Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:Q86TM3 (cage)
 29,987 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

PRL-1 (phosphatase of regenerating liver-1), PRL-2 and PRL-3 are protein tyrosine phosphatases with a C-terminal prenylation motif that are localized to the inner leaflet of the plasma membrane and early endosomes. A variety of metastatic PRL-overexpressing cancers have been reported. Therefore, the three PRL-phosphatases represent an intriguing group of proteins being validated as biomarkers and therapeutic targets in cancer. Targeting intracellular PRLs to prevent cancer metastasis by exogenous reagents is a challenging task. In an attempt to destroy PRL-overexpressing cancer cells with their respective PRL-antibodies, we generated an animal model that allows rapid formation of aggressive metastatic tumors caused by inoculation of PRL-1- or PRL-3-expressing cells. Surprisingly, mice treated with PRL-1 or PRL-3 mAbs show inhibition of tumor formation by approximately 90% compared to untreated mice. Here we provide the first examples that PRL-1 and PRL-3 mAbs are able to target their respective phosphatases specifically and efficiently despite their intracellular localization to block cancer metastasis in experimental animals. Furthermore, we also demonstrate that PRL-1 mAb specifically blocks the formation of metastatic tumors formed by PRL-1- (but not PRL-3-) expressing cells; while PRL-3 mAb specifically blocks tumor formation of PRL-3- (but not PRL-1-) expressing cells. More importantly, we show that metastatic tumor formation by A2780 human ovarian cancer cells that express endogenous PRL-3 is dramatically blocked by PRL-3 antibodies. In contrast, the PRL-3 antibody treatment has no effect on tumor formation of CT26 mouse colon cancer cells which do not naturally express PRL-3 protein. Our data provide hope for the treatment of PRL-expressing cancers and will prompt a reevaluation of a wide spectrum of intracellular oncoproteins as possible targets with mAbs for anticancer therapy.
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PMID:Monoclonal antibodies target intracellular PRL phosphatases to inhibit cancer metastases in mice. 1836 70

Antibody-based therapies have better specificity and thus improved efficacy over standard chemotherapy regimens, which result in extended survival and improved quality of life for cancer patients. Because antibodies are viewed as too large to access intracellular locations, antibody therapy has traditionally targeted extracellular or secreted proteins expressed by cancer cells. However, many oncogenic proteins are found within the cell (such as intracellular phosphatases/kinases and transcription factors) and have therefore not been pursued for antibody therapies. Here, we explored the possibility of antibody therapy or vaccination against intracellular proteins. As proofs of concept, we selected three representative intracellular proteins as immunogens for tumor vaccine studies: PRL-3 (phosphatase of regenerating liver 3), a cancer-associated phosphatase; EGFP (enhanced green fluorescent protein), a general reporter; and mT (polyomavirus middle T), the polyomavirus middle T oncoprotein. A variety of tumors that expressed these intracellular proteins were clearly inhibited by their respective exogenous antibodies or by antigen-induced host antibodies (vaccination). These anticancer activities were reproducibly observed in hundreds of C57BL/6 tumor-bearing mice and MMTV-PymT transgenic breast tumor mice. Our in vivo data suggest that immunotherapies can target not only extracellular but also intracellular oncoproteins.
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PMID:Targeting intracellular oncoproteins with antibody therapy or vaccination. 2190 May 91

The metastasis-associated tyrosine phosphatase PRL-3/PTP4A is upregulated in numerous cancers, but the mechanisms modulating PRL-3 activity other than its expression levels have not been investigated. Here we report evidence for both Src-dependent tyrosine phosphorylation of PRL-3 and Src-mediated regulation of PRL-3 biological activities. We used structural mutants, pharmacological inhibitors and siRNA to demonstrate Src-dependent phosphorylation of endogenous PRL-3 in SW480 colon cancer cells. We also demonstrated that PRL-3 was not tyrosine phosphorylated in SYF mouse embryo fibroblasts deficient in Src, Yes and Fyn unless Src was re-expressed. Further, we show that platelet-derived growth factor (PDGF) can stimulate PRL-3 phosphorylation in a Src-dependent manner. Finally, we show that PRL-3-induced cell motility, Matrigel invasion and activation of the cytoskeleton-regulating small GTPase RhoC were abrogated in the presence of the phosphodeficient PRL-3 mutant Y53F, or by use of a Src inhibitor. Thus, PRL-3 requires the activity of a Src kinase, likely Src itself, to promote these cancer-associated phenotypes. Our data establish a model for the regulation of PRL-3 by Src that supports the possibility of their coordinate roles in signaling pathways promoting invasion and metastasis, and supports simultaneous use of novel molecularly targeted therapeutics directed at these proteins.
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PMID:Src-mediated phosphorylation of the tyrosine phosphatase PRL-3 is required for PRL-3 promotion of Rho activation, motility and invasion. 2369 Nov 93