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Secondary Active Transport01:55

Secondary Active Transport

141.4K
One example of how cells use the energy contained in electrochemical gradients is demonstrated by glucose transport into cells. The ion vital to this process is sodium (Na+), which is typically present in higher concentrations extracellularly than in the cytosol. Such a concentration difference is due, in part, to the action of an enzyme “pump” embedded in the cellular membrane that actively expels Na+ from a cell. Importantly, as this pump contributes to the high concentration of...
141.4K
Secondary Active Transport01:32

Secondary Active Transport

13.9K
One example of how cells use the energy contained in electrochemical gradients is demonstrated by glucose transport into cells. The ion vital to this process is sodium (Na+), which is typically present in higher concentrations extracellularly than in the cytosol. Such a concentration difference is due, in part, to the action of an enzyme "pump" embedded in the cellular membrane that actively expels Na+ from a cell. Importantly, as this pump contributes to the high concentration of...
13.9K
Secondary Active Transport01:32

Secondary Active Transport

5.6K
5.6K
Glucose Absorption Into the Small Intestine01:26

Glucose Absorption Into the Small Intestine

37.5K
Complex carbohydrates consumed cannot be absorbed into the small intestine in their original form. First, they must be hydrolyzed to a monosaccharide form such as glucose or galactose. These monosaccharides are then transported across the intestinal membrane and into the blood via transcellular transport. The intestinal epithelial cells allow the movement of these monosaccharides with a defined 'entry' through membrane transporter proteins present on their apical membrane and...
37.5K
Glucose Transporters01:27

Glucose Transporters

28.4K
Glucose transporters facilitate the transport of glucose across the cell membrane. In addition to glucose, some glucose transporters can also aid the movement of other hexoses such as fructose, mannose, and galactose.
Facilitated diffusion-glucose transporters (GLUTs) are encoded by the solute-linked carrier (SLC) family 2, subfamily A gene family, or SLC2A. The 14 GLUT protein members are distributed into three classes:
28.4K
Membrane Proteins01:30

Membrane Proteins

31.6K
Plasma membranes have integral transmembrane proteins involved in facilitated transport. These proteins are collectively referred to as transport proteins, and they function as either channels for the material or as carriers themselves. Channel proteins have hydrophilic domains exposed to the intracellular and extracellular fluids and a hydrophilic channel through their core that provides a hydrated opening for solutes to pass through the membrane layers. Passage through the channel allows...
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Related Experiment Video

Updated: Apr 8, 2026

Glucose Uptake Measurement and Response to Insulin Stimulation in In Vitro Cultured Human Primary Myotubes
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Glucose Uptake Measurement and Response to Insulin Stimulation in In Vitro Cultured Human Primary Myotubes

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Sodium-glucose cotransport.

Søren Brandt Poulsen1, Robert A Fenton, Timo Rieg

  • 1aInterPrET Center, Department of Biomedicine, Aarhus University, Aarhus, Denmark bVA San Diego Healthcare System, San Diego cDepartment of Medicine, University of California San Diego, La Jolla, California, USA.

Current Opinion in Nephrology and Hypertension
|July 1, 2015
PubMed
Summary
This summary is machine-generated.

This review details the cellular regulation of sodium-glucose cotransporters (SGLTs) in the intestine and kidneys. Understanding these mechanisms is crucial for developing effective diabetes mellitus treatments using SGLT inhibitors.

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Extracellular Glucose Depletion as an Indirect Measure of Glucose Uptake in Cells and Tissues Ex Vivo
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Area of Science:

  • Cellular biology
  • Molecular mechanisms
  • Physiology

Background:

  • Sodium-glucose cotransporters (SGLTs) are key for glucose absorption in the small intestine (SGLT1) and reabsorption in the kidney (SGLT2 and SGLT1).
  • SGLT2 inhibitors are increasingly used for diabetes mellitus management, driving interest in SGLT regulation.

Purpose of the Study:

  • To review the cellular mechanisms regulating sodium-glucose cotransporter (SGLT) expression and activity.
  • To provide an updated overview of SGLT1 and SGLT2 regulation.

Main Methods:

  • Literature review of studies on SGLT regulation.
  • Analysis of physiological and pathophysiological conditions affecting SGLT expression.

Main Results:

  • SGLT expression is regulated by various factors including diet, age, and diabetes mellitus.
  • Multiple signaling pathways are involved in SGLT regulation, such as cAMP/PKA, PKC, GLP-2, insulin, leptin, STAT3, PI3K/Akt, MAPKs, NF-kappaB, Wnk/SPAK, and RS1.

Conclusions:

  • SGLT inhibitors are vital for glycemic control in diabetes mellitus.
  • While SGLT roles in glucose handling are defined, this review elucidates their complex mechanistic regulation.