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Literature DB >> 18374474

Cortistatin--functions in the central nervous system.

Abstract

Cortistatin (CST) is a neuropeptide from the somatostatin (SRIF)/urotensin (UII) family named after its predominantly cortical expression and ability to depress cortical activity, which was discovered a decade ago. In vitro assays show CST is able to bind all five cloned somatostatin receptors and shares many pharmacological and functional properties with SRIF. However, distinct from SRIF, CST has been shown to induce slow-wave sleep, reduce locomotor activity, and activate cation selective currents not responsive to somatostatin. Different lines of evidence also indicate that CST, like SRIF, is involved in learning and memory processes. CST-14 may also function as an endogenous anti-convulsant. In addition to its role in cortical synchronization, CST-14 has emerged as an important mediator of immunity and inflammation. This review will cover some of the basic properties of CST in the brain, and will discuss new data on the role of CST in cortical activity.

Entities: Disease Gene

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Year: 2008 PMID： 18374474 DOI： 10.1016/j.mce.2007.12.014

Source DB: PubMed Journal: Mol Cell Endocrinol ISSN： 0303-7207 Impact factor: 4.102

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Cited

23 in total

Review 1. International Union of Basic and Clinical Pharmacology. CV. Somatostatin Receptors: Structure, Function, Ligands, and New Nomenclature.

Authors: Thomas Günther; Giovanni Tulipano; Pascal Dournaud; Corinne Bousquet; Zsolt Csaba; Hans-Jürgen Kreienkamp; Amelie Lupp; Márta Korbonits; Justo P Castaño; Hans-Jürgen Wester; Michael Culler; Shlomo Melmed; Stefan Schulz
Journal: Pharmacol Rev Date: 2018-10 Impact factor: 25.468

2. A resource of Cre driver lines for genetic targeting of GABAergic neurons in cerebral cortex.

Authors: Hiroki Taniguchi; Miao He; Priscilla Wu; Sangyong Kim; Raehum Paik; Ken Sugino; Duda Kvitsiani; Duda Kvitsani; Yu Fu; Jiangteng Lu; Ying Lin; Goichi Miyoshi; Yasuyuki Shima; Gord Fishell; Sacha B Nelson; Z Josh Huang
Journal: Neuron Date: 2011-09-21 Impact factor: 17.173

3. Cortistatin is not a somatostatin analogue but stimulates prolactin release and inhibits GH and ACTH in a gender-dependent fashion: potential role of ghrelin.

Authors: José Córdoba-Chacón; Manuel D Gahete; Ana I Pozo-Salas; Antonio J Martínez-Fuentes; Luis de Lecea; Francisco Gracia-Navarro; Rhonda D Kineman; Justo P Castaño; Raul M Luque
Journal: Endocrinology Date: 2011-10-04 Impact factor: 4.736

4. The cortistatin gene PSS2 rather than the somatostatin gene PSS1 is strongly expressed in developing avian autonomic neurons.

Authors: Rae Nishi; Jutta Stubbusch; Jonathan J Hulce; Martin Hruska; Anthony Pappas; Maria-Christina Bravo; Leslie P Huber; Benjamin Bakondi; John Soltys; Hermann Rohrer
Journal: J Comp Neurol Date: 2010-03-15 Impact factor: 3.215

5. Brain somatostatin receptor 2 mediates the dipsogenic effect of central somatostatin and cortistatin in rats: role in drinking behavior.

Authors: Hiroshi Karasawa; Seiichi Yakabi; Lixin Wang; Andreas Stengel; Jean Rivier; Yvette Taché
Journal: Am J Physiol Regul Integr Comp Physiol Date: 2014-07-16 Impact factor: 3.619

6. Identification and characterization of new functional truncated variants of somatostatin receptor subtype 5 in rodents.

Authors: Jose Córdoba-Chacón; Manuel D Gahete; Mario Duran-Prado; Ana I Pozo-Salas; María M Malagón; F Gracia-Navarro; Rhonda D Kineman; Raul M Luque; Justo P Castaño
Journal: Cell Mol Life Sci Date: 2010-04 Impact factor: 9.261

Cortistatin--functions in the central nervous system.

Review 1. International Union of Basic and Clinical Pharmacology. CV. Somatostatin Receptors: Structure, Function, Ligands, and New Nomenclature.

2. A resource of Cre driver lines for genetic targeting of GABAergic neurons in cerebral cortex.

3. Cortistatin is not a somatostatin analogue but stimulates prolactin release and inhibits GH and ACTH in a gender-dependent fashion: potential role of ghrelin.

4. The cortistatin gene PSS2 rather than the somatostatin gene PSS1 is strongly expressed in developing avian autonomic neurons.

5. Brain somatostatin receptor 2 mediates the dipsogenic effect of central somatostatin and cortistatin in rats: role in drinking behavior.

6. Identification and characterization of new functional truncated variants of somatostatin receptor subtype 5 in rodents.

Review 7. The role of brain somatostatin receptor 2 in the regulation of feeding and drinking behavior.

8. Somatostatinergic systems: an update on brain functions in normal and pathological aging.

9. Transcriptional study reveals a potential leptin-dependent gene regulatory network in zebrafish brain.

10. Peptide receptor targeting in cancer: the somatostatin paradigm.