| 1. |
- Edvinsson, Jacob C.A., et al.
(författare)
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C-fibers may modulate adjacent Aδ-fibers through axon-axon CGRP signaling at nodes of Ranvier in the trigeminal system
- 2019
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Ingår i: Journal of Headache and Pain. - : Springer Science and Business Media LLC. - 1129-2369 .- 1129-2377. ; 20:1
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Tidskriftsartikel (refereegranskat)abstract
- BACKGROUND: Monoclonal antibodies (mAbs) towards CGRP or the CGRP receptor show good prophylactic antimigraine efficacy. However, their site of action is still elusive. Due to lack of passage of mAbs across the blood-brain barrier the trigeminal system has been suggested a possible site of action because it lacks blood-brain barrier and hence is available to circulating molecules. The trigeminal ganglion (TG) harbors two types of neurons; half of which store CGRP and the rest that express CGRP receptor elements (CLR/RAMP1). METHODS: With specific immunohistochemistry methods, we demonstrated the localization of CGRP, CLR, RAMP1, and their locations related to expression of the paranodal marker contactin-associated protein 1 (CASPR). Furthermore, we studied functional CGRP release separately from the neuron soma and the part with only nerve fibers of the trigeminal ganglion, using an enzyme-linked immunosorbent assay. RESULTS: Antibodies towards CGRP and CLR/RAMP1 bind to two different populations of neurons in the TG and are found in the C- and the myelinated Aδ-fibers, respectively, within the dura mater and in trigeminal ganglion (TG). CASPR staining revealed paranodal areas of the different myelinated fibers inhabiting the TG and dura mater. Double immunostaining with CASPR and RAMP1 or the functional CGRP receptor antibody (AA58) revealed co-localization of the two peptides in the paranodal region which suggests the presence of the CGRP-receptor. Double immunostaining with CGRP and CASPR revealed that thin C-fibers have CGRP-positive boutons which often localize in close proximity to the nodal areas of the CGRP-receptor positive Aδ-fibers. These boutons are pearl-like synaptic structures, and we show CGRP release from fibers dissociated from their neuronal bodies. In addition, we found that adjacent to the CGRP receptor localization in the node of Ranvier there was PKA immunoreactivity (kinase stimulated by cAMP), providing structural possibility to modify conduction activity within the Aδ-fibers. CONCLUSION: We observed a close relationship between the CGRP containing C-fibers and the Aδ-fibers containing the CGRP-receptor elements, suggesting a point of axon-axon interaction for the released CGRP and a site of action for gepants and the novel mAbs to alleviate migraine.
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| 2. |
- Johansson, Sara Ellinor, et al.
(författare)
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Vascular pathology of large cerebral arteries in experimental subarachnoid hemorrhage : Vasoconstriction, functional CGRP depletion and maintained CGRP sensitivity
- 2019
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Ingår i: European Journal of Pharmacology. - : Elsevier BV. - 0014-2999. ; 846, s. 109-118
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Tidskriftsartikel (refereegranskat)abstract
- Subarachnoid hemorrhage (SAH) is associated with increased cerebral artery sensitivity to vasoconstrictors and release of the perivascular sensory vasodilator CGRP. In the current study the constrictive phenotype and the vasodilatory effects of exogenous and endogenous perivascular CGRP were characterized in detail applying myograph technology to cerebral artery segments isolated from experimental SAH and sham-operated rats. Following experimental SAH, cerebral arteries exhibited increased vasoconstriction to endothelin-1, 5-hydroxytryptamine and U46419. In addition, depolarization-induced vasoconstriction (60 mM potassium) was significantly increased, supporting a general SAH-associated vasoconstrictive phenotype. Using exogenous CGRP, we demonstrated that sensitivity of the arteries to CGRP-induced vasodilation was unchanged after SAH. However, vasodilation in response to capsaicin (100 nM), a sensory nerve activator used to release perivascular CGRP, was significantly reduced by SAH (P = 0.0079). Because CGRP-mediated dilation is an important counterbalance to increased arterial contractility, a reduction in CGRP release after SAH would exacerbate the vasospasms that occur after SAH. A similar finding was obtained with artery culture (24 h), an in vitro model of SAH-induced vascular dysfunction. The arterial segments maintained sensitivity to exogenous CGRP but showed reduced capsaicin-induced vasodilation. To test whether a metabolically stable CGRP analogue could be used to supplement the loss of perivascular CGRP release in SAH, SAX was systemically administered in our in vivo SAH model. SAX treatment, however, induced CGRP-desensitization and did not prevent the development of vasoconstriction in cerebral arteries after SAH.
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| 3. |
- Warfvinge, Karin, et al.
(författare)
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The Presence of Calcitonin Gene-Related Peptide and Its Receptors in Rat, Pig and Human Brain : Species Differences in Calcitonin Gene-Related Peptide Pharmacology
- 2019
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Ingår i: Pharmacology. - : S. Karger AG. - 0031-7012 .- 1423-0313. ; 104:5-6, s. 332-341
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Tidskriftsartikel (refereegranskat)abstract
- Aim: The aim of present study is to investigate the binding characteristics of non-peptide calcitonin gene-related peptide (CGRP) receptor antagonists (i.e., gepants) in the brain membranes of rat, pig and human. Methods: The interaction of available gepants with the CGRP receptor was studied in the brain membranes of 3 different species using a radioligand competitive binding assay. In addition, the distribution of CGRP and its receptor component receptor activity modifying protein 1 (RAMP1) in rat cerebellum and cortex was explored using immunohistochemistry. Results: All gepants, except SB268262, displaced 100% of the radioligand specific binding in the brain tissue of all 3 species and showed highest affinity for CGRP receptors in human brain as compared to rat and pig brain membranes. Furthermore, radioligand binding studies revealed the presence of higher CGRP receptor density in human cerebellum compared to human cortex. The morphology, size and density of CGRP immunoreactive cells suggest that all cerebral cortical neurons were positive for CGRP. Slender receptor immunoreactive fibres were found spanning through the entire cortex. CGRP immunoreactivity was displayed in the cell soma of cerebellar Purkinje cells and in large neurons in the medial cerebellar nucleus. RAMP1 was found on the surface of the Purkinje cells and in parallel fibres, indicating presence in the granule cell axons. Conclusion: Cerebellum and cerebral cortex are rich in CGRP and CGRP receptors, which can be antagonized by gepants. However, all gepants display higher affinity for human CGRP receptors as compared to rat and pig CGRP receptors. Furthermore, human cerebellum seems to express higher density of CGRP receptors.
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