Treatment with Cancer Vaccines

Therapeutic vaccines use cancer cells that have been attenuated (weakened) or tumor antigens (sometimes with adjuvants). This type of treatment is called active specific immunotherapy.

Another type of cancer treatment immunotherapy has already show very strong results. The first monoclonal antibodies were approved for treatment of cancer in 1986, and many new varieties are under development. Although they are not vaccines, monoclonal antibodies do use the immune system to fight cancer cells in a similar manner: In a cancer vaccine, an antigen is injected that stimulates the B cells to produce antibodies against the tumor cells, but in monoclonal antibody therapy, the antibodies that would be produced by B cells are injected directly into the patient. The same or similar antibodies reach the tumor cell, but they are produced outside the patient’s body rather than by the patient’s own cells. Cancer is essentially a genetic disease, in that all cancer cells have some alteration of gene expression.

The antibodies are instead produced in cell cultures of B cells that have been stimulated by the tumor antigen. The antigen is first injected into a human or some other vertebrate several times, and the B cells that make antibodies against it are removed. The antibody producing B cells are then fused with cancerous B cells (because the cancerous cells can divide indefinitely due to the telomerase discussed earlier) that have lost the ability to produce antibodies. The result is multiple lines of cells that produce mass quantities of antibodies against the antigen of interest. The various cell lines are tested, and the one that produces the antibody that binds to the antigen best is used to produce the antibodies that are ultimately injected as monoclonal antibody therapy.

Combination Therapy

Many cancer patients are treated in a combination therapy regimen. This means two or more types of treatment are employed. The three most common modalities are surgery, radiation, and chemotherapy. Other treatment modalities are hormone therapy and immunotherapy. If cancer vaccines prove viable, there is a good chance they will find use in combination therapy programs.

Early studies have suggested that patients treated with a cancer vaccine before other therapies may have better chances. This is still mostly conjectural, and it will be years before we have enough clinical experience to establish regimen guidelines.

It appears that the introduction of a vaccine to the body starts an immune response and activation of the immune system. Radiotherapy and some chemotherapy can increase cancer cells’ susceptibility to T-cells, so the body is better able to stop tumor growth.

The same vaccination strategies used for preventative vaccinations against infectious diseases like influenza and the measles won’t necessarily be appropriate for therapeutic cancer vaccination. Cancer usually takes a toll on a person’s immune system, so a vaccine won’t produce the same kind of response. Further, the antigens produced by cancer differ from the antigens produced by other infectious diseases in that they are self-antigens characteristic of autoimmune diseases. The immune system doesn’t recognize these as foreign threats and T-cells are not activated. Self-antigens are part of the reason it is so hard to treat lupus and AIDS. For this reason, scientists may have to develop methods to specifically stimulate the immune system. Claims of stimulation of the immune system has been a staple of quack remedies, but serious scientists are looking into real methods to aid in vaccine-assisted immunotherapy for cancer. Proposed methods include stimulation of specific T-cells and strategies to block immune regulation.