Karolinska Institutet

About: Karolinska Institutet is a education organization based out in Stockholm, Sweden. It is known for research contribution in the topics: Population & Poison control. The organization has 46212 authors who have published 121142 publications receiving 6008130 citations.

Functional links between motor and language systems.

Abstract: Transcranial magnetic stimulation (TMS) was applied to motor areas in the left language-dominant hemisphere while right-handed human subjects made lexical decisions on words related to actions. Response times to words referring to leg actions (e.g. kick) were compared with those to words referring to movements involving the arms and hands (e.g. pick). TMS of hand and leg areas influenced the processing of arm and leg words differentially, as documented by a significant interaction of the factors Stimulation site and Word category. Arm area TMS led to faster arm than leg word responses and the reverse effect, faster lexical decisions on leg than arm words, was present when TMS was applied to leg areas. TMS-related differences between word categories were not seen in control conditions, when TMS was applied to hand and leg areas in the right hemisphere and during sham stimulation. Our results show that the left hemispheric cortical systems for language and action are linked to each other in a category-specific manner and that activation in motor and premotor areas can influence the processing of specific kinds of words semantically related to arm or leg actions. By demonstrating specific functional links between action and language systems during lexical processing, these results call into question modular theories of language and motor functions and provide evidence that the two systems interact in the processing of meaningful information about language and action.

Lipoxygenase and leukotriene pathways: biochemistry, biology, and roles in disease.

Abstract: 4. Biosynthesis of Leukotrienes 5869 4.1. Discovery of the Leukotriene Pathway and a Common Unstable Intermediate 5869 4.2. Conversion of Arachidonic Acid into Leukotriene A4 (LTA4) Is a Two-Step Concerted Reaction Catalyzed by a Single Lipoxygenase 5869 4.3. Structural Elucidation of Slow-Reacting Substance of Anaphylaxis, A Mixture of Leukotrienes 5870 5. Enzymes and Proteins in Leukotriene Biosynthesis 5870 5.1. Cytosolic Phospholipase A2α (cPLA2α) 5870 5.1.1. Molecular Properties and Regulation of cPLA2α 5870 5.1.2. Crystal Structure and Catalytic Mechanism of cPLA2α 5871 5.2. 5-Lipoxygenase (5-LO) 5871 5.2.1. Cellular Expression of 5-LO 5871 5.2.2. Regulation of 5-LO Gene (ALOX5) Transcription 5872 5.2.3. Naturally Occurring Mutations in the Gene Promoter of 5-LO 5872 5.2.4. Allosteric and Post-translational Regulation of 5-LO 5872 5.2.5. Structure function relationships in 5-LO 5872 5.2.6. Crystal Structure of 5-LO 5872 5.3. 5-Lipoxygenase-Activating Protein (FLAP) 5873 5.3.1. FLAP Is Critical for Cellular 5-LO Activity 5873 5.3.2. Effects of FLAP on Leukotriene Production 5873 5.3.3. FLAP Gene (ALOX5AP) and Regulation of Expression 5874 5.3.4. Crystal Structure of FLAP 5874 5.4. LTA4 Hydrolase 5874 5.4.1. LTA4 Hydrolase Is a Substrate-Selective and Suicide-Inactivated Epoxide Hydrolase 5874 5.4.2. LTA4 Hydrolase Is Bifunctional and Belongs to the M1 Family of Zinc Metallopeptidases 5874 5.4.3. LTA4 Hydrolase Cleaves the Chemotactic Pro-Gly-Pro, a Role for the Aminopeptidase Activity during Resolution of Inflammation 5875 5.4.4. Crystal Structure of LTA4 Hydrolase 5875 5.4.5. Mechanism of the Epoxide Hydrolase Reaction 5876 5.4.6. Mechanism of the Aminopeptidase Activity 5876 5.4.7. Two Catalytic Activities Exerted via Specific but Overlapping Active Sites 5877 5.5. LTC4 Synthase 5877 5.5.1. Molecular Properties of LTC4 Synthase 5877 5.5.2. LTC4 Synthase Is a Member of the MAPEG Superfamily of IntegralMembraneProteins 5877 5.5.3. Gene Structure and Regulation of LTC4 Synthase Expression 5877 5.5.4. Crystal Structure of LTC4 Synthase 5877 5.5.5. Catalytic Mechanism of LTC4 Synthase 5878 6. Intracellular Protein Trafficking and Compartmentalization of Leukotriene Biosynthesis 5878 6.1. Translocation of cPLA2α 5878 6.2. Translocation of 5-LO and Association with FLAP on the Nuclear Envelope 5879 6.2.1. 5-LO in the Nucleoplasm 5879 6.2.2. Organization of a Leukotriene Biosynthetic Complex in the Nuclear Membrane 5879 6.3. Leukotriene Biosynthesis in Lipid Bodies and Actions on Extracellular Granules 5879

Pancreastatin, a novel pancreatic peptide that inhibits insulin secretion

Abstract: In mammalian tissues the C-terminal amide structure has been found to occur only in neuroactive or hormonally-active peptides. About half known neuropeptide and peptide hormones have this unique chemical feature. Using a chemical detection method, a search for previously unknown peptides that possess the C-terminal amide structure in extracts of brain and intestine was carried out and a number of novel neuropeptides and hormonal peptides, designated neuropeptide Y, PHI, peptide YY, galanin and neuropeptide K were isolated. We recently performed a similar search in porcine pancreas and found a high concentration of a peptide having a glycine amide at its C-terminus. Here we report the isolation, primary structure and biological activity of this novel peptide. The 49-residue peptide strongly inhibits glucose-induced insulin release from the isolated perfused pancreas and was therefore named pancreastatin. It may be important in the regulation of insulin secretion and in the pathogenesis and treatment of diabetes mellitus.

Different modes of expression of AMPA and NMDA receptors in hippocampal synapses.

Abstract: Postembedding immunogold labeling was used to determine the relationship between AMPA and NMDA receptor density and size of Schaffer collateral–commissural (SCC) synapses of the adult rat. All SCC synapses expressed NMDA receptors. AMPA and NMDA receptors were colocalized in at least 75% of SCC synapses; the ratio of AMPA to NMDA receptors was a linear function of postsynaptic density (PSD) diameter, with AMPA receptor number dropping to zero at a PSD diameter of ~180 nm. These findings indicate that 'silent' SCC synapses are smaller than the majority of SCC synapses at which AMPA and NMDA receptors are colocalized. Thus synapse size may determine important properties of SCC synapses.