apoptosis and microglial activation in excitotoxically injured SCSCs. Renshaw cells were more susceptible to excitotoxic injury than other neurons and were not rescued by IL1RA treatment. Modulation of IL-1-mediated pathways may thus be effective in reducing excitotoxically induced neuronal damage after SCI, however only in specific neuronal populations, such as ventral horn neurons. These findings motivate further investigations of the possibility to antagonize inflammatory pathways after SCI. [ABSTRACT FROM AUTHOR]- Published
- 2018
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93. OLM interneurons differentially modulate CA3 and entorhinal inputs to hippocampal CA1 neurons
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Leão, Richardson Naves, Mikulovic, Sanja, Leão, Emelie Katarina Svahn, Munguba, Hermany, Gezelius, Henrik, Enjin, Anders, Patra, Kalicharan, Eriksson, Anders, Loew, Leslie M, Tort, Adriano Bretanha Lopes, and Kullander, Klas
- Subjects
GABAergic interneurons ,OLM interneurons ,CA1 neurons - Abstract
The vast diversity of GABAergic interneurons is believed to endow hippocampal microcircuits with the required flexibility for memory encoding and retrieval. However, dissection of the functional roles of defined interneuron types has been hampered by the lack of cell-specific tools. We identified a precise molecular marker for a population of hippocampal GABAergic interneurons known as oriens lacunosum-moleculare (OLM) cells. By combining transgenic mice and optogenetic tools, we found that OLM cells are important for gating the information flow in CA1, facilitating the transmission of intrahippocampal information (from CA3) while reducing the influence of extrahippocampal inputs (from the entorhinal cortex). Furthermore, we found that OLM cells were interconnected by gap junctions, received direct cholinergic inputs from subcortical afferents and accounted for the effect of nicotine on synaptic plasticity of the Schaffer collateral pathway. Our results suggest that acetylcholine acting through OLM cells can control the mnemonic processes executed by the hippocampus.
- Published
- 2012
94. Novel markers for OLM interneurons in the hippocampus
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Mikulovic, Sanja, primary, Restrepo, C. Ernesto, additional, Hilscher, Markus M., additional, Kullander, Klas, additional, and Leão, Richardson N., additional
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- 2015
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95. Conditional targeting of medium spiny neurons in the striatal matrix
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Reinius, Björn, primary, Blunder, Martina, additional, Brett, Frances M., additional, Eriksson, Anders, additional, Patra, Kalicharan, additional, Jonsson, Jörgen, additional, Jazin, Elena, additional, and Kullander, Klas, additional
- Published
- 2015
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96. SLC10A4 Is a Vesicular Amine-Associated Transporter Modulating Dopamine Homeostasis
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Larhammar, Martin, primary, Patra, Kalicharan, additional, Blunder, Martina, additional, Emilsson, Lina, additional, Peuckert, Christiane, additional, Arvidsson, Emma, additional, Rönnlund, Daniel, additional, Preobraschenski, Julia, additional, Birgner, Carolina, additional, Limbach, Christoph, additional, Widengren, Jerker, additional, Blom, Hans, additional, Jahn, Reinhard, additional, Wallén-Mackenzie, Åsa, additional, and Kullander, Klas, additional
- Published
- 2015
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97. VGLUT2 controls heat and punctuate hyperalgesia associated with nerve injury via TRPV1-Cre primary afferents
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Rogoz, Katarzyna, primary, Stjärne, Ludvig, additional, Kullander, Klas, additional, and Lagerström, Malin C., additional
- Published
- 2015
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98. Glutamate, Substance P, and Calcitonin Gene-Related Peptide Cooperate in Inflammation-Induced Heat Hyperalgesia
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Rogoz, Katarzyna, Andersen, Helena Haddadi, Kullander, Klas, Lagerström, Malin C., Rogoz, Katarzyna, Andersen, Helena Haddadi, Kullander, Klas, and Lagerström, Malin C.
- Abstract
The transient receptor potential cation channel subfamily V member 1 (TRPV1) is known as a thermosensor and integrator of inflammation-induced hyperalgesia. TRPV1 is expressed in a sub-population of primary afferent neurons that express several different neurotransmitters. The role of the TRPV1 channel in the development of hyperalgesia is established, but the role of the neurotransmitter glutamate, used partially by the same neuronal population and thus probably mediating the response, is still under investigation. We have used a Trpv1-Cre mouse line in which we either ablated Trpv1-Cre expressing neurons or induced vesicular glutamate transporter 2 (Vglut2) deficiency in Trpv1-Cre expressing neurons and investigated specific states of hyperalgesia after persistent inflammation. Furthermore, by pharmacologic inhibition of substance P (SP) or calcitonin gene-related peptide (CGRP) signaling in Vglut2-deficient mice, we also evaluated the contribution of SP or CGRP to inflammation-induced hyperalgesia, with or without the presence of vesicular glutamate transporter 2 (VGLUT2)-mediated glutamatergic transmission in Trpv1-Cre neurons. This examination, together with c-Fos analyses, showed that VGLUT2-mediated glutamatergic transmission in Trpv1-Cre afferents together with SP or CGRP is essential for the development of the heat hyperalgesia associated with persistent inflammation. Additionally, SP-, CGRP-, and VGLUT2-mediated transmission together were found to play a role in the development of mechanical hyperalgesia after persistent inflammation.
- Published
- 2014
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99. Multimodal Use of Calcitonin Gene-Related Peptide and Substance P in Itch and Acute Pain Uncovered by the Elimination of Vesicular Glutamate Transporter 2 from Transient Receptor Potential Cation Channel Subfamily V Member 1 Neurons
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Rogóz, Katarzyna, Andersen, Helena H., Lagerström, Malin C., Kullander, Klas, Rogóz, Katarzyna, Andersen, Helena H., Lagerström, Malin C., and Kullander, Klas
- Abstract
Primary afferents are known to use glutamate as their principal fast neurotransmitter. However, it has become increasingly clear that peptides have an influential role in both mediating and modulating sensory transmission. Here we describe the transmission accounting for different acute pain states and itch transmitted via the transient receptor potential cation channel subfamily V member 1 (TRPV1) population by either ablating Trpv1-Cre-expressing neurons or inducing vesicular glutamate transporter 2 (VGLUT2) deficiency in Trpv1-Cre-expressing neurons. Furthermore, by pharmacological inhibition of substance P or calcitonin gene-related peptide (CGRP) signaling in Vglut2-deficient mice, we evaluated the contribution of substance P or CGRP to these sensory modulations, with or without the presence of VGLUT2-mediated glutamatergic transmission in Trpv1-Cre neurons. This examination, together with c-Fos analyses, showed that glutamate via VGLUT2 in the Trpv1-Cre population together with substance P mediate acute cold pain, whereas glutamate together with CGRP mediate noxious heat. Moreover, we demonstrate that glutamate together with both substance P and CGRP mediate tissue-injury associated pain. We further show that itch, regulated by the VGLUT2-mediated transmission via the Trpv1-Cre population, depends on CGRP and gastrin-releasing peptide receptor (GRPR) transmission because pharmacological blockade of the CGRP or GRPR pathway, or genetic ablation of Grpr, led to a drastically attenuated itch. Our study reveals how different neurotransmitters combined can cooperate with each other to transmit or regulate various acute sensations, including itch., De två sista författarna delar sistaförfattarskapet.
- Published
- 2014
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100. EphA4-Mediated Ipsilateral Corticospinal Tract Misprojections Are Necessary for Bilateral Voluntary Movements But Not Bilateral Stereotypic Locomotion
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Serradj, Najet, Paixao, Sonia, Sobocki, Tomasz, Feinberg, Mitchell, Klein, Ruediger, Kullander, Klas, Martin, John H., Serradj, Najet, Paixao, Sonia, Sobocki, Tomasz, Feinberg, Mitchell, Klein, Ruediger, Kullander, Klas, and Martin, John H.
- Abstract
In this study, we took advantage of the reported role of EphA4 in determining the contralateral spinal projection of the corticospinal tract (CST) to investigate the effects of ipsilateral misprojections on voluntary movements and stereotypic locomotion. Null EphA4 mutations produce robust ipsilateral CST misprojections, resulting in bilateral corticospinal tracts. We hypothesize that a unilateral voluntary limb movement, not a stereotypic locomotor movement, will become a bilateral movement in EphA4 knock-out mice with a bilateral CST. However, in EphA4 full knock-outs, spinal interneurons also develop bilateral misprojections. Aberrant bilateral spinal circuits could thus transform unilateral corticospinal control signals into bilateral movements. We therefore studied mice with conditional forebrain deletion of the EphA4 gene under control by Emx1, a gene expressed in the forebrain that affects the developing CST but spares brainstem motor pathways and spinal motor circuits. We examined two conditional knock-outs targeting forebrain EphA4 during performance of stereotypic locomotion and voluntary movement: adaptive locomotion over obstacles and exploratory reaching. We found that the conditional knock-outs used alternate stepping, not hopping, during overground locomotion, suggesting normal central pattern generator function and supporting our hypothesis of minimal CST involvement in the moment-to-moment control of stereotypic locomotion. In contrast, the conditional knock-outs showed bilateral voluntary movements under conditions when single limb movements are normally produced and, as a basis for this aberrant control, developed a bilateral motor map in motor cortex that is driven by the aberrant ipsilateral CST misprojections. Therefore, a specific change in CST connectivity is associated with and explains a change in voluntary movement.
- Published
- 2014
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