Understanding Sodium Chloride Co Transporters

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The discussion centers on the mechanisms of ion transport in neurons, specifically the concentrations of potassium, sodium, and chloride inside and outside the cell. Potassium is more concentrated inside, while sodium and chloride are more concentrated outside, creating a natural drive for potassium to exit and sodium and chloride to enter the cell. The Na-K ATPase pump is highlighted for its role in moving potassium into the cell and sodium out, utilizing ATP. The conversation shifts to co-transporters, particularly one that exchanges chloride for potassium. Clarification is sought on how this cotransporter functions and whether sodium is involved, with acknowledgment that various co-transporters exist, some of which utilize sodium. A textbook reference is provided for further reading on co-transporters.
thrillhouse86
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Hey All,

In my cellular & tissue biology class our lecturer was talking about neurons. Basically he was explaining that the concentrations are as follows:
Pottasium: higher inside the cell then outside.
Sodium: higher outside the cell then inside.
Chloride: higher outside the cell then inside.

Naturally there is a drive for potassium to be pumped out and for sodium & chloride to be pumped in.

He was then explaining that there are ion pumps which move against the concentration gradient. the first is Na-K ATPase - which I have a reasonable understanding of: it requires a free phosphate ion from ATP, and pumps potassium into the cell and sodium out in a ratio of 3:2.

The second was the cotransporter which he glossed over. I know that this cotransporter takes chloride out and puts potassium in. But can someone explain to me how this cotransporter works, and whether sodium is involved ?

Thanks,
Thrillhouse
 
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There are many different types of co-transporters, some of which use sodium, and some of which don't. Here's a section of a textbook that discuss co-transporters:
https://www.ncbi.nlm.nih.gov/books/NBK21687/
 

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