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1. Urocortin III (Human) is identical with
Stresscopin (3-40)-NH2 (Human).
2. Urocortin II (Urocortin Related Peptide, URP) (Human) is
identical with Stresscopin Related Peptide (6-43)-NH2
(Human).
References:
Lewis, K. et al. Proc. Natl. Acad. Sci. USA 98, 7570-7575,
2001 (June 19);
Hsu, S.Y. & Hsueh, A.J.W. Nature Medicine, 7 605-611,
2001
Review by Jun Yang on June 21, 2001
Urocortin reduces food intake and gastric emptying in lean
and ob/ob obese mice
BACKGROUND & AIMS: Gastric emptying plays an important
role in regulating food intake. This study was designed to
investigate whether intraperitoneally injected urocortin reduces
gastric emptying, feeding, and body weight in lean and ob/ob
obese mice. METHODS: Food intake and body weight were measured
after intraperitoneal injections of one of the following:
urocortin, deamidated form of urocortin (urocortin OH), corticotropin-releasing
factor (CRF), CRF6-33, cholecystokinin octapeptide (CCK-8),
and leptin in 16-hour food-deprived animals. Gastric emptying
was assessed 2, 4, or 8 hours after intraperitoneal injection.
Repeated injections of urocortin were continued for 5 days
in ob/ob mice. RESULTS: Urocortin (0.003-3 nmol) dose-dependently
and potently decreased food intake and body weight gain in
lean mice. The ranking order of potency was urocortin >
urocortin OH >/= CRF > CCK-8 > CRF6-33 > leptin.
Gastric emptying was also potently reduced by urocortin with
a similar ranking order of potency of urocortin > CRF >
urocortin OH > CCK-8. Simultaneous administration of urocortin
and CRF receptor antagonist, alpha-helical CRF9-41, blocked
the effects of urocortin. Urocortin reduced food intake and
body weight gain, as well as the rate of gastric emptying,
in ob/ob mice, which was significantly faster than that of
lean mice. Five daily injections of urocortin significantly
lowered body weight and improved glycemic control in ob/ob
mice. CONCLUSIONS: The urocortin-induced decrease in food
intake and body weight in lean and ob/ob mice is closely related
to gastric emptying and opens new possibilities for the treatment
of obesity.
Asakawa A, Inui A, Ueno N, Makino S,
Fujino MA, Kasuga M. Gastroenterology 1999 Jun;116(6):1287-92
Urocortin reduces oxygen
consumption in lean and ob/ob mice
A vast number of intensive studies have been
undertaken to clarify the mechanisms of energy balance. This
study was undertaken to investigate the effect of urocortin,
an endogenous ligand for corticotropin-releasing factor (CRF)
type 2 receptor, on oxygen consumption in lean and genetically
obese (ob/ob) mice. Oxygen consumption was measured after
intraperitoneal injection in unrestrained mice at an environmental
temperature of 22 degrees C of one of the following: urocortin,
deamidated form of urocortin (urocortin OH) or CRF. The intraperitoneal
injection of urocortin (0.3-3 nmol) dose-dependently decreased
oxygen consumption in lean mice. The inhibitory effect induced
by urocortin was more potent than that induced by CRF or urocortin
OH. The ranking potency was urocortin > urocortin OH >
CRF. Urocortin significantly reduced oxygen consumption in
ob/ob mice as well as in lean mice. These results suggest
that urocortin decreases oxygen consumption, and that the
CRF type 2 receptor may influence energy balance in lean and
ob/ob mice.
Asakawa A, Inui A, Ueno N, Makino S,
Fujimiya M, Fujino MA, Kasuga M. Int J Mol Med 2001 May;7(5):539-41
Rat brain tissue was stained with Urocortin Antibody (catalog
No.: H-019-06)
| Rat brain tissue was stained
with Urocortin Antibody (catalog No.: H-019-06) |
|
Human Urocortin II (Urocortin Related Peptide, URP) is
identical with Stresscopin Related Peptide (SRP) (6-43)-NH2
(Human).
Human Urocortin III is identical with human Stresscopin (3-40)-NH2
References:
Lewis, K. et al. Proc. Natl. Acad. Sci. USA 98, 7570-7575,
2001 (June 19)
Hsu, S.Y. & Hsueh, A.J.W. Nature Medicine, 7 605-611,
2001
Review by Jun Yang on June 21, 2001
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Amino Acid Sequence of Prepro-Urocortin II (Mouse)
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 |
| |
| 1 |
|
M |
T |
R |
W |
A |
L |
V |
V |
F |
V |
V |
L |
M |
L |
D |
R |
I |
L |
F |
V |
|
20 |
| 21 |
|
P |
G |
T |
P |
I |
P |
T |
F |
Q |
L |
L |
P |
Q |
N |
S |
L |
E |
T |
T |
P |
|
40 |
| 41 |
|
S |
S |
V |
T |
S |
E |
S |
S |
S |
G |
T |
T |
T |
G |
P |
S |
A |
S |
w |
S |
|
60 |
| 61 |
|
N |
S |
K |
A |
S |
P |
Y |
L |
D |
T |
R |
V |
I |
L |
S |
L |
D |
V |
P |
I |
|
80 |
| 81 |
|
G |
L |
L |
R |
I |
L |
L |
E |
Q |
A |
R |
Y |
K |
A |
A |
R |
N |
Q |
A |
A |
|
100 |
| 101 |
|
T |
N |
A |
Q |
I |
L |
A |
H |
V |
G |
R |
R |
|
|
|
|
|
|
|
|
|
112 |
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 |
 |
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Human Urocortin II, a Selective Agonist for
the Type 2 Corticotropin-Releasing Factor Receptor, Decreases
Feeding and Drinking in the Rat
Corticotropin-releasing factor (CRF) has been hypothesized
to modulate consummatory behavior through the Type 2 CRF (CRF(2))
receptor. However, behavioral functions subserved by the CRF(2)
receptor remain poorly understood. Recently, human urocortin
II (hUcn II), a selective CRF(2) receptor agonist, was identified.
To study the effects of this neuropeptide on ingestive behavior,
we examined the effects of centrally infused hUcn II (i.c.v.
0, 0.01, 0.1, 1.0, 10.0 &mgr;g) on the microstructure
of nose-poke responding for food and water in nondeprived,
male rats. Malaise-inducing properties of the peptide were
monitored using conditioned taste aversion (CTA) testing.
To identify potential sites of action, central induction of
Fos protein expression was examined. hUcn II dose dependently
reduced the quantity and duration of responding for food and
water at doses lower (0.01-1.0 &mgr;g) than that forming
a CTA (10 &mgr;g). Effects were most evident during hours
4 to 6 of the dark cycle. Meal pattern analysis showed that
hUcn II potently (0.1 &mgr;g) increased the satiating
value of food. Rats ate and drank smaller and shorter meals
without changing meal frequency. Rats also ate more slowly.
hUcn II induced Fos in regions involved in visceral sensory
processing and autonomic/neuroendocrine regulation and resembling
those activated by appetite suppressants. hUcn II is a promising
neuropeptide for investigating the role of the CRF(2) receptor
in ingestive behavior.
Inoue K,et al. J Pharmacol Exp Ther
2003 Apr 1;305(1):385-393
Human urocortin II, a new CRF-related peptide,
displays selective CRF(2)-mediated action on gastric transit
in rats
Human urocortin (hUcn) II is a new member of the corticotropin-releasing
factor (CRF) family that selectively binds to the CRF(2) receptor.
We investigated the CRF receptors involved in mediating the
effects of hUcn II and human/rat CRF (h/rCRF) on gut transit.
Gastric emptying, 4 h after a solid meal, and distal colonic
transit (bead expulsion time) were monitored simultaneously
in conscious rats. CRF antagonists were given subcutaneously
30 min before intravenous injection of peptides or partial
restraint (for 90 min). hUcn II (3 or 10 microg/kg i.v.) inhibited
gastric emptying (by 45% and 55%, respectively) and did not
influence distal colonic transit. The CRF(2) peptide antagonist
astressin(2)-B blocked hUcn II action. h/rCRF, rat Ucn, and
restraint delayed gastric emptying while accelerating distal
colonic transit. The gastric response to intravenous h/rCRF
and restraint was blocked by the CRF(2) antagonist but not
by the CRF(1) antagonist CP-154,526, whereas the colonic response
was blocked only by CP-154,526. None of the CRF antagonists
influenced postprandial gut transit. These data show that
intravenous h/rCRF and restraint stress-induced delayed gastric
emptying involve CRF(2) whereas stimulation of distal colonic
transit involves CRF(1). The distinct profile of hUcn II,
only on gastric transit, is linked to its CRF(2) selectivity.
Million M, et al. Am J Physiol Gastrointest
Liver Physiol 2002 Jan;282(1):G34-40
Differential actions of peripheral corticotropin-releasing
factor (CRF), urocortin II, and urocortin III on gastric emptying
and colonic transit in mice: role of CRF receptor subtypes
1 and 2
Peripheral CRF inhibits gastric emptying and stimulates colonic
motor function in rats. We investigated the role of CRF(1)
and CRF(2) receptors in i.p. CRF-induced alterations of gut
transit in conscious mice using selective CRF(1) and CRF(2)
ligands injected i.p. Gastric emptying 2 h after ingestion
of a solid chow meal and colonic transit (time to expel a
bead inserted into the distal colon) were determined simultaneously.
Rat/human (r/h)CRF, which has CRF(1) > CRF(2) binding affinity,
decreased distal colonic transit time at lower doses (6-12
microg/kg) than those inhibiting gastric emptying (20-60 microg/kg).
Ovine CRF, a preferential CRF(1) receptor agonist (6-60 microg/kg),
reduced significantly the colonic transit time without altering
gastric emptying, whereas the selective CRF(2) receptor agonists
mouse urocortin II (20-60 microg/kg) and urocortin III (120
microg/kg) inhibited significantly gastric emptying without
modifying colonic transit. The CRF(1)/CRF(2) receptor antagonist,
astressin (30-120 microg/kg), dose dependently prevented r/hCRF
(20 microg/kg)-induced inhibition of gastric emptying and
reduction of colonic transit time. The selective CRF(1) receptor
antagonists, NBI-27914 (C(18)H(20)Cl(4)N(4)C(7)H(8)O(3)S)
and CP-154,526 (butyl-[2,5-dimethyl-7-(2,4,6-trimethylphenyl)-7H-pyrrolo[2,3-d]pyrimidin-4-yl]e
thylamine) (5-30 mg/kg), dose dependently blocked r/hCRF action
on the colon without influencing the gastric response, whereas
the CRF(2) receptor antagonist, antisauvagine-30 (30-100 microg/kg),
dose dependently abolished r/hCRF-induced delayed gastric
emptying and had no effect on colonic response. These data
show that i.p. r/hCRF-induced opposite actions on upper and
lower gut transit in conscious mice are mediated by different
CRF receptor subtypes: the activation of CRF(1) receptors
stimulates colonic propulsive activity, whereas activation
of CRF(2) receptors inhibits gastric emptying.
Martinez V,et al. J Pharmacol Exp Ther
2002 May;301(2):611-7
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