Manuela Händel scite author profile

Somatostatin mediates its diverse physiological effects through a family of five G-protein-coupled receptors (sst(1)-sst(5)); however, knowledge about the distribution of individual somatostatin receptor proteins in mammalian brain is incomplete. In the present study, we have examined the regional and subcellular distribution of the somatostatin receptor sst(4) in the rat CNS by raising anti-peptide antisera to the C-terminal tail of sst(4). The specificity of affinity-purified antibodies was demonstrated using immunofluorescent staining of HEK 293 cells stably transfected with an epitope-tagged sst(4) receptor. In Western blotting, the antiserum reacted specifically with a broad band in rat brain, which migrated at approximately 70 kDa before and approximately 50 kDa after enzymatic deglycosylation. sst(4)-Like immunoreactivity was most prominent in many forebrain regions, including the cerebral cortex, hippocampus, striatum, amygdala, and hypothalamus. Analysis at the electron microscopic level revealed that sst(4)-expressing neurons target this receptor preferentially to their somatodendritic domain. Like the sst(2A) receptor, sst(4)-immunoreactive dendrites were often closely apposed by somatostatin-14-containing fibers and terminals. However, unlike the sst(2A) receptor, sst(4) was not internalized in response to intracerebroventricular administration of somatostatin-14. After percussion trauma of the cortex, neuronal sst(4) receptors progressively declined at the sites of damage. This decline coincided with an induction of sst(4) expression in cells with a glial-like morphology. Together, this study provides the first description of the distribution of immunoreactive sst(4) receptor proteins in rat brain. We show that sst(4) is strictly somatodendritic and most likely functions in a postsynaptic manner. In addition, the sst(4) receptor may have a previously unappreciated function during the neuronal degeneration-regeneration process.

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Involvement of Mitogen‐Activated Protein Kinase in Agonist‐Induced Phosphorylation of the μ‐Opioid Receptor in HEK 293 Cells

Schmidt

Schulz

Klutzny

et al. 2000

Journal of Neurochemistry

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Agonist exposure of many G protein-coupled receptors stimulates an activation of extracellular signalregulated protein kinases (ERKs) 1 and 2, members of the mitogen-activated protein kinase (MAPK) family. Here, we show that treatment of human embryonic kidney (HEK) 293 cells stably transfected to express the rat -opioid receptor (MOR1) with [D-Ala 2 ,MePhe 4 ,Gly 5 -ol]enkephalin (DAMGO) stimulated a rapid and transient (3-5-min) activation and nuclear translocation of MAPK. Exposure of these cells to the MAPK kinase 1 inhibitor PD98059 not only prevented MAPK activation but also inhibited homologous desensitization of the -opioid receptor. We have therefore determined the effect of PD98059 on agonist-induced -receptor phosphorylation. DAMGO stimulated a threefold increase in MOR1 phosphorylation within 20 min that could be reversed by the antagonist naloxone. PD98059 produced a dose-dependent inhibition of agonist-promoted -receptor phosphorylation with an IC 50 of 20 M. DAMGO also induced MOR1 internalization that peaked at 30 min. Confocal microscopy revealed that DAMGO-induced MOR1 internalization was also largely inhibited in the presence of PD98059. U0126, another chemically unrelated inhibitor of the MAPK cascade, mimicked the effect of PD98059 on -receptor phosphorylation and desensitization. MOR1 itself, however, appears to be a poor substrate for MAPK because -receptors immunoprecipitated from stably transfected HEK 293 cells were not phosphorylated by exogenous ERK 2 in vitro. The fact that morphine also triggered MAPK activation but did not induce MOR1 internalization indicates that receptor internalization was not required for MOR1-mediated mitogenic signaling. We conclude that MOR1 stimulates a rapid and internalizationindependent MAPK activation. Activation of the MAPK cascade in turn may not only relay mitogenic signals to the nucleus but also trigger initial events leading to phosphorylation and desensitization of the -opioid receptor.

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Immunocytochemical localization of somatostatin receptor sst_2A in the rat spinal cord and dorsal root ganglia

Schulz

Schreff

Schmidt

et al. 1998

Eur J of Neuroscience

102

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Intrathecal administration of octreotide, a stable somatostatin analogue, provides pain relief in patients, and locally applied somatostatin inhibits firing of nociceptive dorsal horn neurons. In the present study, we have raised polyclonal antibodies that specifically detect the somatostatin receptor sst2A and used these antisera for immunocytochemical localization of the receptor protein in the rat spinal cord and dorsal root ganglia. In the superficial layers of the dorsal horn, sst2A-like immunoreactivity (Li) formed a dense network consisting of neuronal perikarya and dendrites which were often closely apposed by, but not co-contained within, somatostatin-14-immunoreactive nerve fibres and terminals. sst2A-Li was resistant to dorsal rhizotomy and did not colocalize with either substance P or calcitonin gene-related peptide suggesting that sst2A-Li was not located to primary afferents, but rather confined to second-order spinal neurons. The position of sst2A-Li perikarya and dendrites in the dorsal horn appeared to be similar to those containing mu-opioid receptor-Li; however, double labelling experiments revealed no instances of coexistence of these two receptors. sst2A-Li was also observed in the dorsal root ganglia predominantly targeted to the somatic plasmalemma of medium size neurons distinct from those expressing somatostatin-14 or delta-opioid receptors. Thus, the present results not only provide a morphological substrate for spinal octreotide analgesia but also show that somatostatin and opioids are poised to modulate nociceptive transmission by distinct anatomical systems.

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Manuela Händel

Selective targeting of somatostatin receptor 3 to neuronal cilia

Localization of five somatostatin receptors in the rat central nervous system using subtype-specific antibodies

Distribution, Targeting, and Internalization of the sst₄Somatostatin Receptor in Rat Brain

Involvement of Mitogen‐Activated Protein Kinase in Agonist‐Induced Phosphorylation of the μ‐Opioid Receptor in HEK 293 Cells

Immunocytochemical localization of somatostatin receptor sst_2A in the rat spinal cord and dorsal root ganglia

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Manuela Händel

Selective targeting of somatostatin receptor 3 to neuronal cilia

Localization of five somatostatin receptors in the rat central nervous system using subtype-specific antibodies

Distribution, Targeting, and Internalization of the sst4Somatostatin Receptor in Rat Brain

Involvement of Mitogen‐Activated Protein Kinase in Agonist‐Induced Phosphorylation of the μ‐Opioid Receptor in HEK 293 Cells

Immunocytochemical localization of somatostatin receptor sst2A in the rat spinal cord and dorsal root ganglia

Contact Info

Product

Resources

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Distribution, Targeting, and Internalization of the sst₄Somatostatin Receptor in Rat Brain

Immunocytochemical localization of somatostatin receptor sst_2A in the rat spinal cord and dorsal root ganglia