RPE_cell_that_has_been_treated_with_taxol_and_undergone_mitotic_catastrophe

Mitotic Catastrophe has been defined as either a cellular mechanism to prevent potentially cancerous cells from proliferating or as a mode of cellular death that occurs following improper

cell cycle The cell cycle, or cell-division cycle, is the series of events that take place in a cell that cause it to divide into two daughter cells. These events include the duplication of its DNA ( DNA replication) and some of its organelles, and sub ...

progression or entrance. Mitotic catastrophe can be induced by prolonged activation of the spindle assembly checkpoint, errors in mitosis, or DNA damage and functioned to prevent genomic instability. It is a mechanism that is being researched as a potential therapeutic target in

cancers Cancer is a group of diseases involving abnormal cell growth with the potential to invade or spread to other parts of the body. These contrast with benign tumors, which do not spread. Possible signs and symptoms include a lump, abnormal ble ...

, and numerous approved therapeutics induce mitotic catastrophe.

Term usage

Multiple attempts to specifically define mitotic catastrophe have been made since the term was first used to describe a temperature dependent lethality in the yeast, ''

Schizosaccharomyces pombe ''Schizosaccharomyces pombe'', also called "fission yeast", is a species of yeast used in traditional brewing and as a model organism in molecular and cell biology. It is a unicellular eukaryote, whose cells are rod-shaped. Cells typically measur ...

,'' that demonstrated abnormal segregation of chromosomes. The term has been used to define a mechanism of cellular death that occurs while a cell is in mitosis or as a method of oncosuppression that prevents potentially tumorigenic cells from dividing. This oncosuppression is accomplished by initiating a form of cell death such as apoptosis or

necrosis Necrosis () is a form of cell injury which results in the premature death of cells in living tissue by autolysis. Necrosis is caused by factors external to the cell or tissue, such as infection, or trauma which result in the unregulated dig ...

or by inducing cellular senescence.

Mechanism to prevent cancer development

One usage of the term mitotic catastrophe is to describe an oncosuppressive mechanism (i.e. a mechanism to prevent the proliferation of cancerous cells and the develop of tumors) that occurs when cells undergo and detect a defective

mitosis In cell biology, mitosis () is a part of the cell cycle in which replicated chromosomes are separated into two new nuclei. Cell division by mitosis gives rise to genetically identical cells in which the total number of chromosomes is maint ...

has occurred. This definition of this mechanism has been described by the International Nomenclature Committee on Cell Death. Under this definition, cells that undergo mitotic catastrophe either senesce and stop dividing or undergo a regulated form of cell death during mitosis or another form of cell death in the next

G1 phase The G1 phase, gap 1 phase, or growth 1 phase, is the first of four phases of the cell cycle that takes place in eukaryotic cell division. In this part of interphase, the cell synthesizes mRNA and proteins in preparation for subsequent steps lea ...

of the cell cycle. The function of this mechanism is to prevent cells from accruing genomic instability which can lead to tumorigenesis. When the cell undergoes cell death during mitosis this is known as mitotic death. This is characterized by high levels of cyclin B1 still present in the cell at the time of cell death indicating the cell never finished mitosis. Mitotic catastrophe can also lead to the cell being fated for cell death by apoptosis or necrosis following

interphase Interphase is the portion of the cell cycle that is not accompanied by visible changes under the microscope, and includes the G1, S and G2 phases. During interphase, the cell grows (G1), replicates its DNA (S) and prepares for mitosis (G2). A ...

of the cell cycle. However, the timing of cell death can vary from hours after mitosis completes to years later which has been witnessed in human tissues treated with radiotherapy. The least common outcome of mitotic catastrophe is senescence in which the cell stops dividing and enters a permanent cell cycle arrest that prevents the cell from proliferating any further.

Mechanism of cellular death

Another usage of the term mitotic catastrophe is to describe a mode of cell death that occurs during mitosis. This cell death can occur due to an accumulation of DNA damage in the presence of improperly functioning DNA structure checkpoints or an improperly functioning spindle assembly checkpoint. Cells that undergo mitotic catastrophe death can lack activation of pathways of the traditional death pathways such as apoptosis. While more recent definitions of mitotic catastrophe do not use it to describe a bona fide cell death mechanism, some publications describe it as a mechanism of cell death.

Causes

Prolonged spindle assembly checkpoint activation

Cells have a mechanism to prevent improper segregation of chromosomes known as the spindle assembly checkpoint or mitotic checkpoint. The spindle assembly checkpoint verifies that mitotic spindles have properly attached to the kinetochores of each pair of chromosomes before the chromosomes segregate during cell division. If the mitotic spindles are not properly attached to the kinetochores then the spindle assembly checkpoint will prevent the transition from

metaphase Metaphase ( and ) is a stage of mitosis in the eukaryotic cell cycle in which chromosomes are at their second-most condensed and coiled stage (they are at their most condensed in anaphase). These chromosomes, carrying genetic information, align ...

anaphase Anaphase () is the stage of mitosis after the process of metaphase, when replicated chromosomes are split and the newly-copied chromosomes (daughter chromatids) are moved to opposite poles of the cell. Chromosomes also reach their overall max ...

. This mechanism is important to ensure that the DNA within the cell is divided equally between the two daughter cells. When the spindle assembly checkpoint is activated, it arrests the cell in mitosis until all chromosomes are properly attached and aligned. If the checkpoint is activated for a prolonged period it can lead to mitotic catastrophe. Prolonged activation of the spindle assembly checkpoint inhibits the anaphase promoting complex. Normally, activation of the anaphase promoting complex leads to the separation of sister chromatids and the cell exiting mitosis. The mitotic checkpoint complex acts as a negative regulator of the anaphase promoting complex. Unattached kinetochores promote the formation of the mitotic checkpoint complex which is composed of four different proteins known as Mad2, Cdc20, BubR1, and Bub3 in humans. When the mitotic checkpoint complex is formed, it binds to the anaphase promoting complex and prevents its ability to promote cell cycle progression.

Errors in mitosis

Some cells can have an erroneous mitosis yet survive and undergo another cell division which puts the cell at a higher likelihood to undergo mitotic catastrophe. For instance, cells can undergo a process called mitotic slippage where cells exit mitosis to early before the process of mitosis is finished. In this case, the cell finishes mitosis in the presence of spindle assembly checkpoint signaling which would normally prevent the cell from exiting mitosis. This phenomenon is caused by improper degradation of cyclin B1 and can result in chromosome missegregation events. Cyclin B1 is a major regulator of the cell cycle and guides the cells progression from G2 to M phase. Cyclin B1 works with its binding partner CDK1 to control this progression and the complex is known as the mitotic promoting factor. While the mitotic promoting factor is utilized to guide the cells entry into mitosis, its destruction also guides the cells exit from mitosis. Normally, cyclin B1 degradation is initiated by the anaphase promoting complex after all of the kinetochores have been properly attached by mitotic spindle fibers. However, when cyclin B1 levels are degraded to fast this can result in the cell exiting mitosis prematurely resulting in potential mitotic errors including missegregation of chromosomes. Tetraploid or otherwise aneuploid cells are at higher risk of mitotic catastrophe. Tetraploid cells are cells that have duplicated their genetic material, but have not undergo

cytokinesis Cytokinesis () is the part of the cell division process during which the cytoplasm of a single eukaryotic cell divides into two daughter cells. Cytoplasmic division begins during or after the late stages of nuclear division in mitosis and me ...

to split into two daughter cells and thus remain as one cell. Aneuploid cells are cells that have an incorrect number of chromosomes including whole additions of chromosomes or complete losses of chromosomes. Cells with an abnormal number of chromosomes are more likely to have chromosome segregation errors that result in mitotic catastrophe. Cells that become aneuploid often are prevented from further cell growth and division by the activation of tumor suppressor pathways such as p53 which drives the cell to a non-proliferating state known as cellular senescence. Given that aneuploid cells can often become tumorigenic, this mechanism prevents the propagation of these cells and thus prevents the development of cancers in the organism. Cells that undergo multipolar divisions, or in other words split into more than 2 daughter cells, are at a higher risk of mitotic catastrophe as well. While many of the progeny of multipolar divisions do not survive do to highly imbalanced chromosome numbers, most of the cells that survive and undergo a subsequent mitosis are likely to experience mitotic catastrophe. These multipolar divisions occur due to the presence of more than two centrosomes. Centrosomes are cellular organelles that acts to organize the mitotic spindle assembly in the cell during mitosis and thus guide the segregation of chromosomes during mitosis. Normally, cells will have two centrosomes that guide sister chromatids to opposite poles of the dividing cell. However, when there are more than two centrosomes present in mitosis they can pull chromosomes in incorrect directions resulting in daughter cells that are inviable. Many cancers have excessive numbers of centrosomes, but to prevent inviable daughter cells, the cancer cells have developed mechanisms to cluster their centrosomes. When the centrosomes are clustered to two poles of the dividing cell, the chromosomes are segregated properly and two daughter cells are formed. Thus, cancers that are able to adapt to a higher number of centrosomes are able to are able to prevent mitotic catastrophe and propagate in the presence of their extra centrosomes.

DNA damage

High levels of DNA damage that are not repaired before the cell enters mitosis can result in a mitotic catastrophe. Cells that have a compromised G2 checkpoint do not have the ability to prevent progression through the cell cycle even when there is DNA damage present in the cell's genome. The G2 checkpoint normally functions to stop cells that have damaged DNA from progressing to mitosis. The G2 checkpoint can be compromised if tumor suppressor p53 is no longer present in the cell. The response to DNA damage present during mitosis is different from the response to DNA damage detected during the rest of the cell cycle. Cells can detect DNA defects during the rest of the cell cycle and either repair them if possible or undergo apoptosis of senescence. Given that when this happens the cell does not progress into mitosis it is not considered a mitotic catastrophe.

Mitotic catastrophe in cancer

Prevention of genomic instability

Genomic instability is one of the hallmarks of cancer cells and promotes genetic changes (both large chromosomal changes as well as individual nucleotide changes) in cancer cells which can lead to increased levels of tumor progression through genetic variation in the tumor cell. Cancers with a higher level of genomic instability have been shown to have worse patient outcomes than those cancers which have lower levels of genomic instability. Cells have gained mechanisms that resist increased genomic instability in cells. Mitotic catastrophe is one way in which cells prevent the propagation of genomically unstable cells. If mitotic catastrophe fails for cells whose genome has become unstable they can propagate uncontrollably and potentially become tumorigenic. The level of genomic instability is different across cancer types with epithelial cancers being more genomically unstable than cancers of hematological or mesenchymal origin.

Mesothelioma Mesothelioma is a type of cancer that develops from the thin layer of tissue that covers many of the internal organs (known as the mesothelium). The most common area affected is the lining of the lungs and chest wall. Less commonly the lining ...

, small-cell lung cancer,

breast The breast is one of two prominences located on the upper ventral region of a primate's torso. Both females and males develop breasts from the same embryological tissues. In females, it serves as the mammary gland, which produces and s ...

, ovarian,

non-small cell lung cancer Non-small-cell lung cancer (NSCLC) is any type of epithelial lung cancer other than small-cell lung carcinoma (SCLC). NSCLC accounts for about 85% of all lung cancers. As a class, NSCLCs are relatively insensitive to chemotherapy, compared to s ...

, and

liver The liver is a major organ only found in vertebrates which performs many essential biological functions such as detoxification of the organism, and the synthesis of proteins and biochemicals necessary for digestion and growth. In humans, it ...

cancer exhibit high levels of genomic instability while acute lymphoblastic leukemia, myelodysplasia, and myeloproliferative disorder have lower levels of instability.

Anticancer therapeutics

Promotion of mitotic catastrophe in cancer cells is an area of cancer therapeutic research that has garnered interest and is seen as a potential target to overcome resistance developed to current chemotherapies. Cancer cells have been found to be more sensitive to mitotic catastrophe induction than non-cancerous cells in the body. Tumors cells often have inactivated the machinery that is required for apoptosis such as the p53 protein. This is usually achieved by mutations in the p53 protein or by loss of the chromosome region that contains the genetic code for it. p53 acts to prevent the propagation of tumor cells and is considered a major tumor suppressor protein. p53 works by either halting progression through the cell cycle when uncontrolled cell division is sensed or it can promote cell death through apoptosis in the presence of irreparable DNA damage. Mitotic catastrophe can occur in a p53 independent fashion and thus presents a therapeutic avenue of interest. Furthermore, doses of DNA damaging drugs lower than lethal levels have been shown to induce mitotic catastrophe. This would allow for administration of a drug while the patient has fewer side effects. Cancer therapies can induce mitotic catastrophe by either damaging the cells DNA or inhibiting spindle assembly. Drugs, known as spindle poisons, affect the polymerization or depolymerization of microtubule spindles and thus interfere with the correct formation of the mitotic spindles. When this happens, the spindle assembly checkpoint becomes activated and the transition from metaphase to anaphase is inhibited. {, class="wikitable" , +Cancer drugs that induce mitotic catastrophe !Drug !Approved uses / clinical trial phase / research use !Mechanism of action , - ,

Paclitaxel Paclitaxel (PTX), sold under the brand name Taxol among others, is a chemotherapy medication used to treat a number of types of cancer. This includes ovarian cancer, esophageal cancer, breast cancer, lung cancer, Kaposi's sarcoma, cervical can ...

, Approved use: AIDS-related Kaposi sarcoma,

breast cancer Breast cancer is cancer that develops from breast tissue. Signs of breast cancer may include a lump in the breast, a change in breast shape, dimpling of the skin, milk rejection, fluid coming from the nipple, a newly inverted nipple, or ...

, and

ovarian cancer Ovarian cancer is a cancerous tumor of an ovary. It may originate from the ovary itself or more commonly from communicating nearby structures such as fallopian tubes or the inner lining of the abdomen. The ovary is made up of three different ...

, rowspan="2" , Promotes microtubule spindle assembly and prevents the detachment of microtubules preventing the cell from properly entering or exiting mitosis. , - ,

Docetaxel Docetaxel (DTX or DXL), sold under the brand name Taxotere among others, is a chemotherapy medication used to treat a number of types of cancer. This includes breast cancer, head and neck cancer, stomach cancer, prostate cancer and non-small-cell ...

, Approved use: Breast cancer, non-small cell lung cancer,

prostate cancer Prostate cancer is cancer of the prostate. Prostate cancer is the second most common cancerous tumor worldwide and is the fifth leading cause of cancer-related mortality among men. The prostate is a gland in the male reproductive system that su ...

, head and neck squamous cell carcinoma, stomach adenocarcinoma, and gastroesophageal junction adenocarcinoma , - , Vinblastin , Approved use: Breast cancer, Choriocarcinoma,

Hodgkin lymphoma Hodgkin lymphoma (HL) is a type of lymphoma, in which cancer originates from a specific type of white blood cell called lymphocytes, where multinucleated Reed–Sternberg cells (RS cells) are present in the patient's lymph nodes. The condition ...

, Kaposi sarcoma, mycosis fungoides, non-Hodgkin lymphoma, testicular germ cell tumors , rowspan="2" , Depolymerizes microtubules , - , Vinkristine , Approved use: Acute lymphoblastic leukemia, lymphomas,

neuroblastoma Neuroblastoma (NB) is a type of cancer that forms in certain types of nerve tissue. It most frequently starts from one of the adrenal glands but can also develop in the neck, chest, abdomen, or spine. Symptoms may include bone pain, a lump i ...

, sarcomas, and central nervous system tumors , - ,

Monastrol Monastrol is a cell-permeable small molecule inhibitor discovered by Thomas U. Mayer in the lab of Tim Mitchison. Monastrol was shown to inhibit the kinesin A kinesin is a protein belonging to a class of motor proteins found in eukaryotic cell ...

, Research use , rowspan="2" , EG5 Inhibitor which perturbs the movement of chromosomes during mitosis. This perturbation results in cells dying in mitosis or in the subsequent interphase. , - , ARRY-520 (Filanesib) ,

Phase III clinical trial The phases of clinical research are the stages in which scientists conduct experiments with a health intervention to obtain sufficient evidence for a process considered effective as a medical treatment. For drug development, the clinical phase ...

multiple myeloma Multiple myeloma (MM), also known as plasma cell myeloma and simply myeloma, is a cancer of plasma cells, a type of white blood cell that normally produces antibodies. Often, no symptoms are noticed initially. As it progresses, bone pain, ane ...

, - , VX-680 , Pre-clinical research , rowspan="2" , AURKA / AURKB inhibitor which disrupts the movement of chromosomes and the cytoskeleton during mitosis , - , MLN8237 , Phase I clincial trial: pediatric recurrent atypical teratoid rhabdoid tumors and pediatric advanced solid tumors Failed clinical trial for adult lymphomas and lung cancer{{Cite journal , last1=Mills , first1=Christopher C. , last2=Kolb , first2=EA. , last3=Sampson , first3=Valerie B. , date=2017-12-01 , title=Review: Recent advances of cell cycle inhibitor therapies for pediatric cancer , journal=Cancer Research , volume=77 , issue=23 , pages=6489–6498 , doi=10.1158/0008-5472.CAN-17-2066 , issn=0008-5472 , pmc=5712276 , pmid=29097609

References

Cell cycle Mitosis Cancer