A receptor is a protein molecule in a cell or on the surface of a cell to which a substance can bind, causing a change in the activity of that particular cell.
This article explains how cell receptors work, their role in the human body, and their significance.
Function
Here’s one way to think about it: A receptor is like a lock, while the substance binding to it is the key. Thus, only substances that fit the “lock” can bind to a particular receptor.
Substances binding to receptors on cells can tell the cell to:
Produce a particular substance: Such as a hormone that makes you feel full after a big meal Divide faster: Maybe causing you to add muscle cells following exercise Die: Chemotherapy drugs binding to cancer cell receptors can signal those cancer cells to self-destruct, for example
Types
Cells’ receptors are very specialized, and there are, in fact, hundreds of different types of receptors. Different types respond to different things, such as:
Chemical substances, such as hormones, drugs, or allergens Pressure Light (your body produces vitamin D, the “sunshine hormone,” when sunlight hits your skin)
In some cases, if a cell doesn’t have the correct receptor for a particular substance, then that substance won’t affect the cell.
For example, leptin is the hormone that causes you to feel full and satiated following a big meal. Cells that don’t have receptors for leptin won’t respond to that hormone, but those that do will respond, inhibiting the release of other hormones that make you want to eat more.
Significance
Receptors can play both good and bad roles in the human body. In some circumstances, they may contribute to damage caused by certain diseases. In others, they can work with medication to help control certain health conditions.
Here are a few examples.
Celiac Disease
In celiac disease, receptors on specific immune system cells serve as the locks, while fragments of the gluten protein serve as the keys. When you consume gluten, this interaction triggers celiac’s characteristic intestinal damage known as villous atrophy.
Autoimmune Disease
Certain cellular receptors appear to play a role in causing damage in other autoimmune diseases too. That’s because, in an autoimmune disease (like celiac), your immune system mistakenly turns on and damages some of your body’s own cells. The immune system targets them when receptors recognize specific proteins on the cells.
High Blood Pressure
But in some cases, you can use the behavior of cell receptors to support treatment. For instance, in high blood pressure, drugs can fit like keys into the cellular receptors that otherwise would attach to a hormone that raises blood pressure.
These drugs are known as angiotensin blockers because they block the blood pressure-raising hormone angiotensin. As a result, they can help control your blood pressure by preventing angiotensin from signaling cells to raise blood pressure.
Summary
A cell receptor is a protein molecule to which substances like hormones, drugs, and antigens can bind. This allows them to change the activity of a cell.
There are hundreds of types of receptors, all of which respond to different things, such as chemicals, pressure, or light.
Receptors can be responsible for some of the damage that occurs in autoimmune diseases. But, on the other hand, they can also play a role in helping medication bind to a cell to treat some conditions.
