Cell Culture - Online Tutor, Practice Problems & Exam Prep

Hi. In this video, I'm going to be talking to you about cell culture. So what cell culture is the process of growing cells in a laboratory setting. This began in 1907, and there are really two types of cultures that cells can be grown in. The first is called a primary culture, and these are cells directly taken from tissue. So you have some type of tissue, skin tissue, a kidney, a brain, whatever. And you begin to dissect that tissue. You take apart the extracellular matrix. You cut the tissue into extremely thin slices, and then you can extract those cells from those thin slices and actually grow them in a laboratory. Now, you can imagine all of that processing is really harsh on these cells that aren't used to stuff like that. And so these cells, although very useful because they come directly out of individuals, are hard to work with because they don't live that long, and they're really difficult to keep alive in a culture setting. So what researchers have done is created these secondary cultures, and these are cells that are derived from other culture cells. So if you can keep these primary culture tissue cells alive long enough so that they can divide, then you can continue dividing those cultures if they're properly processed to create these cell lines. Now cell lines are cells that have undergone some type of genetic modification either by themselves or something a scientist has done to them. And this allows them to grow indefinitely. So can you think of maybe diseases for instance that cell lines could come from? Can you think of any disease that is the result of cells growing indefinitely? Right. This sounds exactly like cancer. Right? So cancer is, you know, just uncontrolled cell growth essentially and division. And so cell lines are often derived from cancer cells, or scientists have taken cells that aren't cancer cells and mutated them so that they can grow indefinitely. And generally, if you were to put these cells into a special type of laboratory mice, they would typically grow tumors. But, although these can be grown indefinitely, they are cells, and so cells don't live forever. Right? So they usually die after about 25 to 40 divisions. And you say okay well, then why do you put that much time into creating these cell lines? Well, the reason is that when you have a cell line and it divides, and it divides a couple of times, then you have a ton of cells. I mean, you cannot deplete a flask of cells after just a couple of divisions. And so, you take those early dividing cells, the cells that only have a couple of divisions, and you can freeze them. You can freeze them at minus 80 degrees Celsius, you can freeze them in liquid nitrogen, and you can keep them essentially in liquid nitrogen forever. And when you thaw those cells anytime a year later, 10 years later, or 50 years later, they will just start dividing as they did before. So cell lines are super useful because you can have these cell lines that you freeze and then just use when you need them. But growing cells require because cells require a lot of care when grown in a laboratory. They have to have nutrients they would normally get in the body. Right? And so we provide that through some type of media solution. They have to be grown usually on some type of flat dish or in a 3D environment that has like a fake extracellular matrix in it. And they also have to be maintained at body temperature and with certain gas exchanges. You don't really think about it. We breathe in oxygen and exhale carbon dioxide. Well, the cells need those gases. So whenever you're growing these cells in a laboratory, you have to facilitate that gas process. But it's all worth it. All the care that they take is entirely worth it because, this provides a single cell population to work with, which makes doing it much easier. And it's so convenient, you know, you don't need a hundred million individuals, you just need a hundred million cells. And that can be grown in a single dish, and you can have so much more than that grown in a dish, and it's so easy to do, so it's really convenient. But one of the confusing things about it is that research using cell culture is called different things depending on who you talk to. So the majority of people call cell culture in vitro research because this means that it's not happening in a living organism. I mean, we're not dealing with rats, we're not dealing with mice, we're not dealing with humans. So this is in vitro because it's happening essentially in a plastic dish. But if you talk to some people, especially biochemists who like to do things in tubes, biochemists typically call this in vivo because cells are living. So the experiments you do with cells are in living cells, so they call it in vivo. Now, which one should you call it? I mean, I can give you my preference. My preference is in vitro, but you should probably ask your professor or go with what your book does because you don't want to miss a question or something just because of this misunderstanding. So let me back out of the way. Typically, when you grow cells in culture, you grow them in some kind of dishes like these. And you can see this red stuff here is the media. So that's providing the nutrients to the cells, which are growing, you know, on this very bottom plastic layer of this dish. Now, if you were to zoom in, what the cells would look like is this. Now, these have been stained with something that makes their nucleus blue, so they wouldn't normally look blue. If you look at the rest of the cells, so this outside part here, outside of the blue, this is what cells really look like when you look at them under a microscope. They are transparent, you can see some structures, but I mean, unless you really know what you're looking for, you're not going to know what these are. But this is what cells look like, and scientists use these cultures to study a lot of different cellular processes. So with that, let's now move on.