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Query: UMLS:C0036690 (
sepsis
)
59,461
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Most preclinical treatments for
sepsis
failed in clinical trials in part because the experimental models of
sepsis
were performed on healthy animals that do not mimic septic patients. Here, we report that experimental diabetes worsens glycemia, inflammation, and mortality in experimental
sepsis
. Diabetes increases hyperglycemia, systemic inflammation, and mortality in
sepsis
. Diabetes exacerbates serum tumor necrosis factor (TNF) levels in
sepsis
by increasing splenic TNF production. Both serum from diabetic mice and glucose increase cytokine production in splenocytes. Anti-inflammatory treatments cannot control hyperglycemia and are less effective in diabetic patients. By contrast, dopaminergic agonist type-1, fenoldopam, attenuates hyperglycemia, and systemic inflammation in diabetic septic mice by inhibiting splenic p65NF-kB phosphorylation.
Fenoldopam
inhibits TNF production in splenocytes even at high glucose concentrations and inhibits the canonical NF-kB pathway by inhibiting p65RelA and p50NF-kB1 phosphorylation without affecting the non-canonical NF-kB proteins. Treatment with fenoldopam
rescues
diabetic mice from established polymicrobial peritonitis even when the treatment is started after the onset of
sepsis
. These results suggest that dopaminergic agonists can control hyperglycemia, systemic inflammation and provide therapeutic advantages for treating diabetic patients with
sepsis
in a clinically relevant time frame.
...
PMID:Dopaminergic Control of Inflammation and Glycemia in Sepsis and Diabetes. 2978 Mar 90
Sepsis
is a leading cause of death in hospitalized patients. Many experimental treatments may have failed in clinical trials for
sepsis
, in part, because they focused on immune responses of healthy animals that did not mimic the metabolic settings of septic patients. Epidemiological studies show an association between metabolic and immune alterations and over 1/3 of septic patients are diabetic, but the mechanism linking these systems is unknown. Here, we report that metabolic fasting increased systemic inflammation and worsened survival in experimental
sepsis
. Feeding and administration of glucose in fasted mice activated the vagal tone without affecting blood pressure. Vagal stimulation attenuated hyperglycemia and serum TNF levels in sham but only hyperglycemia in splenectomized mice. Vagal stimulation induced the production of dopamine from the adrenal glands. Experimental diabetes increased hyperglycemia and systemic inflammation in experimental
sepsis
.
Fenoldopam
, a specific dopaminergic type-1 agonist, attenuated hyperglycemia and systemic inflammation in diabetic endotoxemic mice. These results indicate that glucose activates vagal control of hyperglycemia and inflammation in fasted septic mice via dopamine.
...
PMID:Glucose Activates Vagal Control of Hyperglycemia and Inflammation in Fasted Mice. 3070 Jul 38
