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Investigation: Mitosis and Cancer Cells

  • Page ID
    27400
  • mitosis investigation 7.pngOne of the basic tenets of biology is that all new cells come from living cells. New cells are formed by the process of cell division which includes both the division of the cell’s nucleus, mitosis,  and the division of the cell’s cytoplasm, cytokinesis. Mitotic cell divisions are used by organisms to repair tissue, growth, and asexual reproduction.  

    Although mitosis is a continuous process, scientists have divided it into distinct stages for convenience and ease of study and understanding of the cellular events:  Prophase, Metaphase, Anaphase, and Telophase. 

    In this lab, we will be viewing slides containing mitotic cells and determining what stages each of the cells is in and estimating how long each stage lasts. We will also be comparing normal cells and cancer cells to see how mitosis is altered in cancer cells.

    Where does one find cells undergoing mitosis? It depends if you are studying plants or animals. Plants and animals differ in this respect.  In most plants, the process of forming new cells is restricted to special growth regions called meristems. These regions usually occur at the tips of the stems and roots of the plant.  Mitosis in animals can be viewed by looking at the growing embryo of organisms like the whitefish. 

     

    Question 1:   How much time is spent in each phase of the cell cycle?  Why are there differences in the time spent in each phase? 

    You will have slides of onion root tips and/or whitefish blastula.  These are tissues that are undergoing mitosis. The image below shows how the cells will appear for each stage. 

    mitosis investigation 1.png


    Proposal:   How will you answer the experimental question?   Discuss with your group the method you could use to gather data and write a summary below.   

    Procedure:  Your plan probably included most of these elements you’ll need, but the details here will help you fine-tune your method. 

    1. Scan the side under low power first and locate the apical meristem, the region of rapidly dividing cells directly behind the protective root cap

    2.  Switch to high power and center your slide in the apical meristem region, so that you have a field of view in which there is a wide selection of cells in various stages of mitosis (including interphase). 

    3.  You are now going to identify the stage of each cell in your field of view. Starting at the top right corner of the field, record the stage of each cell in the data table as Area 1. Count your cells in a systematic manner.

    4.  After completing the count in this first area (Area 1), move your slide to a new area of the apical meristem region and perform the stage identification and count a second time. Record data for Area 2. 

    5.  Repeat the count a third time in a third area of the apical meristem region and record data. 


    6.  Find the total number of cells in each phase and record this in the table. 

    7.   It is generally accepted that the total time for mitosis in onion root tip cells is 720 minutes (12 hours). Therefore, to calculate the time for each stage of mitosis in these onion cell, set up a ratio of the number of cells in each phase, compared to the total number of cells counted. Then multiply this fraction by the total time (720 minutes) needed to complete one mitotic division. In other words, the time for a specific phase is equal to: 

    mitosis investigation 2.png
     

    8.  Calculate the percentage of the cell cycle spent in each phase and record it in the data table.

    9.  Prepare a bar graph to illustrate your results. Your independent variable is the five stages of mitosis and your dependent variable the percent of time spent in each phase.  


     

    DATA TABLE: COUNT AND TIMING OF CELLS IN VARIOUS STAGES OF the Cell Cycle

    Stage of Mitosis

    # Cells in Area 1

    # Cells in Area 2

    # Cells in Area 3

    Total # Cells

    Time (for each phase) Minutes

    % of Cell Cycle

     

    INTERPHASE

               
     

    PROPHASE

               
     

    METAPHASE

               
     

    ANAPHASE

               
     

    TELOPHASE

               
     

    Totals

     

     

    720

     

    100%

     

    Graph Data - be sure to label your axes

    mitosis investigation 3.png

    Complete this CER chart using your data to answer the experimental question.

    Question

    Claim

    Evidence

    Reasoning (Connect claim  to biological principles.)

       
       
       

     

    PART 2:  How is Mitotic Index Used in Cancer Studies? mitosis investigation 4.png

    Mast cell tumors (MCT) represent a cancer of mast cells, which are a type of white blood cell involved in allergy and inflammation. Mast cell tumors are the most common skin tumor in dogs. Older dogs are most commonly affected. Some predisposed breeds of dogs include Boxers, Boston terriers, Bulldogs, pugs, Labrador retrievers,  and golden retrievers. 

    Mast cell tumors are classified as one of three different histologic grades (grades I, II, and III). Grade I MCT act in a benign manner, and most can be cured with surgical removal. Grade III MCT are more aggressive tumors that are locally invasive and have a high rate of spread (50-90%). 

    Mitotic index (MI) is an indirect measure of cell proliferation that has been demonstrated to be a strong predictor of outcome for several human and canine cancers. The purpose of a study on dogs was to evaluate the utility of MI as a predictor of survival in dogs with cutaneous mast cell tumors (MCTs).

    A single pathologist evaluated the  cells via light microscopy and generated an MI per 10 high-power (400×) fields. The region of the tumor sample with the highest overall mitotic activity was chosen for evaluation. 
     

    1. The data set below represents a single specimen to illustrate how mitotic index can be determined.    The mitotic index is the ratio between the number of cells in mitosis and the total number of cells.  Calculate the MI for each data set.  

    Mast Cells from Grade 1 Tumor

     

    Mast Cell from Grade 3 Tumor

    Stage of Mitosis

    Total # Cells

     

    Stage of Mitosis

    Total # Cells

    INTERPHASE

    584

     

    INTERPHASE

    518

    PROPHASE

    8

     

    PROPHASE

    14

    METAPHASE

    6

     

    METAPHASE

    13

    ANAPHASE

    2

     

    ANAPHASE

    7

    TELOPHASE

    4

     

    TELOPHASE

    10

    # in Mitosis

     

     

    # in Mitosis

     

    Total # of cells

       

    Total # of cells

     

    Mitotic Index

       

    Mitotic Index

     

     

    2. Compare the mitotic index of the two types of tumors.   What does this information tell you about the cells in the sample? 

    3.  Compare the procedure used to study mast cell cancer in dogs to the procedure you used to gather data on onion cell mitosis.  How were they alike and how were they different?

    4.  What type of cancer is being studied?  Discuss why this type of study is important (and to whom)?

    5.  This chart shows data gathered over the course of the study, from multiple dogs.  You can read about the actual study in the “Journal of Veterinary Pathology.”     

    mitosis investigation 5.png

      a)  What does each of those dots represent?

      b)  Summarize the chart, what does it tell you about MI and tumor grades?

    6. The purpose of this study was to evaluate the utility of MI as a predictor of survival in dogs with cutaneous mast cell tumors   What other information needs to be gathered to answer this question?

    7.  Examine figure 2.  How can MI be used as a predictor of survivability for mast cell cancer? Be detailed in your explanation, citing evidence from the data shown in Figure 1 and Figure 2.  

    mitosis investigation 6.png
    Fig. 2— Fig. 2. Mitotic index (MI) is predictive of overall survival for dogs with mast cell tumors (MCTs) independent of tumor grade. Dogs with MCTs with an MI of 0–5 (solid line, n = 80) had a median survival of 70 months. Dogs with an MI >5 (dashed line, n = 19) had a median survival of 2 months. This difference was statistically significant (P < .001).



     

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