The subfornical organ: A novel site for prolactin action

Abstract: Prolactin (PRL) is a peptide hormone that performs over 300 biological functions, including those that require binding to prolactin receptor (PRL-R) in neurones within the central nervous system (CNS). To enter the CNS, circulating PRL must overcome the blood-brain barrier. Accordingly, areas of the brain that do not possess a blood-brain barrier, such as the subfornical organ (SFO), are optimally positioned to interact with systemic PRL. The SFO has been classically implicated in energy and fluid homeostasis … Show more

“…In addition to the amylin-expressing cells in the POA described by Dobolyi, we have also observed amylin immunoreactivity in the subfornical organ, supraoptic nucleus, and ARC of lactating rat dams (unpublished observations). The expression pattern of hypothalamic amylin-producing cells is notably similar to that of prolactin-sensitive cells(Brown et al, 2010;Kamesh et al, 2018).…”

Amylin and Leptin interaction: Role During Pregnancy, Lactation and Neonatal Development

“…In addition to the amylin-expressing cells in the POA described by Dobolyi, we have also observed amylin immunoreactivity in the subfornical organ, supraoptic nucleus, and ARC of lactating rat dams (unpublished observations). The expression pattern of hypothalamic amylin-producing cells is notably similar to that of prolactin-sensitive cells(Brown et al, 2010;Kamesh et al, 2018).…”

Amylin and Leptin interaction: Role During Pregnancy, Lactation and Neonatal Development

“…In addition, subpopulations of SFO neurons express receptors for hormones associated with regulating energy metabolism, such as amylin ( Sexton et al, 1994 ; Pulman et al, 2006 ; Smith et al, 2009 ), ghrelin ( Pulman et al, 2006 ), leptin ( Smith et al, 2009 ), cholecystokinin ( Ahmed et al, 2014 ), neuropeptide Y ( Kishi et al, 2005 ), and glucagon-like peptide 1 ( Göke et al, 1995 ), as well as molecules involved in neuroimmune interactions, such as lipopolysaccharide receptor ( Lacroix et al, 1998 ), prostaglandins ( Matsumura et al, 1990 ; Zhang and Rivest, 1999 ), interleukin 1b and interleukin 6 ( Takahashi et al, 1997 ), and TNFα ( Simpson and Ferguson, 2017 ). Moreover, SFO neurons express nitric oxide synthase ( Jurzak et al, 1994 ; Alm et al, 1997 ), relaxin receptors ( Burazin et al, 2005 ), vasopressin V1 receptor ( Phillips et al, 1988 ), atrial natriuretic peptide ( Quirion et al, 1984 ; Mendelsohn et al, 1987 ), estrogen receptor ( Somponpun et al, 2004 ), prolactin receptor ( Kamesh et al, 2018 ), galanin receptor ( O’Donnell et al, 1999 ), and somatostatin ( Patel et al, 1986 ), as well as ion channels such as TRPV1 ( Mannari et al, 2013 ), Na x ( Hiyama et al, 2004 ; Nehmeì et al, 2012 ), and classical neurotransmitter receptors such as glutamate, GABA, and acetylcholine ( McKinley et al, 2003 ). Although it remains unknown whether the expression of these molecules defines distinct neuronal subpopulations within the SFO, these findings are consistent with the involvement of this nucleus in a myriad of centrally regulated homeostatic processes, including energy metabolism and food anticipatory activity ( Pulman et al, 2006 ; Smith and Ferguson, 2010 ), thirst ( Hollis et al, 2008 ), reproduction ( Summerlee et al, 1987 ; Sunn et al, 2002 ), immune responses ( Takahashi et al, 1997 ), cardiovascular regulation ( Cancelliere and Ferguson, 2017 ; Jeong et al, 2019 ; Rossi et al, 2019 ), and systemic osmoregulation ( Oldfield et al, 1994 ).…”

Anatomical Organization of the Rat Subfornical Organ

The subfornical organ and organum vasculosum of the lamina terminalis: Critical roles in cardiovascular regulation and the control of fluid balance