Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:1.10.3.1 (
tyrosinase
)
9,065
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A better understanding of immune recognition of cells has led to identification of potential new targets on tumor cells. Noticeable successes in melanoma have been immunization with the GM2 ganglioside vaccine, and the identification of novel antigens such as MAGE, BAGE and GAGE recognized by T cells cloned from cancer patients with regressing disease. However, the unexpected finding that other antigens recognized by these T cells were overexpressed normal differentiation antigens such as
tyrosinase
. Pmel 17 and Melan A have led to vaccines developed against differentiation antigens expressed in other solid tumors. Monoclonal antibody, anti-idiotype and antigen based vaccines for colorectal target antigens 17-1A, CEA and 791Tgp72 are all in clinical development. Similarly HER2/neu and
mucin
overexpression in breast cancer represent promising targets. Mutations in tumor oncogenes or suppressor genes which lead to malignant transformation can also present tumor-specific antigens. The most effective vaccines against infectious disease are live viruses. The development of DNA vaccines which act like viruses in entering cells and show continuous production of antigens offers great potential for the future.
...
PMID:Cancer vaccines. 939 16
Cancer vaccines have been explored clinically against melanomas, adenocarcinomas and lymphomas. Breast cancer vaccines include Theratope, MUC1
mucin
peptides and HER-2/neu peptide vaccines. Phase II trials suggest prolongation of survival of advanced breast cancer patients who generate high titers of antibody to Theratope. In contrast, melanoma ganglioside vaccines, which also elicit only antibodies, have not been effective in improving survival in controlled trials. Anti-idiotype vaccines for solid tumors, which depend upon mimicry of the tumor-associated antigens, have also had limited success. In lymphomas, where the idiotypes are the tumor-associated antigens, greater success has been achieved. A number of tumor-associated antigens have been identified in melanoma, such as the lineage related cancer-testis group (MAGE) and
tyrosinase
-related antigens. Non-lineage related antigens shared among a variety of very different tumors have recently been demonstrated too, which may permit immunization against more than one tumor group. Telomerase and MG50, one of several interleukin-1 receptor antagonist molecules, are both immunogenic and widespread in their representation. Carcinoembryonic antigen is the basis for vaccines against many adenocarcinomas. Both viral and non-viral vectors are being used to improve the reactivity to peptides in adenocarcinomas. Dendritic cell-carried vaccines, which package the antigens ex vivo rather than depending upon in vivo uptake, are being extensively explored in clinical models to improve the effectiveness of defined vaccines, such as peptides and RNA. 'Naked' DNA vaccines injected intramuscularly also have their advocates. Among the most recent attempts to improve the immunogenicity of vaccines is the use of antigens newly identified by genomic techniques and 'superagonist' peptide mimics, selected from combinatorial peptide libraries. These modern biochemical and molecular biological methods may greatly expand our ability to immunize against tumor antigens, which are essentially 'self' molecules. Finally, a greater understanding of ways in which tumors escape immunological detection or thwart immunological responses should lead to improved strategies against the tumor to augment the effect of vaccination.
...
PMID:Cancer vaccines, a critical review--Part II. 1205 66
