[Biology Class Notes] on Sodium Potassium Pump Pdf for Exam

Moving sodium and potassium ions across the cell membrane is an active transport mechanism that requires ATP hydrolysis to provide the necessary energy.

Na + /K + -ATPase is one of the enzymes involved. The enormous surplus of Na +  outside the cell and the big excess of K + ions inside the cell is maintained by this process. It accomplishes the transfer of three Na + to the cell’s exterior and two K + ions to the cell’s interior.

The separation of charge across the membrane is aided by this imbalanced charge transfer. The sodium-potassium pump contributes significantly to the action potential generated by nerve cells. 

This pump is known as a P-type ion pump because ATP interacts with the transport protein, causing it to phosphorylate and change its conformation.

Functions, Structure and Uses

Structure

The Na+-K+ pump is a P-type ATPase that resembles the H+-K+-ATPase and the sarco(endo) plasmic reticulum Ca²⁺-ATPase in structure.

The sodium-potassium pump is a transmembrane protein that is divided into three subunits. The 3 subunits are:

• α-Subunit- It is the largest subunit that contains the binding sites for Na+, K+, and ATP.

• β-Subunit- A single-spanning membrane protein having a transmembrane α-helix and a glycosylated extracellular domain.

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Function

• The sodium-potassium pump is responsible for transporting ions into and out of cells. It contributes to the maintenance of a cell’s resting potential both during and after stimulation. The cell membrane’s potential is determined by maintaining a low concentration of sodium and a high concentration of potassium within the cell.

• Many secondary active transporters (transport proteins in the membrane) are activated by Na export and are responsible for transporting amino acids, glucose, and other essential nutrients.

• The sodium-potassium pump maintains cellular osmolarity, which regulates cell volume. Osmosis regulates cell volume. This function maintains and controls the concentration of various nutrients and chemical substances.

• Extracellular signaling is also carried out with the help of sodium-potassium ATPase.

• The sodium and potassium pumps govern the intrinsic activity of neurons, therefore influencing the activity state.

Uses

The function of the Na K ATPase can be used to design and administer medications to human physiology. It means that specific medication molecules can be directed to specific organs to treat specific diseases.

More About the Topic

The tissues are made of characteristic cells that maintain their internal physiology in different ways. One of the most fascinating ways to maintain the concentration of potassium and sodium ions inside a cell is the sodium potassium pump. It is a protein present in many cells that maintain the Na-K balance between the cell and body fluids. In this section, we will discuss what the sodium potassium ATPase pump is and its functions elaborately.

What is Sodium Potassium Atpase?

Sodium potassium pump or Na K ATPase is a protein-based enzyme present in the cell membrane of the animals that manages and controls the concentration of sodium and potassium inside the cell. The full name of this electrogenic transmembrane ATPase is Sodium Potassium Adenosine Triphosphate. It has different functions in the cell physiology of animals.

As per the sodium potassium pump definition, this is a protein enzyme present in the cell membrane. It utilizes ATP as energy currency to transport Na and K ions. For every ATP molecule, it exports 3 Na+ ions and imports 2 K+ ions. It concludes that a single positively charged ion is excessively exported in every pump cycle. This pump cycle was discovered by Jens Christian Skou, a Nobel laureate, in the year 1957.

Due to his discovery, the movement of the ions inside and outside the cells became absolutely clear. In fact, the excitation process of nerve cells also depends on the action of these pumps present in the cell membrane.

Mechanism of Sodium Potassium Pump

As per the structure of this electrogenic transmembrane ATPase, it has more affinity towards Na+. This is why it binds with 3 Na+ ions inside the cell. Due to phosphorylation, ADP is released and a change occurs in the pump. This change exposes Na+ ions in the extracellular space. ADP has more affinity towards K+ ions. When 2 K+ ions are bound with the ADP, dephosphorylation occurs releasing these ions inside the cells. It results in the formation of ATP thus repeating the process. This is how the sodium potassium ATPase pump works in the cell membrane controlling the ionic concentration.

Functions of Sodium Potassium Pump

As per cell physiology, the sodium potassium pump is of four different types in mammals. They all are isoforms but have unique tissue expressions and properties. The entire family is a part of P-Type ATPase. Here is a list of the sodium potassium pump function in the animal cells.

• Resting Potential: Sodium potassium pump transports ions in and out of the cells. It helps in maintaining the resting potential of a cell during and after its excitation. The potential of the cell membrane is decided by maintaining a low concentration of Na and a high concentration of K inside the cell.

         

• Reversal Potential: Despite having the same charge, Na+ and K+ have differences in equilibrium potential in extracellular and intracellular concentrations. Sodium potassium pump transports ions inside and outside maintaining equilibrium for the proper functioning of different cells.

• Transport: The Na exportation drives many secondary active transporters (transport proteins in the membrane) which are responsible for the transportation of amino acids, glucose, and important nutrients.

• Cell Volume Control: The sodium potassium pump mechanism also helps in regulating the cell volume by maintaining cellular osmolarity. It means that the cell volume is regulated with the help of osmosis. Proper concentration of different nutrients and other organic compounds are maintained and controlled using this function.

How Can it be Used for Drug Administration?

The Na K ATPase function can be used for designing and administering drugs to human physiology. The definition and structure of these pumps differ. It means that specific drug molecules can be targeted to particular organs for the remedy of certain ailments. For instance, cardiac glycosides target the NA-K pump present in the cells of the heart muscles.

Similarly, muscular contraction depends on the Ca++ ions. It is different from the sodium potassium pump but has similar functions. Specific drug molecules are designed to target muscles for proper acceptance and action.

Conclusion

From the above section, we learned that every animal cell has different types of Na K pumps that connect the intracellular and extracellular fluids. The osmotic regulation of a cell depends on these pumps.

The sodium potassium pump ratio, as mentioned above, is the prime function of this protein enzyme present in the cell membrane of different animal cells. Its functions are quite important for cellular physiology and the functioning of the tissues. By studying the structure and mode of operation of this pump, many pharmacological compounds can be designed to target specific tissues and organs for remedies.