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Immunogenicity vs Antigenicity – What is the Difference??

Immunogenicity vs Antigenicity – What is the Difference??

In this post we will see the difference between immunogenicity and antigenicity. These two terms are related to antigen which can be confusing sometimes. In the end of the post as always, I will share my fun trick that will help you to remember the difference in super easy way. So let’s get started 🙂

Before we start with the definitions of these terms, one thing we need to understand clearly is whether it is immunogenicity or antigenicity both are properties of an antigen.

  • Immunogenicity – is the ability to induce humoral and /or cell mediated immune response. We know when B and T cells get activated by antigen, it results in effector cells and memory cells. For example, if B cell gets activated, it will differentiate into plasma B cell which secrets antibodies.

B cell + antigen = Plasma B cells (secrets antibody) + memory B cells

Such antigens are called immunogen more appropriately. These immunogens are large molecules with molecular weight at least >10,000 D and that is why they can induce the immune response.

  • Antigenicity – is the ability to combine with the final products of the humoral and/or cell mediated immune response. It is not activating the immune response rather it combines with the final products of the immune response. For example, as we just saw when B cells get activated it secrets antibodies and the antigens which have the property of antigenicity will combine to these antibodies.

Such antigens are called haptens. Haptens are small molecules with very low molecular weight and that is why they are not capable of inducing the immune response. An example of such hapten is drugs like penicillin.

Now, here is more very important point. Haptens can be immunogenic if they bind with carrier proteins because once they bind with carrier protein, it increases the molecular weight (becomes larger molecule) and thus it can induce the immune response.

Haptens + Carrier protein = Immunogen

One sentence you might come across every time you read about immunogenicity and antigenicity is : All immunogens are antigenic but all antigens are not immunogenic. This means all immunogens are antigenic meaning it can react to the end product of immune response. It makes sense right that if immunogen can induce the immune response it can also bind with the final product of immune response. But all the antigens cannot be immunogenic because we saw only high molecular weight antigen can induce the immune response right, so they are antigenic but not immunogenic.

Now it is time to share my fun trick with you guys to remember this concept easily 🙂

Imagine you want to eat pasta. You convince mom to make pasta and she makes it for you. So here, you are immunogenic because you convinced (inducing) mom to make pasta. Mom here is immune system who gives you the final product that is pasta. Now when you enjoying the yummy pasta, your brother walks in and he also eats the pasta. So brother is antigenic because he didn’t convince mom to make pasta, he is just eating the final product (like haptens only binding with final product). Now since you convinced mom to make is and you are also eating the pasta, you are both immunogenic as well antigenic but brother is only antigenic because he is just eating it and thus we say “All immunogens are antigenic but all antigens are not immunogenic”.

I hope this was helpful 🙂

Watch a video on this topic here.

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Totipotent, Pluripotent and Multipotent Stem Cells – What is the Difference?

Totipotent, Pluripotent and Multipotent Stem Cells – What is the Difference?

In this post let us talk about few terms that we frequently use when we talk about stem cells and they can be really confusing sometimes. I am talking about totipotent, pluripotent and multipotent. Like always first thing first. What are stem cells? Stem cells are undifferentiated, unspecialized cells which mean stem cells can differentiate into any type of cell present in our body and we have around 200+ cell types in our body and stem cell can give rise to any of them.

To understand these three terms we should know the categories of stem cells. Stem cells are classified under two categories, embryonic stem cells – found in embryo and adult stem cells – found in many organs. Embryonic stem cells can be either totipotent or pluripotent and adult stem cells are multipotent.

Now once let us try and understand each of the term.

  1. Totipotent – “totus” means “whole”. So the term is about whole of something. To understand totipotency let us go to fertilization process. When sperm cell fertilizes an egg it results in the zygote formation, we all know that. This zygote will then start dividing and differentiating, giving rise to whole organism. So this ability of zygote that it can differentiate into any type of cell (making a complete organism) is called totipotency. That means a zygote is a cell which is totipotent.
  2.  Pluripotent – “pluri” means “several”. Now once the zygote is formed, it will start dividing and after few divisions it will reach the blastocyst stage. At this stage it is a hollow ball which has a cluster of cells called inner cell mass and a single cell line at the periphery called trophoblast. The inner cell mass of the blastocyst has the ability to produce all the cell types of our body except for what trophoblast can form e.g., placenta, amniotic sac etc. So this means we have around 200+ cell types in our body and inner cell mass can differentiated into any of them, e.g., it can give rise to all the blood cells, cardiac muscles, neural cells. This ability of inner cell mass is called pluripotency. So inner cell mass cells are pluripotent and we wouldn’t call it totipotent because it cannot give rise to what trophoblast cells can.
  3. Multipotent – “multi” in this case means “few”. As in the classification we saw that multipotent is term related to adult stem cells. Adult stem cells are found in many organs which means they are already specified to differentiate in particular cell line, depending on which organ they are present in. To make it easier to understand let us compare it with pluripotent stem cells. Pluripotent cells, as we already establish can differentiate in any of the cell type but multipotent cell would be more specified for one or more cell lines e.g., mesenchymal stem cell differentiates to form bone, cartilage, connective tissue, adipose tissue etc. So mesenchymal stem cell is multipotent.

Hope I am able to make it clear to you guys:)

Watch a video on this topic here.