Lung cancer stem cells can be isolated -- and then grown -- in a
preclinical model, offering a new avenue for investigating immunotherapy
treatment options that specifically target stem cells.
John C. Morris, MD, and his colleagues report their findings in
the Nov. 13, 2012, issue of PLoS One, a peer-reviewed online
publication.
Stem cells are unique cells that can divide and differentiate into
specialized cells types -- for example cardiac muscle or liver tissue. These
cells also have the ability to self-renew and produce more stem cells.
"Increasing evidence supports the idea that cancerous tumors
have a population of stem cells, also called cancer-initiating cells, that
continually regenerate and fuel cancer growth," explains Morris, senior author
of the study and professor at the UC College of Medicine. "These cancer
stem cells may also have the highest potential to spread to other organs."
Current models used to study cancer stem cells provide limited
information on the interaction between cancer stem cells with the immune
system, making the study of new therapies that utilize the body's immune system
to fight off cancer virtually impossible.
In this study, the UC team set out to find a viable, consistent
way to isolate lung cancer stem cells that could be used in a mouse model with
full immune system function. The team was able to achieve this using a
functional laboratory test known as "tumorsphere" assay.
The test -- which shows how cells grow in culture -- allowed them
to enrich for cancer stem cells.
"Studying these unique cells could greatly improve our
understanding of lung cancer's origins and lead to the novel therapeutics
targeting these cells and help to more effectively eradicate this
disease," adds Morris. "Immunotherapy is the future of cancer
treatment. We are hopeful that this new method will accelerate our
investigation of immunotherapies to specifically target cancer stem
cells."
The team is working to characterize how cancer stem cells escape
the body's immune system in order to develop more effective therapies that
target stem cells.
"One of the hypotheses behind why cancer therapies fail is
that the drug only kills cells deemed to be 'bad' (because of certain molecular
characteristics), but leaves behind stem cells to repopulate the tumor,"
adds Morris. "Stem cells are not frequently dividing, so they are much
less sensitive to existing chemotherapies used to eliminate cells deemed
abnormal."
UC study collaborators in this UC-funded study include hematology
oncology postdoctoral fellow Brian Morrison, PhD, and Jason Steel, PhD, a lung cancer
researcher and assistant professor of research at the UC College of Medicine.
Source:
The above story is reprinted from materials provided by University
of Cincinnati Academic Health Center.
Note: Materials may be edited for content and length.
For further information, please contact the source cited above.
Journal Reference:
1. Brian J. Morrison, Jason C. Steel, John C.
Morris. Sphere Culture of Murine Lung Cancer Cell Lines Are Enriched
with Cancer Initiating Cells. PLoS ONE, 2012; 7 (11): e49752
DOI: 10.1371/journal.pone.0049752
Disclaimer: This article is not intended to provide
medical advice, diagnosis or treatment. Views expressed here do not necessarily
reflect those of Eagle Group or its staff.
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