The demonstration that naturally induced tumors in rodents were largely non
immunogenic and disappointing results from clinical studies were responsibl
e for the notion that tumors are not sufficiently distinct from normal tiss
ue to activate the immune system and led to the inevitable conclusion that
immunological intervention in cancer is futile (Hewitt et al., 1976). In a
seminal work, van Pel and Boon have shown that a protective immune response
can be generated against a "nonimmunogenic" murine tumor, providing the fi
rst experimental evidence that lack of immunogenicity could be due to the t
umor's inability to activate the immune system rather then the absence of t
umor antigens (van Pel and Boon, 1982). This observation, subsequently conf
irmed and extended to other rodent nonimmunogenic tumor models, has shown t
hat by proper manipulation-otherwise called vaccination-the tumor antigens
present in nonimmunogenic tumors can be "exposed" to the immune system to g
enerate an immune response capable of eradicating the tumor. If this conclu
sion can be extrapolated to human cancer-and I see no reason why it cannot-
all forms of cancer should be susceptible to immunological intervention; na
mely, all forms of cancer contain tumor antigens that can be targeted for i
mmunotherapy.
The recognition that tumors could after all be sufficiently "foreign" to be
recognized by the immune system has reinvigorated the efforts to identify
and isolate tumor antigens (Boon and van der Bruggen, 1996; Rosenberg, 1999
). This review will focus on what makes a tumor antigen a good or not-so-go
od target for immunotherapy.