Cell Cycle Regulators

You have probably heard before that some cancer cells might arise from activating mutations in enzymes known as cyclin-dependent kinases (Cdks). Cdks play a significant role in regulating the cell cycle. But how do they do it? Let's explore the world of cell cycle regulators!

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Table of contents

    Regulation of the eukaryotic cell cycle

    First, let's define what the cell cycle is.

    The cell cycle is defined as the sequence of events that results in cell proliferation.

    In eukaryotes, the cell cycle involves two phases: interphase and mitosis.

    Let's take a look at interphase. Here, the cell goes through all the necessary preparation for cell division. Interphase is divided into three stages: G1 phase, S phase and G2 phase. The first stage of interphase is the G1 phase or the first gap phase. In this stage, the cell grows and prepares for DNA replication. In addition, it is the longest phase of the cell cycle.

    The S phase is the stage where DNA replication occurs. DNA replication can be divided into three steps: initiation, elongation and termination.

    Step 1: Initiation - In this step, a pre-replication complex look for the origins of replication, which are specific nucleotide sequences along the DNA strand. Unlike prokaryotes, eukaryotes have multiple origins of replication.

    Then, the helicase enzyme binds to the origins of replication and unwinds/separates the DNA strand, creating a replication fork. Both DNA strands will then be used as a template for synthesizing a new, complementary strand. In order to prevent single-stranded DNA from becoming unstable, single-stranded DNA binding proteins bind to each strand.

    As DNA helicase unwinds the DNA strand, DNA topoisomerase works ahead to the DNA helicase to prevent supercoiling downstream of the replication fork.

    Basically, they help loosen up the tension in DNA coils.

    Step 2: Elongation - Now that we have the DNA strands ready for synthesis, it's time to recruit the enzyme RNA primase. Its job is to randomly synthesize small lengths of RNA, called RNA primers. Luckily, one of those RNA primers will be complementary to the newly opened DNA strand and will bind to it!

    Then, DNA polymerase binds to this new double-stranded location, and starts adding complementary nucleotides to the template strand. As DNA polymerase synthesizes DNA in a 3' to 5' direction, the complementary strand is formed in the opposite direction (5' - 3'). This newly formed DNA strand is called the leading strand.

    Now for the other DNA strand, DNA replication does not go as smooth. In this case, the RNA primase creates many RNA primers that bind to different spots along the length of the DNA strand, basically offering DNA polymerase many 3' ends for it to bind to and add nucleotides! These growing fragments of DNA are called Okazaki fragments.

    However, DNA polymerase cannot join two Okazaki fragments together. So, it is a good thing that we have an enzyme to do this - DNA ligase! After DNA ligase joins the Okazaki fragments, we get a finished strand of DNA called the lagging strand.

    Step 3: Termination - When DNA polymerase reaches a region of DNA where there are repeating sequences of TTAGGG (also known as the telomere region of the chromosome), then DNA polymerase knows it is time to leave!

    The third stage of interphase is the G2 phase, or gap two phase. In this phase, organelles are duplicated, and the cells prepares for mitosis, or the M phase.

    • Mitosis is referred to as the division of a cell into two identical daughter cells.

    Proteins that regulate cell cycle

    Different steps in the cell cycle can be switched on/off by proteins and enzymes. These cell cycle regulators are cyclins and cyclin-dependent kinases (Cdk).

    Cyclins are cell cycle regulatory proteins that "switches" kinases on and off.

    Cyclins can be categorized as cyclins D, E, A or B, and each cyclin regulates a different part of the cell cycle.

    Cyclin-dependent kinases (Cdk) are cell cycle control enzyme kinases that are regulated by cyclins.

    Basically, cyclin-dependent kinases (Cdk) regulate the events happening in the cell cycle by phosphorylating (adding a phosphate group) and de-phosphorylating (taking away a phosphate group) target proteins as a way of activating/deactivating them. However, a Cdk can only be activated if a cyclin binds to it, creating a cyclin-Cdk complex.

    The concentration of Cdk remains relatively constant during the cell cycle, but the concentration of cyclin protein varies depending on the stage of the cell cycle, since they control the activation/deactivation of Cdks.

    Don't worry about what the role of each cyclin is right now. We will talk about it in a bit!

    Cell cycle checkpoints and regulation

    To ensure that all the events in the cell cycle happen at the correct time, the cell cycle has four checkpoints.

    Checkpoints are breaks in the cell cycle that checks for accuracy.

    The first checkpoint is the G1 checkpoint, also known as the restriction point. This checkpoint looks for DNA damage and favorable conditions before entering the S phase. If it finds any DNA damage, it will try to repair it. But, if that is not possible, it will trigger apoptosis. Now, if conditions are not favorable, then it will send the cell into a special phase called the G0 phase.

    If everything is correct, then the cell will progress to the S phase. In this phase, we have the S checkpoint, whose job is to check for any DNA damage that may happen before or during DNA replication. The S checkpoint also prevents the reduplication of DNA, and after it gives a green light, the cell passes to the G2 phase.

    In the G2 phase, the G2 checkpoint makes sure all DNA has been duplicated, and also checks for DNA damage. Finally, in the Mitosis phase, the spindle-assembly (M) checkpoint ensures that all chromosomes at aligned at the metaphase plate and attached to spindle fibers before going into anaphase.

    But, what are we talking about checkpoints? It is because a cell's progression through the cell cycle requires the cyclin activation of specific Cdks!

    Cyclin-cdk cell cycle regulation

    Cyclin-dependent kinases (Cdks) help in the regulation of the cell cycle checkpoints. The table below shows some important cyclin-Cdk complexes involved in cell cycle regulation.

    CyclinCyclin-dependent kinase (Cdk)Function
    DCdk 4, Cdk 6Drives the G1 - S transition. (Also known as G1/Cdk complex).
    ECdk 2Regulation of G1 - S transition. It commits the cell to DNA replication. (Complex also known as G1/S-Cdk)
    ACdk 2Initiation of DNA replication in early S phase. (Complex known as S-Cdk).
    BCdk 1Transition from G2 to M phase. Cyclins promote the events of mitosis (Also known as M-CDK complex).

    Describe how the cell cycle is regulated

    Now that we learned about the cell cycle, its different checkpoints, and the proteins that regulate the cell cycle, let's put it all together and look at the cyclin-Cdk complexes, and how they help regulate the cell cycle.

    First, different cyclin-cdk complexes are formed (Cdk 4,6-cyclin D, Cdk 2-cyclin E). Rb protein (pRb), the product of the retinoblastoma gene (RB), is phosphorylated to initiate G1 to S phase transition. In turn, this activates several genes required for DNA replication in the S phase.

    • Retinoblastoma is a tumor suppressor that also helps regulate the cell cycle.

    When the cell enters the S phase, cyclin D gets degraded, and the S-Cdk complex is formed. This complex triggers the S phase. After DNA replication, the S-Cdk complex gets destroyed.

    The formation of the M-Cdk complex then triggers the start of mitosis!

    There is no doubt that cell cycle regulation is very important for ensuring that a cell undergoes cell division properly. A failure to regulate the cell cycle may lead to the formation of cancerous cells in the body!

    Cell Cycle Regulators - Key takeaways

    • The cell cycle is defined as the sequence of events that results in cell proliferation.
    • The main proteins and enzymes involved in cell cycle regulation are cyclins and cyclin-dependent kinases (Cdk).
    • Cyclins are cell cycle regulatory proteins that "switches" kinases on and off.
    • Cyclin-dependent kinases (Cdk) are cell cycle control enzyme kinases that are regulated by cyclins.

    References

    1. AP Central, AP Biology, College Board, 30 May 2017.
    2. Princeton Review, Fast track biology : essential review for AP, honors, and other advanced study, The Princeton Review, 2020.
    3. Pack, P. E., AP biology, 2013.
    4. Hartwell, L., Goldberg, M. L., Fischer, J. A., & Hood, L. E., Genetics : from genes to genomes, Mcgraw Hill Education, 2021.
    Frequently Asked Questions about Cell Cycle Regulators

    How is the cell cycle regulated?

    The cell cycle is regulated by cyclins and cyclin-dependent kinases (Cdks).

    What happens if cell cycle regulators do not function properly?

    If cell cycle regulators do not function properly, uncontrolled cell division might occur, leading to the development of cancer cells.

    Which proteins regulate the cell cycle?

    The main proteins that regulate the cell cycle are called cyclins. These cycles are responsible for activating/deactivating Cdks.

    Why is regulation of the cell cycle important?

    Cell cycle regulation is important for ensuring that a cell undergoes cell division properly.

    What are cell cycle regulators?

    Cell cycle regulators are proteins/enzymes that make sure that the cell cycle phases happen correctly.

    Test your knowledge with multiple choice flashcards

    True or false: the cell cycle is defined as the sequence of events that results in cell division.

    Interphase is divided into three stages. These stages are: 

    In the ______ stage of the cell cycle, the cell grows and prepares for DNA replication.

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