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Model identifies genes that induce normal skin cells to become abnormal
November 15, 2005Northwestern University researchers have developed a novel, three-dimensional model that allows scientists to observe how interacting with the microenvironment of metastatic melanoma cells induces normal skin cells to become similar to aggressive cancer cells that migrate and spread throughout the body.
The model, developed by Mary J. C. Hendrix and colleagues at Children's Memorial Research Center, consists of a three-dimensional collagen matrix preconditioned by malignant melanoma cells. Hendrix is president and scientific director of the Children's Memorial Research Center, professor of pediatrics at Northwestern University Feinberg School of Medicine and a member of the executive committees of The Robert H. Lurie Comprehensive Cancer Center and the Center for Genetic Medicine at Northwestern University.
The model was described in an article in the Nov. 15 issue of Cancer Research.
"Our findings offer new insights into the influence of the tumor cell microenvironment on the transformation of normal skin cells, as well as on genetic triggering mechanisms and signaling pathways that could be targeted for novel therapeutic strategies to inhibit the spread of melanoma," Hendrix said.
Metastatic cancer cells are characterized by increased tumor cell invasion and migration, as well as an undifferentiated, or "plastic," nature.
The Hendrix lab has hypothesized that this poorly differentiated cell type serves as an advantage to aggressive cancer cells by enhancing their ability to metastasize virtually undetected by the immune system. The group's current study tested the hypothesis that the microenvironment of metastatic melanoma cells could induce benign skin cells to become cancer-like.
The researchers seeded a particularly aggressive form of human metastatic melanoma cells onto a three-dimensional collagen matrix and allowed the cells to precondition the microenvironment for several days. The malignant melanoma cells were removed and the matrix was left intact.
Then, normal human skin cells were seeded onto the melanoma-preconditioned matrix and were allowed to remain for several days.
After this period, the previously normal cells seeded onto the matrix preconditioned by the metastatic melanoma were reprogrammed to express genes (produce specific gene proteins) associated with a highly plastic cell type similar to the aggressive melanoma cells used in the study.
Removal of the "transdifferentiated" skin cells from the melanoma microenvironment caused the cells to revert to their original appearance.
"There were no significant genetic changes between normal skin cells grown on an untreated matrix and those exposed to a matrix preconditioned by human metastatic melanoma cells, further supporting the hypothesis that "epigenetic" induction of changes in skin cell gene expression is directly related to exposure to the metastatic microenvironment," the authors said.
Hendrix's co-researchers on the study were Elizabeth A. Seftor; Kevin M. Brown; Lynda Chin; Dawn A. Kirshmann; William W. Wheaton; Alexei Protopopov; Bin Feng; Yoganand Balagurunathan; Jeffrey M. Trent; Brian J. Nickoloff; and Richard E. B. Seftor, from Northwestern University; Harvard Medical School; Tgen; and Loyola University.
Northwestern University
"Our findings offer new insights into the influence of the tumor cell microenvironment on the transformation of normal skin cells, as well as on genetic triggering mechanisms and signaling pathways that could be targeted for novel therapeutic strategies to inhibit the spread of melanoma," Hendrix said.
Metastatic cancer cells are characterized by increased tumor cell invasion and migration, as well as an undifferentiated, or "plastic," nature.
The Hendrix lab has hypothesized that this poorly differentiated cell type serves as an advantage to aggressive cancer cells by enhancing their ability to metastasize virtually undetected by the immune system. The group's current study tested the hypothesis that the microenvironment of metastatic melanoma cells could induce benign skin cells to become cancer-like.
The researchers seeded a particularly aggressive form of human metastatic melanoma cells onto a three-dimensional collagen matrix and allowed the cells to precondition the microenvironment for several days. The malignant melanoma cells were removed and the matrix was left intact.
Then, normal human skin cells were seeded onto the melanoma-preconditioned matrix and were allowed to remain for several days.
After this period, the previously normal cells seeded onto the matrix preconditioned by the metastatic melanoma were reprogrammed to express genes (produce specific gene proteins) associated with a highly plastic cell type similar to the aggressive melanoma cells used in the study.
Removal of the "transdifferentiated" skin cells from the melanoma microenvironment caused the cells to revert to their original appearance.
"There were no significant genetic changes between normal skin cells grown on an untreated matrix and those exposed to a matrix preconditioned by human metastatic melanoma cells, further supporting the hypothesis that "epigenetic" induction of changes in skin cell gene expression is directly related to exposure to the metastatic microenvironment," the authors said.
Hendrix's co-researchers on the study were Elizabeth A. Seftor; Kevin M. Brown; Lynda Chin; Dawn A. Kirshmann; William W. Wheaton; Alexei Protopopov; Bin Feng; Yoganand Balagurunathan; Jeffrey M. Trent; Brian J. Nickoloff; and Richard E. B. Seftor, from Northwestern University; Harvard Medical School; Tgen; and Loyola University.
Northwestern University
Skin Cell Current Events and Skin Cell News RSSFirst reconstitution of an epidermis from human embryonic stem cells
Stem cell research is making great strides. This is yet again illustrated by a study carried out by the I-STEM* Institute (I-STEM/ Inserm UEVE U861/AFM), published in the Lancet on 21 November 2009. The I-STEM team, directed by Marc Peschanski has just succeeded in recreating a whole epidermis from human embryonic stem cells.
How stem cells make skin
Stem cells have a unique ability: when they divide, they can either give rise to more stem cells, or to a variety of specialised cell types.
Cancer's distinctive pattern of gene expression could aid early screening and prevention
Distinctive patterns of genes turned off - or left on - in healthy versus cancerous cells could enable early screening for many common cancers and maybe help avoid them, Medical College of Georgia scientists say.
Scientists shed light on inner workings of human embryonic stem cells
Scientists at UC Santa Barbara have made a significant discovery in understanding the way human embryonic stem cells function.
Enhanced skin cancer risk linked to defects in cellular aging controls
Cell lifespan is limited by telomeres, DNA sequences that cap chromosomes and control the number of times a cell may be copied. A new study reported in Disease Models & Mechanisms (DMM), dmm.biologists.org, describes how telomere dysfunction in skin cells can lead to increased skin cancer risk and pigmentation.
Model unravels rules that govern how genes are switched on and off
For years, scientists have struggled to decipher the genetic instruction book that details where and when the 20,000 genes in a human cell will be turned on or off. Different genes operate in each cell type at different times, and this careful orchestration is what ultimately distinguishes a brain cell from a liver or skin cell.
Genetic breakdown in Fanconi anemia may have link to HPV-associated cancer
A genetic malfunction that causes DNA instability in people with the blood disorder Fanconi anemia may put them at high risk for squamous cell carcinomas linked to human papillomavirus (HPV), according to a study posted online ahead of print by Oncogene.
Study finds genomic changes in the brains of people who commit suicide
Are genes destiny? Alternatively, are we simply the products of our environment? There is a growing sense that neither of these two possibilities fully captures the essence of the risk for psychiatric disorders.
Protein maintains cross talk between cells that control hair growth
Genes, it turns out, are only as active as the signals that turn them on and off. Now scientists from Rockefeller University and the Howard Hughes Institute have identified the signaling molecule that ratchets up and clamps down the activity of key genes in dermal papilla, a type of skin cell whose unique collection of proteins ultimately instruct epithelial stem cells to make hair.
Cell division studies hint at future cancer therapy
When a cell's assets get divided between daughter cells, Dr. Quansheng Du wants to make sure both offspring do well.
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