Collecting duct system

Collecting duct system
Collecting duct system
Gray1128.png
Scheme of renal tubule and its vascular supply.
Latin tubulus renalis colligens
Gray's subject #253 1223
MeSH Kidney+Collecting+Ducts

The collecting duct system of the kidney consists of a series of tubules and ducts that connect the nephrons to the ureter. It participates in electrolyte and fluid balance through reabsorption and excretion, processes regulated by the hormones aldosterone and antidiuretic hormone.

There are several components of the collecting duct system, including the connecting tubules, cortical collecting ducts, and medullary collecting ducts.

Contents

Function

The collecting duct system is the final component of the kidney to influence the body's electrolyte and fluid balance. In humans, the system accounts for 4-5% of the kidney's reabsorption of sodium and 5% of the kidney's reabsorption of water. At times of extreme dehydration, over 24% of the filtered water may be reabsorbed in the collecting duct system.

The wide variation in water reabsorption levels for the collecting duct system reflects its dependence on hormonal activation. The collecting ducts, in particular, the outer medullary and cortical collecting ducts, are largely impermeable to water without the presence of antidiuretic hormone (ADH, or vasopressin).

  • In the absence of ADH, water in the renal filtrate is left alone to enter the urine, promoting diuresis.
  • When ADH is present, aquaporins allow for the reabsorption of this water, thereby inhibiting diuresis.

The collecting duct system participates in the regulation of other electrolytes, including chloride, potassium, hydrogen ions, and bicarbonate.

Anatomy

The segments of the system are as follows:

Segment Description
connecting tubule
initial collecting tubule Before convergence of nephrons
cortical collecting ducts
medullary collecting ducts
papillary ducts, also known as duct of Bellini

Connecting tubule

With respect to the renal corpuscle, the "connecting tubule" is the most proximal part of the collecting duct system. It is adjacent to the distal convoluted tubule, the most distal segment of the renal tubule. Connecting tubules from several adjacent nephrons merge to form cortical collecting tubules, and these may join to form cortical collecting ducts. Connecting tubules of some juxtamedullary nephrons may arch upward, forming an arcade.

The connecting tubule derives from the metanephric blastema, but the rest of the system derives from the ureteric bud. Because of this, some sources group the connecting tubule as part of the nephron, rather than grouping it with the collecting duct system.

Initial collecting tubule

The initial collecting tubule is a segment with a constitution similar as the collecting duct, but before the convergence with other tubules.[1][page needed]

Cortical collecting duct

The "cortical collecting ducts" receive filtrate from multiple initial collecting tubules and descend into the renal medulla to form medullary collecting ducts.

Medullary collecting duct

"Medullary collecting ducts" are divided into outer and inner segments, the latter reaching more deeply into the medulla. The variable reabsorption of water and, depending on fluid balances and hormonal influences, the reabsorption or secretion of sodium, potassium, hydrogen and bicarbonate ion continues here. Urea passively transports out of duct here and creates 500mOsm gradient.

Outer segment

The outer segment of the medullary collecting duct follows the cortical collecting duct. It reaches the level of the renal medulla where the thick ascending limb of loop of Henle borders with the thin ascending limb of loop of Henle[2]

Inner segment

The inner segment is the part of the collecting duct system between the outer segment and the papillary ducts.

Papillary duct

The terminal portions of the medullary collecting ducts are the "papillary ducts", which end at the renal papilla and empty into a minor calyx. It is also called duct of Bellini.

Cell types

Each component of the collecting duct system contains two cell types, intercalated cells and a segment-specific cell type:

  • For the connecting tubules, this specific cell type is the connecting tubule cell
  • For the collecting ducts, it is the principal cell. The inner medullary collecting ducts contain an additional cell type, called the inner medullary collecting duct cell.

Principal cells

The principal cell mediates the collecting duct's influence on sodium and potassium balance via sodium channels and potassium channels located on the cell's apical membrane. Aldosterone determines expression of sodium channels with increased aldosterone causing increased expression of luminal sodium channels[3][verification needed]. Aldosterone increases the number of Na⁺/K⁺-ATPase pumps[4] that allow increased sodium reabsorption and potassium secretion.[5] and vasopressin determines the expression of aquaporin channels on the cell surface.[6] Together, aldosterone and vasopressin let the principal cell control the quantity of water that is reabsorbed.

Intercalated cells

Intercalated cells come in α and β varieties and participate in acid-base homeostasis.

Type of cell Secretes Reabsorbs
α-intercalated cells acid (via an apical H+-ATPase and H+/K+ exchanger) in the form of hydrogen ions bicarbonate (via band 3, a basolateral Cl-/HCO3- exchanger)[7]
β-intercalated cells bicarbonate (via pendrin a specialised apical Cl-/HCO3-) acid (via a basal H+-ATPase)

For their contribution to acid-base homeostasis, the intercalated cells play important roles in the kidney's response to acidosis and alkalosis. Damage to the α-intercalated cell's ability to secrete acid can result in distal renal tubular acidosis (RTA type I, classical RTA).

Additional images

References

  1. ^ Boron
  2. ^ Boron, p. 837.
  3. ^ Physiology at MCG 7/7ch03/7ch03p19 - "The Nephron: Collecting Duct"
  4. ^ Guyton 2006, p. 949.
  5. ^ Guyton 2006, p. 336.
  6. ^ SpringerLink - Journal Article
  7. ^ Physiology at MCG 7/7ch07/7ch07p17 - "Intercalated Cells"
  • Boron, Walter F. (2005). Medical Physiology: A Cellular and Molecular Approach (updated ed.). Philadelphia: Elsevier/Saunders. ISBN 1-4160-2328-3. 
  • Guyton, Arthur C.; John E. Hall (2006). Textbook of Medical Physiology (11 ed.). Philadelphia: Elsevier Saunders. ISBN 0721602401. 

External links


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