Aggressive Cancer … Know the Difference

Discovery: Tumor blood vessels can make cancer more aggressive and resistant to chemotherapy

Blood vessels  have  been  thought to be important to cancer  because of the nutritious oxygen they provide to growing tumors.  But  now,  researchers  at Weill Cornell Medical College have discovered  that  the  cells  that  line the blood vessels of tumors play a much more decisive role: By producing proteins that nurture cancer, the vessels have the ability to turn a slow-growing malignancy into an aggressive disease that can spread and resist treatment.

A single lymphoma cell,  expands  over  500-fold  within  96  hours  of  interacting         with engineered endothelial cells that line tumor blood vessels. Weill Cornell scientists have shown  these blood vessel cells can turn a slow-growing cancer into an aggressive disease that can spread and resist treatment.

Their finding, in the March 17 issue of Cancer Cell , challenges what was believed to be       a fundamental dogma in cancer.  It suggests  that it is not simply the number of genetic mutations  that occur in cancer cells that determines  the aggressiveness of the disease. Rather, lethality occurs when the cancer hijacks the reparative function of blood vessels,    a critical step that ensures tumor cells’ ability to spread and resist treatment.

The researchers …. also found the crucial nurturing molecules that cancer co-opts from  tumor blood vessels  to promote invasiveness and resistance to chemotherapy. They show in animal experiments that shutting down these previously unrecognized biological signals originating from tumor vessels makes cancer less aggressive and improves survival.

“The endothelial cells that line the vessels orchestrate a wide variety of biological process — good  and bad,”  says  the  study’s  senior  investigator,  Dr. Shahin Rafii,  co-director of Weill Cornell’s Ansary Stem Cell Institute and Tri-Institutional Stem Cell Initiative, and a professor of  Genetic Medicine.  Dr. Rafii  also  is  the  founder of Angiocrine Bioscience, a startup anchored at Weill Cornell that is investigating how endothelial cells might be used to  heal  damaged  tissues  and  regenerate  organs  —  as  well  as  targeted  tumors.  “The understanding  and control of blood vessel function  and  how this changes the malignant behaviors of cancer cells is a transformative concept  and  will pave the way for designing innovative treatments that disrupt signals from the local environment housing the tumor cells- a strategy that has been unappreciated.”

The scientists studied human B cell lymphoma cells in both laboratory experiments and in mice.  They found that although the lymphoma cells harbor the same mutations,  it is their interaction with  and  support from the tumor blood vessel cells  that surround the cancer that dictates the fate and features of the disease.

Specifically,  when slow-growing tumor cells  contact endothelial cells  that express a  protein known as Jagged 1 (Jag 1), “they become much more aggressive and resistant to chemotherapy,” says the study’s lead investigator, Dr. Zhongwei Cao, a research scientist in the Department of Genetic Medicine at Weill Cornell. “When Jagged 1 is not available from surrounding blood vessels, the lethal features of tumor cells are absent.”

They further found that when Jag1 binds to and activates a receptor, Notch2, on tumor cells, the cancer becomes more tolerant of chemotherapy. “These tumor cells are sheltered from chemotherapy,” Dr. Cao says.

The researchers, joined by colleagues at Stanford and Yale,  identified how interactions between the tumor cells  and  also  the blood vessels confer  these  tumor cells  with  their aggressive and lethal features. “We think signals from these abnormally stimulated tumor endothelial cells modulate  the malignant features of lymphoma cells.  This is a reversible process  dictated  by  the  location  of  the  tumor  cells  rather  than  their  genetics,” says Dr. Joseph Scandura, an assistant professor of medicine at Weill Cornell. “This is a critical finding   because  it suggests  that targeting  the endothelial cells  with  agents that disrupt their specific pro-tumorigenic signals can transform aggressive cancers into slow-growing cancers that are more sensitive to chemotherapy.”

The researchers found, for example, that blocking the Notch2 receptor in lymphoma     cells or Jag1 on blood vessels made the lymphoma cells significantly more vulnerable to chemotherapy.  Even though the experiment was conducted using lymphoma cells, “we expect this finding to be applicable to other cancers, as well,”  says Dr. Bi-Sen Ding, co- senior investigator of the study and an assistant professor of genetic medicine at Weill Cornell.

“This new approach to treatment would interfere with the nurturing proteins produced   by tumor blood vessels. It is different from traditional anti-angiogenic therapy that aims   to eradicate all blood vessels  in the tumor  and prevent them from bringing oxygen and nutrients to the cancer,” says Dr. Ding, noting that conventional anti-angiogenic therapy can  increase  the aggressiveness  of  certain tumor cells  by  paradoxically enhancing the expansion of tumor blood vessels. “Simply blocking specific proteins produced by tumor blood vessels, such as Jag1, without altering oxygen and nutrient delivery will avoid this problem.

“Our approach  could  readily  be  translated to the clinical setting  since we can target    tumor blood vessels by delivering biological cruise missiles loaded with inhibitory agents for specific cancer-promoting proteins to block tumor growth and increase sensitivity to chemotherapy,” Dr. Ding adds.

Finally,  these studies suggest  screening  for anti-cancer drugs  may be more effective if tumor cells are assayed in the context of signals derived from the subverted blood vessels. Also from this information one must consider the type, class and grade of the cancer when doing natural protocols.     Chemo spreads and makes some cancers more aggressive !!!

http://www.cancer.gov/about-cancer/diagnosis-staging/prognosis/tumor-grade-fact-sheet

Source: Weill Cornell Medical College

Preview YouTube video List of Aggressive Types of Cancer

List of Aggressive Types of Cancer

 

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