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Glucose in the Urine

Recall that kidney function can be broken down into four steps:

  1. Filtration
  2. Reabsorption
  3. Secretion
  4. Excretion

About 180 liters of plasma is filtered through the kidney per day. This equates to the glomerular filtration rate. During the filtration process, large quantities of water, electrolytes, and other small molecules pass from the circulatory vasculature (renal arterioles) into the lumen of the glomerulus (Bowman’s capsule). As this filtrate passes through the nephron, a great deal of water and other material is reabsorbed. This functions to concentrate the nitrogenous waste and maintain homeostasis.

Material is also actively secreted depending on conditions in the body such as pH and potassium concentrations. The final concentrated urine passes through the ureters, into the bladder, and is excreted. D-glucose is filtered and almost completely reabsorbed under normal conditions.

Glucose is a polar molecule and dissolves in water and blood plasma. It easily passes through the glomerular basement membrane. It is almost completely reabsorbed from the tubules by active transport molecules found in the proximal convoluted tubule (PCT) called sodium-coupled glucose cotransporters (SGLT).

Recall that a cotransporter moves two molecules: one with its electrochemical gradient and one against its electrochemical gradient. In this case, sodium is moving down its gradient into the cell while glucose is also moving into the cell but against its electrochemical gradient. These transporters are found on the luminal side of the epithelial cells that line the PCT.

Intracellular sodium concentration is maintained at low levels by an ATP-dependent sodium/potassium pump that actively transports potassium into the cell and sodium out of the cell and into the bloodstream. These pumps are found on the basolateral side of the PCT cells.

There are two types of SGLT:

SGLT2 is found in the first part of PCT (S1 and S2) and are low-affinity, high capacity transport proteins and are responsible for 90 % of reabsorption.

SGLT1 are high-affinity, low capacity transport proteins, responsible for 10 % of glucose reabsorption and are found in the distal part of the PCT where glucose concentrations are much lower. Recall that affinity is a term that characterizes the interaction between a ligand and its receptor. A high-affinity system requires only a lower concentration to fill all binding sites while a low-affinity system requires a higher concentration. Therefore, SGLT1 (high-affinity transporters) are active even with a low concentration of filtrate glucose.

Once inside the cell, the glucose is then passively transported into the bloodstream through the glucose transporter (GLUT)2 found on the basolateral border of the epithelial cells that line the PCT.

Transporter Location on cell Character of the transporter Location in nephron
SGLT1 Luminal High affinity, low concentration cotransporter S1, S2 of PCT
SGLT2 Luminal Low affinity, high concentration cotransporter S1, S2 of PCT
GLUT2 Basolateral Bidirectional transporter S1, S2, S3 of PCT
ATP-Na/K Pump Basolateral Active transport S1, S2, S3 of PCT
Glucose transport

“Glucose transport” Image created by Lecturio

SGLT1 and SLGT2 will absorb filtrate glucose until all of their receptor sites are full. This is called the transport maximum for glucose (TmG). It corresponds to a plasma glucose level of about 200mg/dL. At this point extra glucose will pass into the bladder and will be excreted (glycosuria). Each nephron may reach TmG at different times due to a non-uniform distribution of transporters; therefore, glycosuria may be detected before the tubular maximum is reached. This is called splay.

Disease Correlation

SGLT2 inhibitors are a relatively new type of medication to treat diabetes type 2. The gliflozin family of medication prevents glucose reabsorption in the PCT, allowing the excretion of more glucose and lowering plasma glucose levels. Dapagliflozin is the oldest member of this class of drugs. Side effects include increased risk for ketoacidosis, urinary tract infection, hypoglycemia, and candida infection.

Glucose Homeostasis in the Kidney

The kidney can be considered two organs when considering glucose homeostasis. The renal medulla consumes a great deal of glucose. It has the enzymes to store glucose as glycogen and the glycolytic enzymes necessary to use those stores. The renal cortex has the glucose-6-phosphatase, an enzyme that is necessary to release glucose into the bloodstream. The renal cortex works with the liver to regulate glucose hemostasis. The cortex does not have the correct enzymes to store and use glycogen.

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