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Physiology of renal glucose handling via SGLT1, SGLT2 and GLUT2
by
Loo, Donald D F
, Ghezzi, Chiara
, Wright, Ernest M
in
Diabetes
/ Diabetes mellitus
/ Diabetes mellitus (non-insulin dependent)
/ Excretion
/ Glucose
/ Glucose transporter
/ Homeostasis
/ Intravenous administration
/ Kidneys
/ Membrane proteins
/ Na+/glucose cotransporter
/ Physiology
/ Reabsorption
/ Renal function
/ Sodium
/ Urine
2018
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Physiology of renal glucose handling via SGLT1, SGLT2 and GLUT2
by
Loo, Donald D F
, Ghezzi, Chiara
, Wright, Ernest M
in
Diabetes
/ Diabetes mellitus
/ Diabetes mellitus (non-insulin dependent)
/ Excretion
/ Glucose
/ Glucose transporter
/ Homeostasis
/ Intravenous administration
/ Kidneys
/ Membrane proteins
/ Na+/glucose cotransporter
/ Physiology
/ Reabsorption
/ Renal function
/ Sodium
/ Urine
2018
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While trying to remove the title from your shelf something went wrong :( Kindly try again later!
Do you wish to request the book?
Physiology of renal glucose handling via SGLT1, SGLT2 and GLUT2
by
Loo, Donald D F
, Ghezzi, Chiara
, Wright, Ernest M
in
Diabetes
/ Diabetes mellitus
/ Diabetes mellitus (non-insulin dependent)
/ Excretion
/ Glucose
/ Glucose transporter
/ Homeostasis
/ Intravenous administration
/ Kidneys
/ Membrane proteins
/ Na+/glucose cotransporter
/ Physiology
/ Reabsorption
/ Renal function
/ Sodium
/ Urine
2018
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Physiology of renal glucose handling via SGLT1, SGLT2 and GLUT2
Journal Article
Physiology of renal glucose handling via SGLT1, SGLT2 and GLUT2
2018
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Overview
The concentration of glucose in plasma is held within narrow limits (4–10 mmol/l), primarily to ensure fuel supply to the brain. Kidneys play a role in glucose homeostasis in the body by ensuring that glucose is not lost in the urine. Three membrane proteins are responsible for glucose reabsorption from the glomerular filtrate in the proximal tubule: sodium−glucose cotransporters SGLT1 and SGLT2, in the apical membrane, and GLUT2, a uniporter in the basolateral membrane. ‘Knockout’ of these transporters in mice and men results in the excretion of filtered glucose in the urine. In humans, intravenous injection of the plant glucoside phlorizin also results in excretion of the full filtered glucose load. This outcome and the finding that, in an animal model, phlorizin reversed the symptoms of diabetes, has stimulated the development and successful introduction of SGLT2 inhibitors, gliflozins, in the treatment of type 2 diabetes mellitus. Here we summarise the current state of our knowledge about the physiology of renal glucose handling and provide background to the development of SGLT2 inhibitors for type 2 diabetes treatment.
Publisher
Springer Nature B.V
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