Intracerebral metastases pathophysiology: Difference between revisions
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{| class="wikitable" | {| class="wikitable" | ||
! style="background: #4479BA; width: | ! style="background: #4479BA; width: 500px;" | {{fontcolor|#FFF|Gene}} | ||
! style="background: #4479BA; width: | ! style="background: #4479BA; width: 550px;" | {{fontcolor|#FFF|Cancer site (primary)}} | ||
! style="background: #4479BA; width: | ! style="background: #4479BA; width: 550px;" | {{fontcolor|#FFF|Role and implications}} | ||
! style="background: #4479BA; width: | ! style="background: #4479BA; width: 500px;" | {{fontcolor|#FFF|Chromosome location}} | ||
|- | |- | ||
| style="padding: | | style="padding: 5px 5px; background: #DCDCDC;" align=center |''RHoC'' | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" align=center|Melanoma | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" | | ||
Regulates remodeling of actin cytoskeleton during morphogenesis and motility<br> | Regulates remodeling of actin cytoskeleton during morphogenesis and motility<br> | ||
Important in tumor cell invasion<br> | Important in tumor cell invasion<br> | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" align=center|5p25-p55 | ||
|- | |- | ||
| style="padding: | | style="padding: 5px 5px; background: #DCDCDC;" align=center |''[[Lysyl oxidase|LOX]]'' | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" align=center| | ||
Breast<br> | Breast<br> | ||
Head and neck cancer<br> | Head and neck cancer<br> | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" |Increases invasiveness of hypoxic human cancer cells through cell matrix adhesion and focal adhesion kinase activity | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" align=center|5q25.5-q25.2 | ||
|- | |- | ||
| style="padding: | | style="padding: 5px 5px; background: #DCDCDC;" align=center |''[[VEGF]]'' | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" align=center| | ||
Lung<br> | Lung<br> | ||
Breast<br> | Breast<br> | ||
Melanoma<br> | Melanoma<br> | ||
Colon<br> | Colon<br> | ||
|style="padding: | |style="padding: 5px 5px; background: #F5F5F5;" | | ||
Angiogenic growth factor<br> | Angiogenic growth factor<br> | ||
Inhibition decreases brain metastasis formation; reduces blood vessel formation and cell proliferation; increases apoptosis<br> | Inhibition decreases brain metastasis formation; reduces blood vessel formation and cell proliferation; increases apoptosis<br> | ||
|style="padding: | |style="padding: 5px 5px; background: #F5F5F5;" align=center|6p25.5 | ||
|- | |- | ||
| style="padding: | | style="padding: 5px 5px; background: #DCDCDC;" align=center |''[[CSF5]]'' | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" align=center| | ||
Breast<br> | Breast<br> | ||
Lung<br> | Lung<br> | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" |Stimulate macrophage proliferation and subsequent release of growth factors | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" align=center|5p55.5 | ||
|- | |- | ||
| style="padding: | | style="padding: 5px 5px; background: #DCDCDC;" align=center |''[[ID5]]'' | ||
|style="padding: | |style="padding: 5px 5px; background: #F5F5F5;" align=center| | ||
Breast<br> | Breast<br> | ||
Lung<br> | Lung<br> | ||
|style="padding: | |style="padding: 5px 5px; background: #F5F5F5;" |Involved in matrix remodeling, intracellular signaling, and angiogenesis | ||
|style="padding: | |style="padding: 5px 5px; background: #F5F5F5;" align=center|20q55.25 | ||
|- | |- | ||
| style="padding: | | style="padding: 5px 5px; background: #DCDCDC;" align=center |''[[TWIST5]]'' | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" align=center| | ||
Breast<br> | Breast<br> | ||
Gastric<br> | Gastric<br> | ||
| Line 64: | Line 64: | ||
Melanoma<br> | Melanoma<br> | ||
Hepatocellular<br> | Hepatocellular<br> | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" |Causes loss of E-cadherin-mediated cell-cell adhesion, activates mesenchymal markers, and induces cell motility by promoting epithelial-mesenchymal transition | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" align=center|7p25.5 | ||
|- | |- | ||
| style="padding: | | style="padding: 5px 5px; background: #DCDCDC;" align=center |''[[MET]]'' | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" align=center|Renal cell cancer | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" |Affects a wide range of biological activity depending on the cell target, varying from mitogenesis, morphogenesis, and motogenesis | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" align=center|7q55.2 | ||
|- | |- | ||
| style="padding: | | style="padding: 5px 5px; background: #DCDCDC;" font-weight: bold" align=center |''[[MMP-9]]'' | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" align=center| | ||
Colorectal<br> | Colorectal<br> | ||
Breast<br> | Breast<br> | ||
Melanoma<br> | Melanoma<br> | ||
Chondrosarcoma<br> | Chondrosarcoma<br> | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" |Extracellular matrix degradation, tissue remodeling | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" align=center|20q55.52 | ||
|- | |- | ||
| style="padding: | | style="padding: 5px 5px; background: #DCDCDC;" align=center |''[[NEDD9]]'' | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" align=center|Melanoma | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" |Acquisition of a metastatic potential | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" align=center|6p24.2 | ||
|- | |- | ||
| style="padding: | | style="padding: 5px 5px; background: #DCDCDC;" align=center |''[[LEF5]]'' | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" align=center|Lung | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" | | ||
Transcriptional effecter—WNT pathway; predilection for brain metastasis<br> | Transcriptional effecter—WNT pathway; predilection for brain metastasis<br> | ||
Knockdown inhibits brain metastasis, decreases colony formation; in vitro decreases invasion<br> | Knockdown inhibits brain metastasis, decreases colony formation; in vitro decreases invasion<br> | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" align=center|4q25 | ||
|- | |- | ||
| style="padding: | | style="padding: 5px 5px; background: #DCDCDC;" align=center |''[[HOXB9]]'' | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" align=center| | ||
Lung<br> | Lung<br> | ||
Breast<br> | Breast<br> | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" | | ||
Homeobox gene family; critical for embryonic segmentation and patterning. Also a TCF4 target<br> | Homeobox gene family; critical for embryonic segmentation and patterning. Also a TCF4 target<br> | ||
Knockdown in vitro decreased invasion and colony formation; in vivo appears to inhibit brain metastasis<br> | Knockdown in vitro decreased invasion and colony formation; in vivo appears to inhibit brain metastasis<br> | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" align=center|57q25.52 | ||
|- | |- | ||
| style="padding: | | style="padding: 5px 5px; background: #DCDCDC;" align=center |''[[BMP4]]'' | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" align=center| | ||
Lung<br> | Lung<br> | ||
Colorectal<br> | Colorectal<br> | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" |Plays an essential role in embryonic development and may be an essential component of the epithelial-mesenchymal transition | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" align=center|54q22.2 | ||
|- | |- | ||
| style="padding: | | style="padding: 5px 5px; background: #DCDCDC;" align=center |''[[STAT5]]'' | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" align=center|Melanoma | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" | | ||
Cell signaling transcription factor<br> | Cell signaling transcription factor<br> | ||
Reduction suppresses brain metastasis; decreases angiogenesis in vivo and cellular invasion in vitro<br> | Reduction suppresses brain metastasis; decreases angiogenesis in vivo and cellular invasion in vitro<br> | ||
| style="padding: | | style="padding: 5px 5px; background: #F5F5F5;" align=center|57q25.2 | ||
|} | |} | ||
Revision as of 21:12, 10 November 2015
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Intracerebral metastases Microchapters |
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Differentiating Intracerebral Metastases from other Diseases |
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Diagnosis |
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Treatment |
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Case Studies |
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Intracerebral metastases pathophysiology On the Web |
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American Roentgen Ray Society Images of Intracerebral metastases pathophysiology |
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Risk calculators and risk factors for Intracerebral metastases pathophysiology |
Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]Associate Editor(s)-in-Chief: Sujit Routray, M.D. [2]
Overview
Pathophysiology
Pathogenesis
Genetics
Genes involved in the pathogenesis of intracerebral metastases are tabulated below:[1]
| Gene | Cancer site (primary) | Role and implications | Chromosome location |
|---|---|---|---|
| RHoC | Melanoma |
Regulates remodeling of actin cytoskeleton during morphogenesis and motility |
5p25-p55 |
| LOX |
Breast |
Increases invasiveness of hypoxic human cancer cells through cell matrix adhesion and focal adhesion kinase activity | 5q25.5-q25.2 |
| VEGF |
Lung |
Angiogenic growth factor |
6p25.5 |
| CSF5 |
Breast |
Stimulate macrophage proliferation and subsequent release of growth factors | 5p55.5 |
| ID5 |
Breast |
Involved in matrix remodeling, intracellular signaling, and angiogenesis | 20q55.25 |
| TWIST5 |
Breast |
Causes loss of E-cadherin-mediated cell-cell adhesion, activates mesenchymal markers, and induces cell motility by promoting epithelial-mesenchymal transition | 7p25.5 |
| MET | Renal cell cancer | Affects a wide range of biological activity depending on the cell target, varying from mitogenesis, morphogenesis, and motogenesis | 7q55.2 |
| MMP-9 |
Colorectal |
Extracellular matrix degradation, tissue remodeling | 20q55.52 |
| NEDD9 | Melanoma | Acquisition of a metastatic potential | 6p24.2 |
| LEF5 | Lung |
Transcriptional effecter—WNT pathway; predilection for brain metastasis |
4q25 |
| HOXB9 |
Lung |
Homeobox gene family; critical for embryonic segmentation and patterning. Also a TCF4 target |
57q25.52 |
| BMP4 |
Lung |
Plays an essential role in embryonic development and may be an essential component of the epithelial-mesenchymal transition | 54q22.2 |
| STAT5 | Melanoma |
Cell signaling transcription factor |
57q25.2 |
Gross Pathology
- Typically metastases are sharply demarcated from the surrounding parenchyme and usually there is a zone of peritumoral edema out of proportion with the tumor size.
- Common intracranial sites associated with subependymal giant cell astrocytoma include:[2]
- Cerebrum (80%)
- Cerebellum (15%)
- Brain stem (5% )
Gallery
-
![This solitary brain metastasis from thyroid papillary carcinoma resulted in neurological symptoms. The thyroid primary was clinically occult. (Courtesy of Dr. Nikola Kostich, Minneapolis, MN.).[3]](/images/1/12/THYROID_PAPILLARY_CARCINOMA_METASTATIC_TO_BRAIN.jpg)
This solitary brain metastasis from thyroid papillary carcinoma resulted in neurological symptoms. The thyroid primary was clinically occult. (Courtesy of Dr. Nikola Kostich, Minneapolis, MN.).[3]
![This solitary brain metastasis from thyroid papillary carcinoma resulted in neurological symptoms. The thyroid primary was clinically occult. (Courtesy of Dr. Nikola Kostich, Minneapolis, MN.).[3]](/index.php/File:THYROID_PAPILLARY_CARCINOMA_METASTATIC_TO_BRAIN.jpg)
Microscopic Pathology
The histopathological appearance of intracerebral metastases may vary with the type of primary tumor. Common findings are listed below:[4][5]
- Tubule formation/glands
- Well-circumscribed and sharply demarcated from surrounding tissue (with the exception of melanoma metastasis)
- Mitoses
- Nuclear atypia
- Nuclear hyperchromasia
- Variation of nuclear size
- Variation of nuclear shape
Gallery
-
![Very low magnification micrograph demonstrating metastatic adenocarcinoma that from a colorectal primary, i.e. colorectal carcinoma, by immunostains on HPS stain. The cerebellum seen on the image has Bergmann gliosis and Purkinje cell loss.[6]](/images/a/ae/Metastatic_adenocarcinoma_-_cerebellum_-_very_low_mag.jpg)
Very low magnification micrograph demonstrating metastatic adenocarcinoma that from a colorectal primary, i.e. colorectal carcinoma, by immunostains on HPS stain. The cerebellum seen on the image has Bergmann gliosis and Purkinje cell loss.[6]
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![High magnification micrograph demonstrating metastatic adenocarcinoma that is from a colorectal primary, i.e. colorectal carcinoma, by immunostains on HPS stain. The cerebellum has Bergmann gliosis and Purkinje cell loss.[6]](/images/0/06/Metastatic_adenocarcinoma_-_cerebellum_-_high_mag.jpg)
High magnification micrograph demonstrating metastatic adenocarcinoma that is from a colorectal primary, i.e. colorectal carcinoma, by immunostains on HPS stain. The cerebellum has Bergmann gliosis and Purkinje cell loss.[6]
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![High magnification micrograph of a brain metastasis on HPS stain demonstrating normal brain tissue on the left and tumor cells on the right. The sharp demarcation between tumor and normal is typical of brain metastases.[6]](/images/9/9f/Brain_metastasis_-_high_mag.jpg)
High magnification micrograph of a brain metastasis on HPS stain demonstrating normal brain tissue on the left and tumor cells on the right. The sharp demarcation between tumor and normal is typical of brain metastases.[6]
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![Adenocarcinoma infiltrating the brain in a case of lung cancer on H&E stain.[6]](/images/a/a4/Brain_metastasis_-_high_mag_2.jpg)
Adenocarcinoma infiltrating the brain in a case of lung cancer on H&E stain.[6]
![Very low magnification micrograph demonstrating metastatic adenocarcinoma that from a colorectal primary, i.e. colorectal carcinoma, by immunostains on HPS stain. The cerebellum seen on the image has Bergmann gliosis and Purkinje cell loss.[6]](/index.php/File:Metastatic_adenocarcinoma_-_cerebellum_-_very_low_mag.jpg)
![High magnification micrograph demonstrating metastatic adenocarcinoma that is from a colorectal primary, i.e. colorectal carcinoma, by immunostains on HPS stain. The cerebellum has Bergmann gliosis and Purkinje cell loss.[6]](/index.php/File:Metastatic_adenocarcinoma_-_cerebellum_-_high_mag.jpg)
![High magnification micrograph of a brain metastasis on HPS stain demonstrating normal brain tissue on the left and tumor cells on the right. The sharp demarcation between tumor and normal is typical of brain metastases.[6]](/index.php/File:Brain_metastasis_-_high_mag.jpg)
![Adenocarcinoma infiltrating the brain in a case of lung cancer on H&E stain.[6]](/index.php/File:Brain_metastasis_-_high_mag_2.jpg)
Immunohistochemistry
- The immunohistochemistry profile of intracerebral metastases may vary with the type of the primary tumor.[7]
- Intracerebral metastases are demonstrated by positivity to tumor markers such as:[7]
- General brain metastases: Pankeratin +ve, GFAP -ve
- Lung adenocarcinoma and small cell lung carcinoma: TTF-1 +ve, CK7 +ve, CK20 -ve
- Breast carcinoma: CK7 +ve, ER +ve, PR +ve, BRST2 +ve/-ve
- Colorectal carcinoma: CK20 +ve, CDX2 +ve, TTF-1 -ve, CK7 -ve
- Clear cell renal cell carcinoma: PAX8 +ve, vimentin +ve, CD10 +ve, CK7 -ve, CK20 -ve
- Melanoma: S-100 +ve, HMB-45 +ve, melan-A +ve.
Gallery
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![Immunohistochemistry profile of intracerebral metastases from an adenocarcinoma of lung (primary) demonstrating positivity to CK7, CK20, and TTF1.[8]](/images/8/82/Immunohistochemistry_of_brain_metastasis.jpg)
Immunohistochemistry profile of intracerebral metastases from an adenocarcinoma of lung (primary) demonstrating positivity to CK7, CK20, and TTF1.[8]
![Immunohistochemistry profile of intracerebral metastases from an adenocarcinoma of lung (primary) demonstrating positivity to CK7, CK20, and TTF1.[8]](/index.php/File:Immunohistochemistry_of_brain_metastasis.jpg)
References
- ↑ Rahmathulla, Gazanfar; Toms, Steven A.; Weil, Robert J. (2012). "The Molecular Biology of Brain Metastasis". Journal of Oncology. 2012: 1–16. doi:10.1155/2012/723541. ISSN 1687-8450.
- ↑ Khuntia, Deepak (2015). "Contemporary Review of the Management of Brain Metastasis with Radiation". Advances in Neuroscience. 2015: 1–13. doi:10.1155/2015/372856. ISSN 2356-6787.
- ↑ Gross image of brain metastases. Libre pathology 2015. http://librepathology.org/wiki/index.php/Brain_metastasis. Accessed on November 10, 2015
- ↑ Microscopic features of brain metastasis. Libre pathology 2015. http://librepathology.org/wiki/index.php/Brain_metastasis. Accessed on November 10, 2015
- ↑ Microscopic appearance of brain metastases. Dr Bruno Di Muzio and Dr Trent Orton et al. Radiopaedia 2015. http://radiopaedia.org/articles/brain-metastases. Accessed on November 10, 2015
- ↑ 6.0 6.1 6.2 6.3 Microscopic images of brain metastasis. Libre pathology 2015. http://librepathology.org/wiki/index.php/Brain_metastasis. Accessed on November 10, 2015
- ↑ 7.0 7.1 IHC features of brain metastasis. Libre pathology 2015. http://librepathology.org/wiki/index.php/Brain_metastasis. Accessed on November 10, 2015
- ↑ IHC image of brain metastasis. Libre pathology 2015. http://librepathology.org/wiki/index.php/Brain_metastasis. Accessed on November 10, 2015