Cell Communication: Cytokines - Online Tutor, Practice Problems & Exam Prep

This video, we're going to begin our lesson on cytokines and their role in cell communication. Cytokines is a broad term that refers to a broad group of soluble proteins. These cytokines, or this broad group of soluble proteins, are important for communication, and they serve as communication signals between cells. Cytokines are capable of regulating the intensity and duration of an immune response. They can do so by recruiting cells, for example, recruiting phagocytic cells. The cytokines themselves can also bind to a cell and induce many different cellular changes, such as movement of the cell either towards the signal or away from the signal, differentiation of the cell into a different type of cell, or it could even induce cell death. There are many different types of cytokines, and the different types of cytokines can lead to different changes, different cellular changes. So different types of cytokines can induce different effects on a cell when that cytokine is bound to the cell.

If we take a look at our image down below on the left hand side, notice once again we're showing you our map of the lesson on the scanning systems of innate immunity, which serve to detect signs of microbes and detect signs of host damage, and they serve as security cameras. We're focusing specifically on cell communication and focusing specifically on the cytokines here in this lesson video. The cytokines, again, are a broad group of many different types of soluble proteins that serve as communication signals between cells. Notice that over here, we have one cell that is producing or releasing the cytokines. These little purple circles here would represent the cytokines that are being released by one cell, and they serve as communication signals that can be detected by perhaps a neighboring cell that has the appropriate cell surface receptors. Notice that the cell surface receptors for this particular cytokine being released are these little blue receptors that you see here. The detection of a cytokine can lead to a variety of different cellular changes, perhaps movement, differentiation, or even cell death depending on the type of cytokine. But ultimately, a cellular response will be generated upon the cytokine being detected. This here concludes our brief introduction to cytokines, but as we move forward in our course we'll be able to talk more about cytokines and different types of cytokines. I'll see you all in our next video.

In this video, we're going to talk about some of the different types of cytokines, and we're only going to talk briefly about 5 of the different types of cytokines. Notice that each of these 5 bullet points that you see here in the text corresponds with the 5 different types of cytokines that we're going to talk about, and notice that each of these five sections of our image down below corresponds with the 5 different types of cytokines that we'll discuss up above. So, the first type of cytokine that we're going to talk about is called chemokines, and chemokines are cytokines that allow for a process known as chemotaxis. Chemotaxis is the process that involves the movement of a cell either towards or away from a chemical signal depending on the type of chemokine that is released and detected. These chemokines can be really important for the recruitment, or they can recruit immune cells so that those immune cells can travel to the infection sites and help eliminate the microbes found at those infection sites. If we take a look at our image down below over here on the far left-hand side, notice this is an image corresponding with these chemokines. These chemokines, once again, are important for chemotaxis, allowing cells to move towards or away from a chemical. Notice here that these chemokines are here in purple, and the chemokines can be detected by immune system cells, and then these immune system cells can migrate or travel to the site of infection, and they can, therefore, eliminate the microbes found at the site of infection.

Now the second type of cytokine that we're going to talk about is called colony-stimulating factors, and as their name implies, they're important for stimulating the growth and differentiation of immature leukocytes, or immature white blood cells, in the bone marrow. Depending on the types of colony-stimulating factors that are released and detected, that will dictate what types of leukocytes the stem cells will grow and differentiate into. If we take a look at our image down below at this next section we're focusing on the colony-stimulating factors, which are represented by these little blue circles. These blue circles, these colony-stimulating factors can be detected by, lymphoid progenitor cells or hematopoietic stem cells, and it will dictate how that cell grows and differentiates. So, depending on the types of colony-stimulating factors that are produced and detected, it will dictate what types of immune system cells or leukocytes are going to be generated.

The next type of cytokine that we're going to talk about is called interferons, which are commonly abbreviated as IFNs. These interferons or IFNs are going to be providing antiviral effects or defense against viruses to neighboring cells that detect the interferons. Later in our course, we're going to talk about the interferon response, and we'll talk a lot more details about these interferons and that response later in our course. But for now, if we take a look at this next section of our image right here, this is focusing on the interferons. These interferons are being represented by these little orange circles here, and they will be produced by one cell and detected by a neighboring cell. That neighboring cell will be able to create defense against infection. Again, defending itself from viruses, providing antiviral defenses, or microbial defenses to the neighboring cell that detects the interferons. Again, we'll be able to talk a lot more details about the interferons later in our course when we talk about the interferon response.

Then the next type of cytokine that we're going to introduce here is called the tumor necrosis factor or TNF for short. As its name implies, it was originally discovered for its primary role in killing tumor cells, but it also has alternative roles. For example, it initiates the inflammatory response or initiates inflammation. It can also initiate another process known as apoptosis, which is really just a fancy word for programmed cell death. It will only initiate apoptosis in infected cells that have been infected by a virus or some other kind of microbe. So, taking a look here at the next section of our image we have the tumor necrosis factors being represented by these little gray circles. Notice that these tumor necrosis factors upon being released, can either lead to the killing of tumor cells or they can cause inflammation or apoptosis.

Then the last type of cytokines that we're going to talk about are the interleukins, which, as noted by the underlying leuk part, imply that these are cytokines that serve as communication molecules between leukocytes. So, you can see the leuk in leukocytes and the leuk in interleukins can help remind you of that. So, notice this image on the far far right-hand side over here is focused in on these interleukins. The interleukins here are being represented by these little pink circles. Again, these interleukins can be released by one leukocyte and detected by another leukocyte to allow for leukocyte communication, and they have a wide variety of different effects.

As we move forward in our course, we'll be able to talk about some of the different types of interleukins, and we'll be able to talk about that in another video as we move forward. But for now, this here concludes our brief lesson on some of the different types of cytokines, and we'll be able to apply some of these concepts as we move forward in our course. So I'll see you all in our next video.

This video, we're going to talk about some of the different types of interleukins. And so first, we need to recall from our previous lesson video that interleukins are one of the 5 different types of cytokines that we talked about in our previous lesson videos. And so these interleukins, they are cytokines. And recall that we said that these are cytokines that serve as communication molecules between leukocytes. Now there are many different types of interleukins, which can be abbreviated with IL. And we're not going to talk about all of the different types of interleukins. But down below, we have a small table with some of the different types of interleukins, which again are abbreviated with IL. And so here we're showing you interleukin 1, interleukin 2, interleukin 4, and interleukin 6, and their functions, some of their functions. So interleukin 1 is an interleukin that promotes inflammation, fever, and it also promotes activation of macrophages and T-cells. Interleukin 2 is an interleukin that promotes rapid T-cell proliferation, allowing for T-cells to proliferate or divide. Interleukin 4 or IL-4 is important for promoting antibody immune response, which means that it's going to be important for adaptive immunity since antibodies are important for adaptive immunity. And interleukin 6, or IL-6, is important for promoting inflammation as well as for promoting fever, and proliferation of T-cells and B-cells as well. And so what you'll notice is that some of the functions of these interleukins can overlap somewhat, and they can have a variety of different types of functions as well. And so once again these are just some of the different types of interleukins, and this here concludes our brief lesson on some of the types of interleukins. So, we'll be able to apply the concepts that we've learned as we move forward in our course. So I'll see you all in our next video.