Orexin-stimulated MAP kinase cascades are activated through multiple G-protein signalling pathways in human H295R adrenocortical cells: diverse roles for orexins A and B.

Orexins A and B (ORA and ORB) are neuropeptide hormones found throughout the central nervous system and periphery. They are required for a host of physiological processes including mitogen-activated protein kinase (MAPK) regulation, steroidogenesis, appetite control and energy regulation. While some signalling mechanisms have been proposed for individual recombinant orexin receptors in generic mammalian cell types, it is clear that the peripheral effects of orexin are spatially and temporally complex. This study dissects the different G-protein signalling and MAPK pathways activated in a pluripotent human adrenal H295R cell line capable of all the physiological steps involved in steroidogenesis. Both extracellular receptor kinase 1/2 (ERK1/2) and p38 were phosphorylated rapidly with a subsequent decline, in a time- and dose-dependent manner, in response to both ORA and ORB. Conversely, there was little or no direct activation of the ERK5 or JNK pathway. Analysis using signalling and MAPK inhibitors as well as receptor-specific antagonists determined the precise mediators of the orexin response in these cells. Both ERK1/2 and p38 activation were predominantly G(q)- and to a lesser extent G(s)-mediated; p38 activation even had a small G(i)-component. Effects were broadly comparable for both orexin sub-types ORA and ORB and although most of the effects were transmitted through the orexin receptor-1 subtype, we did observe a role for orexin receptor-2-mediated activation of both ERK1/2 and p38. Cortisol secretion also differed in response to ORA and ORB. These data suggest multiple roles for orexin-mediated MAPK activation in an adrenal cell-line, this complexity may help to explain the diverse biological actions of orexins with wide-ranging consequences for our understanding of the mechanisms initiated by these steroidogenic molecules.

[1]  C. Tortorella,et al.  Orexins stimulate corticosterone secretion of rat adrenocortical cells, through the activation of the adenylate cyclase-dependent signaling cascade , 1999, The Journal of Steroid Biochemistry and Molecular Biology.

[2]  A. Bonci,et al.  Orexin B/hypocretin 2 increases glutamatergic transmission to ventral tegmental area neurons , 2008, The European journal of neuroscience.

[3]  K. Eidne,et al.  Orexin receptors: Distinct β-arrestin and internalization profiles for subtypes 1 and 2 , 2006, Frontiers in Neuroendocrinology.

[4]  M. Kathmann,et al.  Presynaptic neuropeptide receptors. , 2008, Handbook of experimental pharmacology.

[5]  B. H. Shah,et al.  Calcium-independent activation of extracellularly regulated kinases 1 and 2 by angiotensin II in hepatic C9 cells: roles of protein kinase Cdelta, Src/proline-rich tyrosine kinase 2, and epidermal growth receptor trans-activation. , 2002, Molecular pharmacology.

[6]  H. Wootz,et al.  G-protein-coupled OX1 Orexin/hcrtr-1 Hypocretin Receptors Induce Caspase-dependent and -independent Cell Death through p38 Mitogen-/Stress-activated Protein Kinase* , 2006, Journal of Biological Chemistry.

[7]  R. Tapping,et al.  BMK1 Mediates Growth Factor-induced Cell Proliferation through Direct Cellular Activation of Serum and Glucocorticoid-inducible Kinase* , 2001, The Journal of Biological Chemistry.

[8]  R. Philp,et al.  PKC δ phosphorylates p52ShcA at Ser29 to regulate ERK activation in response to H2O2 , 2007 .

[9]  C. Der,et al.  Targeting the Raf-MEK-ERK mitogen-activated protein kinase cascade for the treatment of cancer , 2007, Oncogene.

[10]  G. Nussdorfer,et al.  Preproorexin and orexin receptors are expressed in cortisol-secreting adrenocortical adenomas, and orexins stimulate in vitro cortisol secretion and growth of tumor cells. , 2005, The Journal of clinical endocrinology and metabolism.

[11]  S. Carr,et al.  Orexins and orexin receptors: a family of hypothalamic neuropeptides and G protein-coupled receptors that regulate feeding behavior. , 1998, Cell.

[12]  H. Haas,et al.  OX1 orexin receptors activate extracellular signal-regulated kinase in Chinese hamster ovary cells via multiple mechanisms: the role of Ca2+ influx in OX1 receptor signaling. , 2006, Molecular endocrinology.

[13]  J. Flier,et al.  Obesity and the Hypothalamus: Novel Peptides for New Pathways , 1998, Cell.

[14]  A. Ziółkowska,et al.  Orexins modulate the growth of cultured rat adrenocortical cells, acting through type 1 and type 2 receptors coupled to the MAPK p42/p44- and p38-dependent cascades. , 2005, International journal of molecular medicine.

[15]  H. Randeva,et al.  The signalling profile of recombinant human orexin-2 receptor. , 2008, Cellular signalling.

[16]  Marc Parmentier,et al.  Distinct Recognition of OX1 and OX2Receptors by Orexin Peptides , 2003, Journal of Pharmacology and Experimental Therapeutics.

[17]  O. Jöhren,et al.  Prepro-orexin and orexin receptor mRNAs are differentially expressed in peripheral tissues of male and female rats. , 2001, Endocrinology.

[18]  O. Jöhren,et al.  Adrenal expression of orexin receptor subtypes is differentially regulated in experimental streptozotocin induced type-1 diabetes , 2006, Peptides.

[19]  H. Randeva,et al.  Expression of orexin-A and functional orexin type 2 receptors in the human adult adrenals: implications for adrenal function and energy homeostasis. , 2001, The Journal of clinical endocrinology and metabolism.

[20]  I. Bird,et al.  The NCI-H295 cell line: a pluripotent model for human adrenocortical studies , 1994, Molecular and Cellular Endocrinology.

[21]  Rachel S White,et al.  Orexin A Induces GnRH Gene Expression and Secretion from GT1-7 Hypothalamic GnRH Neurons , 2007, Neuroendocrinology.

[22]  D Smart,et al.  SB‐334867‐A: the first selective orexin‐1 receptor antagonist , 2001, British journal of pharmacology.

[23]  C. Tortorella,et al.  Orexins stimulate glucocorticoid secretion from cultured rat and human adrenocortical cells, exclusively acting via the OX1 receptor , 2005, The Journal of Steroid Biochemistry and Molecular Biology.

[24]  S. Carr,et al.  Orexins and Orexin Receptors: A Family of Hypothalamic Neuropeptides and G Protein-Coupled Receptors that Regulate Feeding Behavior , 1998, Cell.

[25]  William A. Catterall,et al.  Ins and outs , 1994, Nature.

[26]  H. Randeva,et al.  Expression and coupling characteristics of the CRH and orexin type 2 receptors in human fetal adrenals. , 2001, The Journal of clinical endocrinology and metabolism.

[27]  A Stricker-Krongrad,et al.  Independent feeding and metabolic actions of orexins in mice. , 1998, Biochemical and biophysical research communications.

[28]  H. Randeva,et al.  Food deprivation differentially modulates orexin receptor expression and signaling in rat hypothalamus and adrenal cortex. , 2005, American journal of physiology. Endocrinology and metabolism.

[29]  T. Gorojankina,et al.  Study of orexins signal transduction pathways in rat olfactory mucosa and in olfactory sensory neurons-derived cell line Odora: Multiple orexin signalling pathways , 2007, Regulatory Peptides.

[30]  M. Otis,et al.  Role of MAPKs in angiotensin II-induced steroidogenesis in rat glomerulosa cells , 2007, Molecular and Cellular Endocrinology.

[31]  R. Philp,et al.  PKC delta phosphorylates p52ShcA at Ser29 to regulate ERK activation in response to H2O2. , 2007, Cellular signalling.

[32]  E. Hull,et al.  A Role for Hypocretin (Orexin) in Male Sexual Behavior , 2007, The Journal of Neuroscience.

[33]  H. Randeva,et al.  Orexin receptors and G-protein coupling: evidence for another "promiscuous" seven transmembrane domain receptor. , 2003, Journal of pharmacological sciences.

[34]  P. Sexton,et al.  ‘Ins and outs’ of seven-transmembrane receptor signalling to ERK , 2005, Trends in Endocrinology & Metabolism.

[35]  T. Voisin,et al.  Orexin-induced apoptosis: the key role of the seven-transmembrane domain orexin type 2 receptor. , 2006, Endocrinology.

[36]  G. Mazzocchi,et al.  Human pheochromocytomas express orexin receptor type 2 gene and display an in vitro secretory response to orexins A and B. , 2001, The Journal of clinical endocrinology and metabolism.

[37]  J. Kukkonen,et al.  OX1 Orexin Receptors Couple to Adenylyl Cyclase Regulation via Multiple Mechanisms* , 2005, Journal of Biological Chemistry.

[38]  G. Mazzocchi,et al.  Orexin A stimulates cortisol secretion from human adrenocortical cells through activation of the adenylate cyclase-dependent signaling cascade. , 2001, The Journal of clinical endocrinology and metabolism.

[39]  G. Nussdorfer,et al.  Effects of orexins A and B on the secretory and proliferative activity of immature and regenerating rat adrenal glands. , 2001, Histology and histopathology.

[40]  H. Randeva,et al.  Orexins stimulate steroidogenic acute regulatory (StAR) protein expression through multiple signalling pathways , 2008 .