HCT116 cells: Difference between revisions

Latest revision as of 19:06, 22 March 2025

Human colorectal carcinoma cell line

Overview[edit]

HCT116 cells are a human colorectal carcinoma cell line that is widely used in cancer research. These cells are derived from a colorectal cancer patient and are known for their utility in studying the molecular biology of cancer, particularly in the context of colorectal cancer.

Characteristics[edit]

HCT116 cells are characterized by their epithelial morphology and their ability to grow in adherent cultures. They are aneuploid, meaning they have an abnormal number of chromosomes, which is a common feature in cancer cells. HCT116 cells are known to have mutations in several key oncogenes and tumor suppressor genes, including the KRAS and PIK3CA genes, which are frequently mutated in colorectal cancer.

Applications in Research[edit]

HCT116 cells are extensively used in cancer research to study the mechanisms of tumorigenesis, drug resistance, and cell signaling pathways. They serve as a model system for testing the efficacy of anticancer drugs and for understanding the genetic and epigenetic changes that occur in cancer cells.

Genetic Studies[edit]

The genetic profile of HCT116 cells makes them a valuable tool for studying the role of specific genes in cancer development. Researchers often use CRISPR-Cas9 and other gene editing technologies to manipulate genes in HCT116 cells to investigate their function.

Drug Testing[edit]

HCT116 cells are commonly used in high-throughput screening assays to evaluate the cytotoxicity and therapeutic potential of new anticancer agents. Their response to chemotherapy and targeted therapies provides insights into the mechanisms of drug action and resistance.

Culturing HCT116 Cells[edit]

HCT116 cells are typically cultured in Dulbecco's Modified Eagle Medium (DMEM) supplemented with fetal bovine serum (FBS) and antibiotics to prevent contamination. They require a humidified atmosphere with 5% carbon dioxide at 37°C for optimal growth.

Related Cell Lines[edit]

HCT116 cells are part of a larger group of colorectal cancer cell lines that are used in research, including SW480, HT-29, and Caco-2 cells. Each of these cell lines has unique genetic and phenotypic characteristics that make them suitable for different types of studies.

Related Pages[edit]

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-[[File:Telomeres 01.jpg|thumb|right|HCT116 cells stained for [[H2AFX|γ‐H2AX]] (green) and [[Telomere|telomeric]] [[DNA]] (red)]]
+{{Short description|Human colorectal carcinoma cell line}}
-'''HCT116''' is a human [[colon cancer]] [[cell line]] used in therapeutic research and drug screenings.<ref name=one>{{cite journal|title=Characterization of HCT116 Human Colon Cancer Cells in an Orthotopic Model|journal=Journal of Surgical Research|date=15 June 2008|doi=10.1016/j.jss.2007.04.021|pmid=17961596|volume=147|issue=2|pages=276–281|first1=Ashwani|last1=Rajput|display-authors=etal}}</ref>
+==Overview==
+'''HCT116 cells''' are a [[human]] [[colorectal carcinoma]] [[cell line]] that is widely used in [[cancer research]]. These cells are derived from a [[colorectal cancer]] patient and are known for their utility in studying the [[molecular biology]] of [[cancer]], particularly in the context of [[colorectal cancer]].
 ==Characteristics==
-HCT116 cells have a mutation in codon 13 of the [[KRAS]] [[Oncogene#Proto-oncogene|proto-oncogene]], and are suitable [[transfection]] targets for gene therapy research.<ref>{{cite web|url=https://www.atcc.org/products/all/CCL-247.aspx|publisher=ATCC|access-date=4 May 2018|title=HCT 116 }}</ref> The cells have an epithelial morphology and can metastasize in [[xenograft]] models.<ref name=one /> When [[Transduction (genetics)|transducted]] with [[viral vectors]] carrying the [[p53]] gene, HCT116 cells remain arrested in the [[G1 phase]].<ref>{{cite journal|title= Regulation of p53 Stability and Function in HCT116 Colon Cancer Cells|url=https://www.sciencedirect.com/science/article/pii/S0022480407002788|date=9 December 2003|doi=10.1074/jbc.M311732200|first1=Matthias|last1=Kaeser|display-authors=etal|journal=Journal of Biological Chemistry|volume=279|issue=9|pages=7598–7605}}</ref> The proliferation of HCT116 colonies was found to be inhibited by 5-Fu/P85 copolymer micelles.<ref>{{cite journal|title=Inhibition of Growth and Metastasis of Colon Cancer by Delivering 5-Fluorouracil-loaded Pluronic P85 Copolymer Micelles|first1=Pengxi|last1=Zhu|journal=Scientific Reports|volume=6|pages=20896|date=11 February 2016|doi=10.1038/srep20896|pmid=26864651|pmc=4750032}}</ref> Furthermore, it was found that the [[Gene knockout|knockout]] of [[MARCH2]] limited growth of HCT116 cells via stress on the [[endoplasmic reticulum]].<ref>{{cite journal|title=Knockout of MARCH2 inhibits the growth of HCT116 colon cancer cells by inducing endoplasmic reticulum stress|first1=Dan|last1=Xia|doi=10.1038/cddis.2017.347|pmid=28749466|journal=Cell Death and Disease|volume=8|issue=7|pages=e2957|date=27 July 2017|pmc=5584615}}</ref>
+HCT116 cells are characterized by their [[epithelial]] morphology and their ability to grow in [[adherent]] cultures. They are [[aneuploid]], meaning they have an abnormal number of [[chromosomes]], which is a common feature in [[cancer cells]]. HCT116 cells are known to have mutations in several key [[oncogenes]] and [[tumor suppressor genes]], including the [[KRAS]] and [[PIK3CA]] genes, which are frequently mutated in [[colorectal cancer]].
-==Use in research==
+==Applications in Research==
-HCT116 cells are used in a variety of biomedical studies involving colon cancer proliferation and corresponding inhibitors. The cell line has been used in [[Carcinogenesis|tumorigenicity]] studies, along with other research that has shown that [[Cyclin D1]] holds large importance for the activity of lithocholic acid hydroxyamide. HCT116 cells can also function in [[xenografts]], with [[docetaxel]], [[5-FU]], and [[flavopiridol]] limiting tumor growth ''in vitro''.
+HCT116 cells are extensively used in [[cancer research]] to study the [[mechanisms]] of [[tumorigenesis]], [[drug resistance]], and [[cell signaling]] pathways. They serve as a model system for testing the efficacy of [[anticancer drugs]] and for understanding the [[genetic]] and [[epigenetic]] changes that occur in [[cancer cells]].
-The HCT116 cell line was found to have two variations; one with a large expression of the Insp8 gene, and the other without. The Insp8 gene is part of a cell's [[energy metabolism]] process, and can affect the cellular [[phenotype]] as a result.<ref>{{cite journal|title=Inositol Pyrophosphate Profiling of Two HCT116 Cell Lines Uncovers Variation in InsP8 Levels|journal=PLOS ONE|volume=11|issue=10|pages=e0165286|date=27 October 2016|doi=10.1371/journal.pone.0165286|pmid=27788189|pmc=5082907|first1=Chunfang|last1=Gu}}</ref>
+===Genetic Studies===
+The genetic profile of HCT116 cells makes them a valuable tool for studying the role of specific [[genes]] in [[cancer development]]. Researchers often use [[CRISPR-Cas9]] and other [[gene editing]] technologies to manipulate genes in HCT116 cells to investigate their function.
-==References==
+===Drug Testing===
-{{Reflist|2}}
+HCT116 cells are commonly used in [[high-throughput screening]] assays to evaluate the [[cytotoxicity]] and [[therapeutic potential]] of new [[anticancer agents]]. Their response to [[chemotherapy]] and [[targeted therapies]] provides insights into the mechanisms of [[drug action]] and [[resistance]].
-==External Links==
+==Culturing HCT116 Cells==
-*[https://web.expasy.org/cellosaurus/CVCL_0291 Cellosaurus entry for HCT116]
+HCT116 cells are typically cultured in [[Dulbecco's Modified Eagle Medium]] (DMEM) supplemented with [[fetal bovine serum]] (FBS) and [[antibiotics]] to prevent [[contamination]]. They require a [[humidified]] atmosphere with 5% [[carbon dioxide]] at 37°C for optimal growth.
-[[Category: Human cell lines]]
+==Related Cell Lines==
-[[Category:Cancer]]
+HCT116 cells are part of a larger group of [[colorectal cancer cell lines]] that are used in research, including [[SW480]], [[HT-29]], and [[Caco-2]] cells. Each of these cell lines has unique genetic and phenotypic characteristics that make them suitable for different types of studies.
-[[Category:Oncogenes]]
+==Related Pages==
+* [[Colorectal cancer]]
+* [[Cell line]]
+* [[Cancer research]]
+* [[KRAS]]
+* [[PIK3CA]]
+* [[Gene editing]]
-{{oncology-stub}}
+[[Category:Cell lines]]
-{{genetics-stub}}
+[[Category:Colorectal cancer]]
-{{dictionary-stub1}}
+[[Category:Cancer research]]