Question:

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Researchers are investigating the relationship between glucose transport proteins and insulin concentration in different types of tissues. Experiments in which cells are taken from various tissue samples and exposed to increasing concentrations of insulin are performed. The number of surface glucose transporters are then measured. The results from 2 cell samples are plotted on the graphs below.

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Which of the following cell types are most likely represented in cell samples A and B, respectively?

Cerebral neurons

Hepatocytes

Intestinal epithelial cells

Pancreatic beta cells

Renal tubular cells

Hepatocytes

Renal tubular cells

Skeletal myocytes

Adipocytes

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Explanation:

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The glucose transport proteins (GLUTs) are a family of transmembrane proteins responsible for transport of glucose across cell membranes. Of these, only GLUT-4 is responsive to insulin. In the absence of insulin, GLUT-4 is sequestered in the cytoplasm and the cells become less permeable to glucose. However, increasing insulin concentrations induce translocation of GLUT-4 to the plasma membrane, facilitating glucose transport into the cell (sample B). GLUT-4 is predominantly expressed in skeletal muscle cells and adipocytes, where it facilitates insulin-mediated glucose uptake and storage.

In contrast to GLUT-4, GLUTs 1, 2, 3, and 5 are always present on the plasma membrane, regardless of insulin levels, and are responsible for insulin-independent glucose transport (sample A).

GLUT-1 contributes to basal glucose transport in erythrocytes and at the blood-brain barrier.
GLUT-2 is present in hepatocytes, pancreatic beta cells, and at the basolateral membrane of renal tubules and small intestinal mucosa. It plays a role in absorption of dietary glucose, reabsorption of glucose from renal tubules, hepatic glucose regulation, and sensitivity of beta cells to circulating glucose.
GLUT-3 is involved in placental and neuronal glucose transport.
GLUT-5 is a fructose transporter found in spermatocytes and the gastrointestinal tract.

(Choices A, B, and C) Glucose uptake by hepatocytes, pancreatic beta cells, neurons, and enterocytes primarily involves insulin-independent glucose transporters and does not substantially change with insulin concentration.

(Choice E) Both skeletal myocytes and adipocytes express GLUT-4 and would show increased glucose uptake in response to insulin.

Educational objective:
Glucose transport protein (GLUT)-4 is an insulin-sensitive glucose transporter expressed in skeletal muscle cells and adipocytes that translocates to the plasma membrane in response to increasing insulin levels. In contrast, GLUT-1, 2, 3, and 5 are always present on the plasma membrane and constitutively transport glucose in an insulin-independent manner.