Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Target Concepts:
Gene/Protein
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Enzyme
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Query: UNIPROT:O76050 (
neu
)
3,969
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The protein encoded by the
neu
protooncogene (human gene symbol NGL for neuro/glioblastoma-derived) is a member of the surface receptor/tyrosine kinase family. Though its structure suggests that it can transduce a transmembrane signal, neither its extracellular ligand nor its critical intracellular substrates are known. To explore the functional properties of the protein encoded by
neu
, we created a fusion gene that joins the cytoplasmic domain of
neu
to the extracellular portion of an
immunoglobulin heavy chain
. The localization of the fusion polypeptide can then be controlled by coexpression with immunoglobulin light chain. In the absence of light chain, the heavy chain-
neu
polypeptide is expressed intracellularly and has no transforming activity. By contrast, in the presence of light chain the fusion polypeptide is expressed at the cell surface and produces tumorigenic foci. Thus, transformation apparently requires expression at the cell surface, where the
neu
intracellular domain can interact with components that are localized to the plasma membrane. The fusion protein is active in cellular transformation when the transmembrane domain is derived either from
neu
or from immunoglobulin, indicating that the
neu
transmembrane domain is not specifically required for transformation, although
neu
activation in tumors is known to result from a point mutation in this region. The extracellular immunoglobulin heavy and light chain domains of the fusion protein form a functional binding site that allows antigen to modulate its activity, reversing the transforming effect.
...
PMID:neu protooncogene fused to an immunoglobulin heavy chain gene requires immunoglobulin light chain for cell surface expression and oncogenic transformation. 290
The successful eradication of cancer cells in the setting of minimal residual disease may require targeting of metastatic tumor deposits that evade the immune system. We combined the targeting flexibility and specificity of mAbs with the immune effector function of the chemokine RANTES to target established tumor deposits. We describe the construction of an Ab fusion molecule with variable domains directed against the tumor-associated Ag HER2/
neu
, linked to sequences encoding the chemokine RANTES (RANTES.her2.
IgG3
). RANTES is a potent chemoattractant of T cells, NK cells, monocytes, and dendritic cells, and expression of RANTES has been shown to enhance immune responses against tumors in murine models. RANTES.her2.
IgG3
fusion protein bound specifically to HER2/
neu
Ag expressed on EL4 cells and on SKBR3 breast cancer cells as assayed by flow cytometry. RANTES.her2.
IgG3
could elicit actin polymerization of THP-1 cells and transendothelial migration of primary T lymphocytes. RANTES.her2.
IgG3
prebound to SKBR3 cells also facilitated migration of T cells. RANTES.her2.
IgG3
bound specifically to the CCR5 chemokine receptor, as demonstrated by flow cytometry, and inhibited HIV-1 infection via the CCR5 coreceptor. RANTES.her2.
IgG3
, alone or in combination with other chemokine or cytokine fusion Abs, may be a suitable reagent for recruitment and activation of an expanded repertoire of effector cells to tumor deposits.
...
PMID:A RANTES-antibody fusion protein retains antigen specificity and chemokine function. 975 98
IL-12 is a heterodimeric cytokine with many actions on innate and cellular immunity that may have antitumor and antimetastatic effects. However, systemic administration of IL-12 can be toxic. Tumor-specific Abs provide a means to selectively target a metastatic/residual nodule and deliver therapeutic quantities of an immunostimulatory molecule like IL-12 with lower systemic levels and ideally, toxicity. We report the construction and characterization of an Ab fusion protein in which single-chain murine IL-12 is fused to an anti-Her2/
neu
Ab at the amino terminus (mscIL-12.her2.
IgG3
). The use of single-chain IL-12 in the fusion protein simplifies vector construction, ensures equimolar concentrations of the two IL-12 subunits, and may confer greater stability to the fusion protein. SDS-PAGE analysis shows this 320-kDa protein is secreted and correctly assembled. FACS analysis demonstrates that this fusion protein binds to cells transfected with the Her2/
neu
Ag, thus retaining Ab specificity; this fusion protein also binds to a cell line and to PHA-activated PBMC that express the IL-12R, thus demonstrating cytokine receptor specificity. T cell proliferation assays and NK cytotoxicity assays demonstrate that this fusion protein exhibits IL-12 bioactivity comparable to recombinant murine IL-12. In vivo studies demonstrate that this fusion protein has antitumor activity. These results are significant and suggest that this IL-12 Ab fusion protein can effectively combine the therapeutic potential of IL-12 with the tumor-targeting ability of the Ab and may provide a viable alternative to systemic administration of IL-12.
...
PMID:A single-chain IL-12 IgG3 antibody fusion protein retains antibody specificity and IL-12 bioactivity and demonstrates antitumor activity. 1038 23
Anti-HER2/
neu
therapy of human HER2/
neu
-expressing malignancies such as breast cancer has shown only partial success in clinical trials. To expand the clinical potential of this approach, we have genetically engineered an anti-HER2/
neu
IgG3
fusion protein containing GM-CSF. Anti-HER2/
neu
IgG3
-(GM-CSF) expressed in myeloma cells was correctly assembled and secreted. It was able to target HER2/
neu
-expressing cells and to support growth of a GM-CSF-dependent murine myeloid cell line, FDC-P1. The Ab fusion protein activated J774.2 macrophage cells so that they exhibit an enhanced cytotoxic activity and was comparable to the parental Ab in its ability to effect Ab-dependent cellular cytotoxicity-mediated tumor cell lysis. Pharmacokinetic studies showed that anti-HER2/
neu
IgG3
-(GM-CSF) is stable in the blood. Interestingly, the half-life of anti-HER2/
neu
IgG3
-(GM-CSF) depended on the injected dose with longer in vivo persistence observed at higher doses. Biodistribution studies showed that anti-HER2/
neu
IgG3
-(GM-CSF) is mainly localized in the spleen. In addition, anti-HER2/
neu
IgG3
-(GM-CSF) was able to target the HER2/
neu
-expressing murine tumor CT26-HER2/
neu
and enhance the immune response against the targeted Ag HER2/
neu
. Anti-HER2/
neu
IgG3
-(GM-CSF) is able to enhance both Th1- and Th2-mediated immune responses and treatment with this Ab fusion protein resulted in significant retardation in the growth of s.c. CT26-HER2/
neu
tumors. Our results suggest that anti-HER2/
neu
IgG3
-(GM-CSF) fusion protein is useful in the treatment of HER2/
neu
-expressing tumors.
...
PMID:Recombinant anti-human HER2/neu IgG3-(GM-CSF) fusion protein retains antigen specificity and cytokine function and demonstrates antitumor activity. 1104 42
Anti-HER2/
neu
therapy of human HER2/
neu
expressing malignancies such as breast cancer has shown only partial success in clinical trials. To expand the clinical potential of this approach, we have genetically engineered an anti-HER2/
neu
human
IgG3
fusion protein containing interleukin-2 (IL-2) fused at its carboxyl terminus. Anti-Her2/
neu
IgG3
-(IL-2) retained antibody and cytokine related activity. Treatment of immunocompentent mice with this antibody fusion protein resulted in significant retardation in the subcutaneous (s.c.) growth of CT26-HER2/
neu
tumors suggesting that anti-HER2/
neu
IgG3
-(IL-2) fusion protein will be useful in the treatment of HER2/
neu
expressing tumors. We also found that fusing IL-2 to human
IgG3
results in a significant enhancement of the murine anti-human antibody (MAHA) response.
...
PMID:A recombinant IgG3-(IL-2) fusion protein for the treatment of human HER2/neu expressing tumors. 1145 61
We have constructed an antibody interleukin-12 (IL-12) fusion protein (mscIL-12.her2.
IgG3
) that demonstrates significant antitumor activity against the murine carcinoma CT26-expressing human HER2/
neu
. We now report that this antitumor activity is dose dependent and comparable to or better than recombinant murine IL-12 (rMuIL-12) using subcutaneous and metastatic models of disease. The antitumor activity of mscIL-12.her2.
IgG3
is reduced in Rag2 knockout mice, suggesting that T cells play a role in tumor rejection. In SCID-beige mice, the antitumor activity is further reduced, suggesting that natural killer (NK) cells or macrophages or both are also important. The isotype of the antibody response to HER2/
neu
is consistent with a switch from a Th2 to a Th1 immune response and the infiltration of mononuclear cell in tumors from mice treated with mscIL-12.her2.
IgG3
. Immunohistochemistry reveals that mscIL-12.her2.
IgG3
is antiangiogenic. Thus, the mechanism of the antitumor activity exhibited by mscIL-12.her2.
IgG3
is highly complex and involves a combination of T and NK cell activity, a switch to a Th1 immune response, and antiantiogenic activity. This is the first study comparing the in vivo antitumor activity of an antibody-IL-12 fusion protein and free IL-12. Our results suggest that antibody-IL-12 fusion proteins may be useful for the treatment of human cancer.
...
PMID:Mechanism of antitumor activity of a single-chain interleukin-12 IgG3 antibody fusion protein (mscIL-12.her2.IgG3). 1157 65
Previously protein vaccines consisting of the extracellular domain of HER2/
neu
(ECD(HER2)) were shown to elicit an immune response that does not provide protection against transplantable tumors expressing HER2/
neu
. Here, we showed that when mice were vaccinated with a mixture of human ECD(HER2) and anti-human HER2/
neu
IL-12, IL-2 or GM-CSF fusion proteins, significant retardation of the growth of a syngeneic carcinoma expressing rat HER2/
neu
, and long-term survivors were observed. Immune sera inhibited the in vitro growth of SK-BR-3, a human breast cancer overexpressing HER2/
neu
. Transfer of immune sera into mice challenged with TUBO also led to partial inhibition of tumor growth. Splenocytes from mice vaccinated with ECD(HER2) plus
IgG3
-(GM-CSF) incubated with ECD(HER2) demonstrated significant proliferation and IFN-gamma secretion. Taken together these results suggest that vaccines including ECD(HER2) and Ab-cytokine fusion proteins may be used to elicit both humoral and cell-mediated responses against HER2/
neu
.
...
PMID:Protein vaccination with the HER2/neu extracellular domain plus anti-HER2/neu antibody-cytokine fusion proteins induces a protective anti-HER2/neu immune response in mice. 1261 26
Here, we report that a significant increase in recombinant fusion antibody expression can be accomplished by adjusting the nucleotide sequence to conform to certain codon pairing rules. We investigated the expression of a protein in which a single chain Fv specific for HER2/
neu
with VH and VL joined by a flexible (GGGGS)3 linker was linked to the CH3 of a human anti-rat transferrin receptor
IgG3
heavy chain with the same flexible (GGGGS)3 linker. In initial experiments we failed to achieve significant expression of this protein. However, when we made a single nucleotide change in each (GGGGS)3 linker we were able to achieve expression The change of one nucleotide within each linker did not alter either the amino acid sequence or the frequency score of these codon triplets' usage in mammalian cells. Instead they removed two codon pairs predicted to be detrimental to expression. In a transient transfection assay we find that this change results in an over 30-fold increase in expression that is not the result of an increase in the level of accumulated mRNA. In addition, the changes made it possible to isolate stably transfected mammalian cell clones producing high levels of fusion protein, which had not been possible using the original gene.
...
PMID:Optimization of codon pair use within the (GGGGS)3 linker sequence results in enhanced protein expression. 1464 97
A vaccine combining IL-12 and allogeneic mammary carcinoma cells expressing p185(
neu
) completely prevents tumor onset in HER-2/neu transgenic BALB/c mice (NeuT mice). The immune protection elicited was independent from CTL activity. We now formally prove that tumor prevention is mainly based on the production of anti-p185(
neu
) Abs. In the present studies, NeuT mice were crossed with knockout mice lacking IFN-gamma production (IFN-gamma(-/-)) or with B cell-deficient mice (microMT). Vaccination did not protect NeuT-IFN-gamma(-/-) mice, thus confirming a central role of IFN-gamma. The block of Ab production in NeuT-microMT mice was incomplete. About one third of NeuT-microMT mice failed to produce Abs and displayed a rapid tumor onset. By contrast, those NeuT-microMT mice that responded to the vaccine with a robust production of anti-p185(
neu
) Ab displayed a markedly delayed tumor onset. In these NeuT-microMT mice, the vaccine induced a lower level of IgG2a and
IgG3
and a higher level of IgG2b than in NeuT mice. Moreover, NeuT-microMT mice failed to produce anti-MHC class I Abs in response to allogeneic H-2(q) molecules present in the cell vaccine. These findings show that inhibition of HER-2/neu carcinogenesis depends on cytokines and specific Abs, and that a highly effective vaccine can rescue Ab production even in B cell-deficient mice.
...
PMID:Immunoprevention of mammary carcinoma in HER-2/neu transgenic mice is IFN-gamma and B cell dependent. 1529 41
Immunologic targeting of the oncoprotein HER2/
neu
with monoclonal antibodies is an important component of current therapeutic strategies for patients with locally and systemically advanced breast cancer. Engineered antibodies targeting HER2 may have agonist or antagonist effects on HER2, but little is known about whether endogenous antibodies modulate HER2 activity. Vaccination of patients with HER2 peptides successfully induced antibodies in a minority of patients with HER2-expressing malignancy. A subset of antibodies specifically suppressed phosphorylation of HER2 on tyrosine Y1248, a residue critical for HER2 signaling through extracellular signal-regulated kinase. These antibodies also suppressed extracellular signal-regulated kinase phosphorylation and inhibited colony formation in soft agar. The majority of the antibodies that suppressed HER2 phosphorylation displayed specificity for amino acids 328 to 345 and 369 to 384. The isotype of anti-HER2 antibodies was predominantly
IgG3
of low avidity, suggesting a Th1 response to peptide vaccine. Endogenous anti-HER2 antibodies can effectively suppress HER2 kinase activity and downstream signaling to inhibit the transformed phenotype of HER2-expressing tumor cells.
...
PMID:Endogenous anti-HER2 antibodies block HER2 phosphorylation and signaling through extracellular signal-regulated kinase. 1569 10
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