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Revision as of 14:22, 13 July 2015

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1] Associate Editor(s)-in-Chief: Saarah T. Alkhairy, M.D., Elliot B. Tapper, M.D.

Pathogenesis

At a microbiological level, the development of the colorectal cancers (CRC) can be linked to defects within the cell cycle^[1]. Although its is poorly understood, the following five factors are recognized to be responsible for its neoplastic changes^[2]:

Genetic instability

Aneuploidy is demonstrated in about 50%-90% of cancers
A loss of adenomatous polyposis (APC) function is common in sporadic CRC
A loss of P53 function is common in colitis-associated CRC
The following are two types of genomic instability

Chromosomal instability (CIN) occurs when either whole chromosomes or parts of chromosomes are duplicated or deleted; it has a 85% frequency
Microsatellite instability (MSI) is the condition of genetic hypermutability that results from impaired DNA mismatch repair; it a 15% frequency

Epigenetic alteration

Sporadic CRC can develop from dysplasia in 1 or 2 foci of the colon
Colitis-associated CRC can develop from multifocal dysplasia

This indicates a field change effect where large areas of cells within the colon are affected by carcinogenic alterations

Chronic inflammation

COX-2 is triggered by inflammatory stimuli such as IL-1, [[IFN-γ, and TNF-α
COX-2 expression is elevated in nearly 85% of adenocarcinomas

Oxidative stress

Oxidative stress results from inflammatory reactions which include inflammatory cells, activated neutrophils, and macrophages
Macrophages produce large amounts of reactive oxygen and nitrogen species (RONS)
RONs can interact with key genes involved in carcinogenic pathways such as P53 and DNA mismatch repair genes

Intestinal microbiota

The mechanism is still unclear

Genetics

CRC can be grouped into three categories from a genetic perspective^[3]:

Sporadic (75% of cases) - no apparent indications of a hereditary component

Familial (20% of cases) - multifactorial hereditary factors or common exposures to non-genetic risk factors or both
Hereditary (10% of cases)

Hereditary nonpolyposis colon cancer (HNPCC) also known as Lynch Syndrome results from mutations in MLH1 and MSH2
Familial adenomatous polyposis (FAP) results from mutations in the APC gene located on chromosome 5p22.2
MUTYH-associated polyposis (MAP) results from biallelic mutation of the MutY, E. Coli, Homolog gene which functions to remove adenine residues mispaired with 8-hydroxyguanine in DNA

Gross Pathology

Right-sided tumors (ascending colon and cecum) tends to grow outwards from one location in the bowel wall (exophytic)

Left-sided tumours tend to be circumferential

Appearance of the inside of the colon showing one invasive colorectal carcinoma (the crater-like, reddish, irregularly shaped tumor).

Microscopic Pathology

Tumor cells form irregular tubular structures, harboring pleuristratification, multiple lumens, and reduced stroma
Sometimes, tumor cells are discohesive and secrete mucus, which invades the interstitium producing large pools of mucus/colloid (optically "empty" spaces)
If the mucus remains inside the tumor cell, it pushes the nucleus at the periphery (signet-ring cell)
Depending on glandular architecture, cellular pleomorphism, and mucosecretion of the predominant pattern, adenocarcinoma may present in three degrees of differentiation: well, moderately, and poorly differentiated<refPathology atlas (in Romanian)</ref>

Histopathologic image of colonic carcinoid stained by hematoxylin and eosin.

Video

References

↑ Scully R (2010). "The spindle-assembly checkpoint, aneuploidy, and gastrointestinal cancer". The New England Journal of Medicine. 363 (27): 2665–6. doi:10.1056/NEJMe1008017. PMID 21190461. Retrieved 2011-12-12. Unknown parameter |month= ignored (help)
↑ Kim, Eun Ran (2014). "Colorectal cancer in inflammatory bowel disease: The risk, pathogenesis, prevention and diagnosis". World Journal of Gastroenterology. 20 (29): 9872. doi:10.3748/wjg.v20.i29.9872. ISSN 1007-9327.
↑ Schlussel AT, Gagliano RA, Seto-Donlon S, Eggerding F, Donlon T, Berenberg J; et al. (2014). "The evolution of colorectal cancer genetics-Part 1: from discovery to practice". J Gastrointest Oncol. 5 (5): 326–35. doi:10.3978/j.issn.2078-6891.2014.069. PMC 4173047. PMID 25276405.

Template:WikiDoc Sources

[pmid21190461-1] Scully R (2010). "The spindle-assembly checkpoint, aneuploidy, and gastrointestinal cancer". The New England Journal of Medicine. 363 (27): 2665–6. doi:10.1056/NEJMe1008017. PMID 21190461. Retrieved 2011-12-12. Unknown parameter |month= ignored (help)

[Kim2014-2] Kim, Eun Ran (2014). "Colorectal cancer in inflammatory bowel disease: The risk, pathogenesis, prevention and diagnosis". World Journal of Gastroenterology. 20 (29): 9872. doi:10.3748/wjg.v20.i29.9872. ISSN 1007-9327.

[pmid25276405-3] Schlussel AT, Gagliano RA, Seto-Donlon S, Eggerding F, Donlon T, Berenberg J; et al. (2014). "The evolution of colorectal cancer genetics-Part 1: from discovery to practice". J Gastrointest Oncol. 5 (5): 326–35. doi:10.3978/j.issn.2078-6891.2014.069. PMC 4173047. PMID 25276405.

[1]

[2]

[3]

@@ Line 1: / Line 1: @@
 __NOTOC__
 {{Colon cancer}}
+{{CMG}} {{AE}} Saarah T. Alkhairy, M.D., Elliot B. Tapper, M.D.
-'''Editor(s)-in-Chief:''' [[C. Michael Gibson, M.S., M.D.]] [mailto:charlesmichaelgibson@gmail.com] Phone:617-632-7753; Elliot B. Tapper, M.D., Beth Israel Deaconess Medical Center
-{{MJM}};{{AE}}{{SM}}
 ==Pathogenesis==
-*At a microbiological level, the development of the colon cancers (as well as other cancers) can be linked to defects within the [[cell cycle]]<ref name="pmid21190461">{{cite journal |author=Scully R |title=The spindle-assembly checkpoint, aneuploidy, and gastrointestinal cancer |journal=[[The New England Journal of Medicine]] |volume=363 |issue=27 |pages=2665–6 |year=2010 |month=December |pmid=21190461 |doi=10.1056/NEJMe1008017 |url=http://www.nejm.org/doi/abs/10.1056/NEJMe1008017?url_ver=Z39.88-2003&rfr_id=ori:rid:crossref.org&rfr_dat=cr_pub%3dpubmed |accessdate=2011-12-12}}</ref>
+At a microbiological level, the development of the colorectal cancers (CRC) can be linked to defects within the [[cell cycle]]<ref name="pmid21190461">{{cite journal |author=Scully R |title=The spindle-assembly checkpoint, aneuploidy, and gastrointestinal cancer |journal=[[The New England Journal of Medicine]] |volume=363 |issue=27 |pages=2665–6 |year=2010 |month=December |pmid=21190461 |doi=10.1056/NEJMe1008017 |url=http://www.nejm.org/doi/abs/10.1056/NEJMe1008017?url_ver=Z39.88-2003&rfr_id=ori:rid:crossref.org&rfr_dat=cr_pub%3dpubmed |accessdate=2011-12-12}}</ref>. Although its is poorly understood, the following five factors are recognized to be responsible for its neoplastic changes<ref name="Kim2014">{{cite journal|last1=Kim|first1=Eun Ran|title=Colorectal cancer in inflammatory bowel disease: The risk, pathogenesis, prevention and diagnosis|journal=World Journal of Gastroenterology|volume=20|issue=29|year=2014|pages=9872|issn=1007-9327|doi=10.3748/wjg.v20.i29.9872}}</ref>:
-*Although the pathogenesis of colorectal cancer (CRC) is poorly understood, the following five factors are responsible for its neoplastic changes<ref name="Kim2014">{{cite journal|last1=Kim|first1=Eun Ran|title=Colorectal cancer in inflammatory bowel disease: The risk, pathogenesis, prevention and diagnosis|journal=World Journal of Gastroenterology|volume=20|issue=29|year=2014|pages=9872|issn=1007-9327|doi=10.3748/wjg.v20.i29.9872}}</ref>:
+*[[Genetic instability]]
-*Genetic instability
+*[[Epigenetic alteration]]
-*Epigenetic alteration
+*[[Chronic inflammation]]
-*Chronic inflammation
+*[[Oxidative stress]]
-*Oxidative stress
+*Intestinal [[microbiota]]
-*Intestinal microbiota
 ===Genetic instability===
-*Aneuploidy is demonstrated in about 50%-90% of cancers
+*[[Aneuploidy]] is demonstrated in about 50%-90% of cancers
-*A loss of adenomatous polyposis (APC) function is common in sporadic CRC
+*A loss of adenomatous polyposis ([[APC]]) function is common in sporadic CRC
 *A loss of P53 function is common in colitis-associated CRC
 *The following are two types of genomic instability
-:*Chromosomal instability (CIN) with a 85% frequency
+:*[[Chromosomal instability]] (CIN) occurs when either whole chromosomes or parts of chromosomes are duplicated or deleted; it has a 85% frequency
-:*Microsatellite instability (MSI) with a 15% frequency
+:*[[Microsatellite instability]] (MSI) is the condition of genetic hypermutability that results from impaired DNA mismatch repair; it a 15% frequency
-::*It is associated with a promotor hypermethylation of the mismatch repair gene hMLH1
 ===Epigenetic alteration===
-*Sporadic CRC can develop from dysplasia in 1 or 2 foci of the colon
+*Sporadic CRC can develop from [[dysplasia]] in 1 or 2 foci of the colon
-*Colitis-associated CRC can develop from multifocal dysplasia
+*Colitis-associated CRC can develop from [[multifocal]] dysplasia
 :*This indicates a field change effect where large areas of cells within the colon are affected by carcinogenic alterations
 ===Chronic inflammation===
-*COX-2 is triggered by inflammatory stimuli such as IL-1, IFN-γ, and TNF-α induces inflammation
+*[[COX-2]] is triggered by inflammatory stimuli such as [[IL-1]], [[IFN-γ, and [[TNF-α]]
-*COX-2 expression is elevated in nearly 50% of adenomas and 85% of adenocarcinomas
+*COX-2 expression is elevated in nearly 85% of [[adenocarcinomas]]
 ===Oxidative stress===
-*Oxidative stress results from inflammatory reactions which include inflammatory cells, activated neutrophils, and macrophages
+*[[Oxidative stress]] results from inflammatory reactions which include inflammatory cells, activated [[neutrophils,]] and [[macrophages]]
-*Macrophages produce large amounts of reactive oxygen and nitrogen species (RONS)
+*[[Macrophages]] produce large amounts of reactive oxygen and nitrogen species (RONS)
-*RONs can interact with key genes involved in carcinogenic pathways such as P53 and DNA mismatch repair genes
+*RONs can interact with key genes involved in carcinogenic pathways such as [[P53]] and [[DNA mismatch repair]] genes
 ===Intestinal microbiota===
 *The mechanism is still unclear
-<gallery widths=200px>
+==Genetics==
+CRC can be grouped into three categories from a genetic perspective<ref name="pmid25276405">{{cite journal| author=Schlussel AT, Gagliano RA, Seto-Donlon S, Eggerding F, Donlon T, Berenberg J et al.| title=The evolution of colorectal cancer genetics-Part 1: from discovery to practice. | journal=J Gastrointest Oncol | year= 2014 | volume= 5 | issue= 5 | pages= 326-35 | pmid=25276405 | doi=10.3978/j.issn.2078-6891.2014.069 | pmc=PMC4173047 | url=http://www.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&tool=sumsearch.org/cite&retmode=ref&cmd=prlinks&id=25276405  }} </ref>:
+*Sporadic (75% of cases) - no apparent indications of a hereditary component
-ImageName.jpg | Description <br> [http://phil.cdc.gov/Phil/ <font size="-2">''Adapted from CDC''</font>]
+*[[Familial]] (20% of cases) - multifactorial hereditary factors or common exposures to non-genetic risk factors or both
+*[[Hereditary]] (10% of cases)
+:*[[Hereditary nonpolyposis colon cancer]] ([[HNPCC]]) also known as [[Lynch Syndrome]] results from mutations in MLH1 and MSH2
+:*[[Familial adenomatous polyposis]] ([[FAP]]) results from mutations in the APC gene located on chromosome 5p22.2
+:*[[MUTYH-associated polyposis]] ([[MAP]]) results from biallelic mutation of the [[MutY, E. Coli, Homolog]] gene which functions to remove [[adenine]] residues mispaired with [[8-hydroxyguanine]] in DNA
-</gallery>
 ==Gross Pathology==
-Adenocarcinoma is a malignant epithelial tumor, originating from glandular epithelium of the colorectal mucosa.  It invades the wall, infiltrating the [[muscularis mucosae]], the [[submucosa]] and thence the muscularis propria. Cancers on the right side (ascending colon and [[cecum]]) tend to be exophytic, that is, the tumour grows outwards from one location in the bowel wall.  This very rarely causes obstruction of [[feces]], and presents with symptoms such as [[anemia]].  Left-sided tumours tend to be circumferential, and can obstruct the bowel much like a napkin ring.
+*Right-sided tumors (ascending colon and [[cecum]]) tends to grow outwards from one location in the bowel wall ([[exophytic]])
+*Left-sided tumours tend to be [[circumferential]]
 [[Image:796px-Colon_cancer_2.jpg‎|200px|thumb|center|Appearance of the inside of the colon showing one invasive colorectal carcinoma (the crater-like, reddish, irregularly shaped tumor).]]
-===Microscopic Pathology===
+==Microscopic Pathology==
-Tumor cells form irregular tubular structures, harboring pleuristratification, multiple lumens, reduced stroma ("back to back" aspect). Sometimes, tumor cells are discohesive and secrete mucus, which invades the interstitium producing large pools of mucus/colloid (optically "empty" spaces) - ''mucinous (colloid)'' adenocarcinoma, poorly differentiated. If the mucus remains inside the tumor cell, it pushes the nucleus at the periphery - "signet-ring cell." Depending on glandular architecture, cellular pleomorphism, and mucosecretion of the predominant pattern, adenocarcinoma may present three degrees of differentiation: well, moderately, and poorly differentiated. <ref>[http://www.pathologyatlas.ro/Colon%20Cancer.html Pathology atlas (in Romanian)]</ref>
+*Tumor cells form irregular tubular structures, harboring pleuristratification, multiple lumens, and reduced stroma
+*Sometimes, tumor cells are discohesive and secrete [[mucus]], which invades the [[interstitium]] producing large pools of mucus/colloid (optically "empty" spaces)
+*If the mucus remains inside the tumor cell, it pushes the nucleus at the periphery ([[signet-ring cell]])
+*Depending on glandular architecture, cellular pleomorphism, and mucosecretion of the predominant pattern, adenocarcinoma may present in three degrees of differentiation: well, moderately, and poorly differentiated<ref[http://www.pathologyatlas.ro/Colon%20Cancer.html Pathology atlas (in Romanian)]</ref>
 [[Image:Colonic carcinoid (1) Endoscopic resection.jpg|thumb|center|Histopathologic image of colonic carcinoid stained by hematoxylin and eosin.]]
 <br clear="left"/>
-===Genetics===
-As of 1993, there was a discovery made in the mechanism of the development of colon cancers.  It was found that [[HNPCC]] is caused by [[germline]] [[mutations]] of [[mismatch repair genes]]<ref name="pmid21190461">{{cite journal |author=Scully R |title=The spindle-assembly checkpoint, aneuploidy, and gastrointestinal cancer |journal=[[The New England Journal of Medicine]] |volume=363 |issue=27 |pages=2665–6 |year=2010 |month=December |pmid=21190461 |doi=10.1056/NEJMe1008017 |url=http://www.nejm.org/doi/abs/10.1056/NEJMe1008017?url_ver=Z39.88-2003&rfr_id=ori:rid:crossref.org&rfr_dat=cr_pub%3dpubmed |accessdate=2011-12-12}}</ref>.  A '''germline mutation''' is defined as a [[gene]] change in a body's [[reproductive cell]] that becomes incorporated into the [[DNA]] of every [[cell]] in the body of the [[offspring]].
-Colorectal cancer is a disease originating from the [[epithelium|epithelial cells]] lining the [[gastrointestinal tract]].  [[Hereditary disease|Hereditary]] or [[somatic cell|somatic]] [[mutation]]s in specific [[DNA]] sequences, among which are included [[DNA replication]] or [[DNA repair]] [[gene]]s<ref>{{cite journal |author=Ionov Y, Peinado MA, Malkhosyan S, Shibata D, Perucho M|title=Ubiquitous somatic mutations in simple repeated sequences reveal a new mechanism for colonic carcinogenesis|journal=Nature|volume=363|issue=6429|pages=558-61|year=1993|url=http://dx.doi.org/10.1038/363558a0|pmid=8505985}}</ref>, and also the [[Adenomatous polyposis coli|APC]], [[Ras|K-Ras]], [[NOD2]] and [[p53]] genes, lead to unrestricted cell division.  The exact reason why (and whether) a diet high in fiber might prevent colorectal cancer remains uncertain.  Chronic inflammation, as in [[inflammatory bowel disease]], may predispose patients to malignancy.
-Another mechanism involves the WNT gene family.  There are a total of 19 genes in the WNT gene family and they are responsible for providing the instructions to make proteins that are responsible for chemical signaling.  Research has shown that [[up-regulation]] of WNT signaling will cause [[crypt cells]] in the [[intestine]] to [[proliferate]] for longer than normal before they [[differentiate]] and [[migrate]]<ref name="pmid21732829">{{cite journal |author=Dolmans GH, Werker PM, Hennies HC, Furniss D, Festen EA, Franke L, Becker K, van der Vlies P, Wolffenbuttel BH, Tinschert S, Toliat MR, Nothnagel M, Franke A, Klopp N, Wichmann HE, Nürnberg P, Giele H, Ophoff RA, Wijmenga C |title=Wnt signaling and Dupuytren's disease |journal=[[The New England Journal of Medicine]] |volume=365 |issue=4 |pages=307–17 |year=2011 |month=July |pmid=21732829 |doi=10.1056/NEJMoa1101029 |url=http://www.nejm.org/doi/abs/10.1056/NEJMoa1101029?url_ver=Z39.88-2003&rfr_id=ori:rid:crossref.org&rfr_dat=cr_pub%3dpubmed |accessdate=2011-12-12}}</ref>.  Prolonged proliferation eventually causes [[polyps]] to form, which in turn creates a predisposition to colon cancer.
 ===Video===
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 [[Category:Types of cancer]]
 [[Category:Conditions diagnosed by stool test]]
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