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Query: UMLS:C0011849 (
diabetes
)
277,896
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Ghrelin O-acyltransferase
(
GOAT
) is an integral membrane acyltransferase responsible for catalyzing a serine-octanoylation posttranslational modification within the peptide hormone ghrelin. Ghrelin requires this octanoylation for its biological activity in stimulating appetite and in regulating other physiological pathways involved in energy balance. Blocking ghrelin acylation using
GOAT
inhibitors is a new potential avenue to treat health conditions impacted by ghrelin signaling, such as obesity and
diabetes
. Designing novel and potent
GOAT
inhibitors as potential therapeutics requires insight into the interactions between the ghrelin and octanoyl coenzyme A substrates and the
GOAT
active site. Through structure-activity investigation of ghrelin-mimetic peptide substrates and inhibitors, we have analyzed the amino acid selectivity of the enzyme as well as the functional groups involved in substrate recognition by human
GOAT
(hGOAT). This analysis reveals that hGOAT both prefers and tolerates a distinct set of chemical properties at each position within the N-terminal sequence of ghrelin and that sequence elements downstream of the ghrelin N-terminal sequence contribute to ghrelin binding to hGOAT. We also found that the hGOAT active site exhibits a marked preference for binding an eight-carbon acyl chain, which potentially explains the biological observation of ghrelin octanoylation in light of the acyl donor promiscuity reported for
GOAT
. Bioinformatics analysis, guided by our reactivity data, supports the conclusion that ghrelin is a unique substrate for hGOAT within the human proteome, providing further justification for the ghrelin-hGOAT system as a desirable drug target. By defining an array of substrate-enzyme interactions used by hGOAT to bind, recognize, and acylate ghrelin, this study yields novel insight into the character of the hGOAT active site that can serve as a guide toward the rational design of hGOAT inhibitors.
...
PMID:Structure-activity analysis of human ghrelin O-acyltransferase reveals chemical determinants of ghrelin selectivity and acyl group recognition. 2556 43
Inhibitors of
ghrelin O-acyltransferase
(
GOAT
) have untapped potential as therapeutics targeting obesity and
diabetes
. We report the first examples of
GOAT
inhibitors incorporating a triazole linkage as a biostable isosteric replacement for the ester bond in ghrelin and amide bonds in previously reported
GOAT
inhibitors. These triazole-containing inhibitors exhibit sub-micromolar inhibition of the human isoform of
GOAT
(hGOAT), and provide a foundation for rapid future chemical diversification and optimization of hGOAT inhibitors.
...
PMID:A new class of ghrelin O-acyltransferase inhibitors incorporating triazole-linked lipid mimetic groups. 2600 63
Ghrelin is a circulating peptide hormone involved in regulation of a wide array of physiological processes. As an endogenous ligand for growth hormone secretagogue receptor (GHSR1a), ghrelin is responsible for signaling involved in energy homeostasis, including appetite stimulation, glucose metabolism, insulin signaling, and adiposity. Ghrelin has also been implicated in modulation of several neurological processes. Dysregulation of ghrelin signaling is implicated in diseases related to these pathways, including obesity, type II
diabetes
, and regulation of appetite and body weight in patients with Prader-Willi syndrome. Multiple steps in the ghrelin signaling pathway are available for targeting in the development of therapeutics for these diseases. Agonists and antagonists of GHS-R1a have been widely studied and have shown varying levels of effectiveness within ghrelin-related physiological pathways. Agents targeting ghrelin directly, either through depletion of ghrelin levels in circulation or inhibitors of
ghrelin O-acyltransferase
whose action is required for ghrelin to become biologically active, are receiving increasing attention as potential therapeutic options. We discuss the approaches utilized to target ghrelin signaling and highlight the current challenges toward developing small-molecule agents as potential therapeutics for ghrelin-related diseases.
...
PMID:Progress in Small Molecule and Biologic Therapeutics Targeting Ghrelin Signaling. 2620 2
Ghrelin is an appetite-stimulating hormone secreted from stomach. Since the discovery that acylation of the serine-3 residue by
ghrelin O-acyltransferase
(
GOAT
) is essential for exerting its functions,
GOAT
has been regarded as an therapeutic target for attenuating appetite, and thus for the treatment of obesity and
diabetes
. However, contrary to the expectations,
GOAT
-knockout (KO) mice have not shown meaningful body weight reduction, under high-fat diet. Here, in this study, we sought to determine whether
GOAT
has a role in body weight regulation and glucose metabolism with a focus on dietary sucrose, because macronutrient composition of diet is important for appetite regulation. We found that peripherally administered acylated-ghrelin, but not unacylated one, stimulated sucrose consumption in a two-bottle-drinking test. The role of acylated-ghrelin in sucrose preference was further supported by the finding that
GOAT
KO mice consumed less sucrose solution compared with WT littermates. Then, we investigated the effect of dietary composition of sucrose on food intake and body weight in
GOAT
KO and WT mice. As a result, when fed on high-fat diet, food intake and body weight were similar between
GOAT
KO and WT mice. However, when fed on high-fat, high-sucrose diet,
GOAT
KO mice showed significantly reduced food intake and marked resistance to obesity, leading to amelioration of glucose metabolism. These results suggest that blockade of acylated-ghrelin production offers therapeutic potential for obesity and metabolic disorders caused by overeating of palatable food.
...
PMID:Ghrelin O-acyltransferase knockout mice show resistance to obesity when fed high-sucrose diet. 2664 50
The peptide hormone ghrelin plays a key role in regulating hunger and energy balance within the body. Ghrelin signaling presents a promising and unexploited target for development of small molecule therapeutics for treatment of obesity,
diabetes
, and other health conditions. Inhibition of
ghrelin O-acyltransferase
(
GOAT
), which catalyzes an essential octanoylation step in ghrelin maturation, offers a potential avenue for controlling ghrelin signaling. Through screening a small molecule library, we have identified a class of synthetic triterpenoids that efficiently inhibit ghrelin acylation by the human isoform of
GOAT
(hGOAT). These compounds function as covalent reversible inhibitors of hGOAT, providing the first evidence of the involvement of a nucleophilic cysteine residue in substrate acylation by a MBOAT family acyltransferase. Surprisingly, the mouse form of
GOAT
does not exhibit susceptibility to cysteine-modifying electrophiles, revealing an important distinction in the activity and behavior between these closely related
GOAT
isoforms. This study establishes these compounds as potent small molecule inhibitors of ghrelin acylation and provides a foundation for the development of novel hGOAT inhibitors as therapeutics targeting
diabetes
and obesity.
...
PMID:Synthetic Triterpenoid Inhibition of Human Ghrelin O-Acyltransferase: The Involvement of a Functionally Required Cysteine Provides Mechanistic Insight into Ghrelin Acylation. 2813 8
The octanoyl modification of ghrelin by
ghrelin O-acyltransferase
(
GOAT
) is essential for exerting its physiologic actions. Since exogenous acylated-ghrelin has shown to stimulate food intake in humans and rodents,
GOAT
has been regarded as a promising target for modulating appetite, thereby treating obesity and
diabetes
. However,
GOAT
-knockout (KO) mice have been reported to show no meaningful body weight reduction, when fed a high-fat diet. In this study, we sought to determine whether
GOAT
has a role in the regulation of body weight and food intake when fed a dietary sucrose. We found that
GOAT
KO mice showed significantly reduced food intake and marked resistance to obesity, when fed a high-fat + high-sucrose diet. In addition,
GOAT
KO mice fed a medium-chain triglyceride (MCT) + high-sucrose diet showed a marked resistance to obesity and reduced feed efficiency. These results suggest that blockade of acylated-ghrelin production offers therapeutic potential for obesity caused by overconsumption of palatable food.
...
PMID:The role of acylated-ghrelin in the regulation of sucrose intake. 2865 38
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