Adenosine nucleotide modulates the physical interaction between hMSH2 and BRCA1

We have identified the physical interaction between the Breast Cancer susceptibility gene product BRCA1 and the Hereditary Non-Polyposis Colorectal Cancer (HNPCC) and DNA mismatch repair (MMR) gene product hMSH2, both in vitro and in vivo. The BRCA1-hMSH2 association involved several well-defined regions of both proteins which include the adenosine nucleotide binding domain of hMSH2. Moreover, the interaction of BRCA1 with purified hMSH2-hMSH6 appears to be modulated by adenosine nucleotide much like G protein downstream interaction/signaling is modulated by guanosine nucleotide. BARD1, another BRCA1-interacting protein, was also found to interact with hMSH2. In addition, BRCA1 was found to associate with both hMSH3 and hMSH6, the heterodimeric partners of hMSH2. These observations implicate BRCA1/BARD1 as downstream effectors of the adenosine nucleotide-activated hMSH2-hMSH6 signaling complex, and suggest a global role for BRCA1 in DNA damage processing. The functional interaction between BRCA1 and hMSH2 may provide a partial explanation for the background of gynecological and colorectal cancer in both HNPCC and BRCA1 kindreds, respectively.

Adult rat otic placode-derived neurons and sensory epithelium express all four erbB receptors: a role in regulating vestibular ganglion neuron viability

The erbB receptor family consists of erbB1/epidermal growth factor receptor, erbB2/neu, erbB3, and erbB4, all of which have been implicated in cell proliferation, differentiation, and survival in several tissues. In the nervous system, these family members can function in a trophic capacity for certain subpopulations of neurons and some types of non-neuronal cells. Vestibular sensory epithelial cells and vestibular ganglion neurons are derived from ectodermal otic placode and are essential components of the peripheral vestibular system, the sensory system for balance. Recent studies in mammals suggest that certain ligands of the epidermal growth factor receptor can induce proliferation of vestibular sensory epithelial cells. We now show that vestibular ganglion neurons and vestibular sensory epithelial cells express all four erbB receptors in adult rats. Cultured vestibular ganglion neurons also expressed all four erbB family members and were therefore used to analyze the effects of modulating erbB signaling on differentiated vestibular ganglion neurons. Transforming growth factor-alpha (a ligand for epidermal growth factor receptor) and sensory and motor neuron-derived factor (a ligand for erbB3 and erbB4) promoted vestibular ganglion neuron viability, whereas epidermal growth factor (another ligand for epidermal growth factor receptor) did not. Glial growth factor 2 (another ligand for erbB3 and erbB4) and an antibody that blocks erbB2/neu-mediated signaling inhibited vestibular ganglion neuron viability. Collectively, these observations indicate that erbB signaling regulates the viability of differentiated otic placode-derived cells in mammals and suggest that exogenous modulation of erbB signaling in peripheral vestibular tissues may prove therapeutically useful in peripheral vestibular disorders.

Protein quantification from complex protein mixtures using a proteomics methodology with single-cell resolution

We have developed an extremely sensitive technique, termed immuno-detection amplified by T7 RNA polymerase (IDAT) that is capable of monitoring proteins, lipids, and metabolites and their modifications at the single-cell level. A double-stranded oligonucleotide containing the T7 promoter is conjugated to an antibody (Ab), and then T7 RNA polymerase is used to amplify RNA from the double-stranded oligonucleotides coupled to the Ab in the Ab-antigen complex. By using this technique, we are able to detect the p185(her2/neu) receptor from the crude lysate of T6-17 cells at 10(-13) dilution, which is 10(9)-fold more sensitive than the conventional ELISA method. Single-chain Fv fragments or complementarity determining region peptides of the Ab also can be substituted for the Ab in IDAT. In a modified protocol, the oligonucleotide has been coupled to an Ab against a common epitope to create a universal detector species. With the linear amplification ability of T7 RNA polymerase, IDAT represents a significant improvement over immuno-PCR in terms of sensitivity and has the potential to provide a robotic platform for proteomics.

The role of distinct p185neu extracellular subdomains for dimerization with the epidermal growth factor (EGF) receptor and EGF-mediated signaling

The extracellular domain of p185(c-neu) can be viewed as a complex structure of four subdomains, two of which are cysteine-rich subdomains. We have investigated the contribution of these distinct p185(c-neu) extracellular subdomains to p185/epidermal growth factor receptor (EGFR) heteromer formation and EGF-induced heteromeric signaling. Our studies indicate that at least two separate p185 subdomains, a region spanning subdomains I and II and subdomain IV are involved in association of p185 with the EGFR. We also demonstrated that subdomain IV reduced the heteromeric signaling and transforming activities induced by EGF after associating with EGFR. When 126 aa were deleted from subdomain IV, this small subdomain IV-derived fragment could still lead to heterodimers with EGFR and suppress EGF-induced mitogen-activated protein kinase activation and subsequent transformation abilities. These data provide information about trans-inhibitory mechanisms of mutant p185 species and also indicate that both the entire and a part of subdomain IV may represent a therapeutic target for erbB-overexpressing tumors. Finally, these studies define a basic feature of receptor-receptor associations that are determined by cystine-knot containing subdomains.

Modifying TNFalpha for therapeutic use: a perspective on the TNF receptor system

TNFalpha is an inflammatory mediator that is relevant to several autoimmune diseases. Macromolecular inhibitors of TNFalpha have proven therapeutically useful in some preliminary studies. We have developed small molecule TNFalpha antagonist based on the crystal structure of TNF receptor complex. The TNFalpha inhibitor is specific and mediates biological function similar to the inhibitory soluble TNF receptor. This review focuses on development of small molecule anti-TNFalpha mimetics by us and current status of other agents.

BRCA1 and cell signaling

The breast cancer and ovarian cancer susceptibility gene BRCA1 encodes a nucleoprotein whose mutations or aberrant expression is associated with both inherited and sporadic cancers. Studies over the last 6 years have suggested that BRCA1 may function as a scaffold in the assembly of a multi-protein complex, which plays a role in gene transcription, DNA damage repair, and transcription-coupled DNA damage repair. In this review, we discuss the implications drawn from the studies of BRCA1-interacting proteins and the cellular signaling pathways that may be involved in controlling the functions of BRCA1.

Suppressor T cells regulate the nonanergic cell population that remains after peripheral tolerance is induced to the Mls-1 antigen in T cell receptor Vbeta 8.1 transgenic mice

We have found suppressor T cells that inhibit the proliferative response of naive CD4(+) T cells in T cell receptor (TCR) Vbeta8.1 transgenic mice rendered tolerant in vivo by inoculation of Mls-1(a)-positive cells. This suppression was mediated by CD4(+) T cells but not by CD8(+) T cells or double-negative (DN) cells, and splenic CD4(+) T cells from tolerant mice displayed a greater suppression than lymph node CD4(+) T cells. Cell contact was required for efficient suppression, and known inhibitory cytokines such as IL-4, IL-10, and transforming growth factor beta were not involved. Suppressor T cells inhibited IL-2 production by naive CD4(+) T cells, and the addition of exogenous IL-2 diminished the suppressed activity while having little activity on tolerant T cells. Suppression was abolished by the elimination of CD25(+) T cells in the tolerant CD4(+) T cell subset. CD25(+)CD4(+) T cells suppressed the proliferative response of the residual fraction of the nonanergic population, namely, 6C10(+)CD4(+) T cells still present in the tolerant mice. However, 6C10(-)CD4(+) T cells still had reduced reactivity to Mls-1(a) even after CD25(+)CD4(+) T cells were removed and exogenous IL-2 was added. Suppressor cells appear to affect only residual nonanergic cells in situ, thereby facilitating the maintenance of the unresponsive state in vivo. These data provide a framework for understanding suppressor T cells and explain the difficulties and variables in defining their activity in other systems, because suppressor T cells apparently control only a small population of nonanergic cells in the periphery and may be viewed as a homeostatic mechanism.

Inhibition of EGFR-mediated phosphoinositide-3-OH kinase (PI3-K) signaling and glioblastoma phenotype by signal-regulatory proteins (SIRPs)

Several growth factors and cytokines, including EGF, are known to induce tyrosine phosphorylation of Signal Regulatory Proteins (SIRPs). Consistent with the idea that increased phosphorylation activates SIRP function, we overexpressed human SIRPalpha1 in U87MG glioblastoma cells in order to examine how SIRPalpha1 modulates EGFR signaling pathways. Endogenous EGFR proteins are overexpressed in U87MG cells and these cells exhibit survival and motility phenotypes that are influenced by EGFR kinase activity. Overexpression of the SIRPalpha1 cDNA diminished EGF-induced phosphoinositide-3-OH kinase (PI3-K) activation in U87MG cells. Reduced EGF-stimulated activation of PI3-K was mediated by interactions between carboxyl terminus of SIRPalpha1 and the Src homology-2 (SH2)-containing phosphotyrosine phosphatase, SHP2. SIRPalpha1 overexpression also reduced the EGF-induced association between SHP2 and the p85 regulatory subunit of PI3-K. Inhibition of transformation and enhanced apoptosis following gamma-irradiation were observed in SIRPalpha1-overexpressing U87MG cells, and enhanced apoptosis was associated with reduced levels of bcl-xL protein. Furthermore, SIRPalpha1-overexpressing U87MG cells displayed reduced cell migration and cell spreading that was mediated by association between SIRPalpha1 and SHP2. However, SIRPalpha1-overexpressing U87MG clonal derivatives exhibited no differences in cell growth or levels of mitogen-activated protein kinase (MAPK) activation. These data reveal a pathway that negatively regulates EGFR-induced PI3-K activation in glioblastoma cells and involves interactions between SHP2 and tyrosine phosphorylated SIRPalpha1. These results also suggest that negative regulation of PI3-K pathway activation by the SIRP family of transmembrane receptors may diminish EGFR-mediated motility and survival phenotypes that contribute to transformation of glioblastoma cells. Oncogene (2000) 19, 3999 - 4010.

New perspectives on anti-HER2/neu therapeutics

HER2/neu and the epidermal growth factor receptor (EGFR) are significantly overexpressed in several cancer cells. Overexpression of these two receptors accounts for progression of many types of cancer: breast, ovarian, skin, pancreas and brain. In recent years, several approaches to disable the receptor complexes have shown promise. Antibody-based therapy, kinase inhibitors and other inhibitors of signaling molecules are the major approaches. Our group developed the concept that an anti-p185HER2/neu monoclonal antibody might represent a therapeutic for cancer and this has culminated in a clinically useful therapeutic, the humanized monoclonal antibody Herceptin (trastuzumab). We have now developed a small-molecule form of an anti-HER2/neu peptidomimetic (AHNP) that exhibit functions comparable to those of the monoclonal antibody Herceptin. This approach may be considered a new paradigm in receptor-specific tumor therapeutics. A brief review of our approach in developing receptor-specific therapeutic agents for HER2/neu-related cancer is presented.

Distinct expression patterns of eph receptors and ephrins relate to the structural organization of the adult rat peripheral vestibular system

Eph receptors and their ligands, termed ephrins, have been implicated in axon guidance, neuron-target interactions, regional compartmentalization, and synaptic functions in nervous systems. These activities of the Eph family molecules prompted us to investigate whether these molecules play roles in the maintenance, regeneration and plasticity in the mature peripheral vestibular system. Using reverse transcription-polymerase chain reaction (RT-PCR), Western blot and immunocytochemical analyses, we identified distinct and reciprocal expression patterns of full-length isoforms of EphA5, EphA6, EphA7, EphB1, ephrin-A2 and ephrin-B1 that correlated with structural features of the peripheral vestibular system in adult rats. All of the Eph receptors and ephrins examined were localized in the cell bodies of vestibular ganglion neurons in vivo and in vitro, and were readily detected in their outgrowing neurites in vitro. In the utricle, these molecules were localized in distinct cellular and subcellular compartments corresponding to discrete features of utricular afferent innervation, e.g. defasciculation, branching and synapse formation. Taken together, these results identify the Eph receptors and ephrins as candidate molecular substrates for defining some aspects of the structural organization of the adult peripheral vestibular system.

VCP, a weak ATPase involved in multiple cellular events, interacts physically with BRCA1 in the nucleus of living cells

BRCA1, a breast/ovarian cancer susceptibility gene, undergoes mutations in as many as 50% of familial breast tumors. Recent studies indicate that BRCA1 may be involved in DNA damage repair. Here, we demonstrate that the BRCA1 protein physically associates with valosin-containing protein (VCP), a member of the ATPases associated with a variety of cellular activities (AAA) superfamily. In vitro studies revealed that VCP, via its N- terminal region, binds to amino acid residues 303-625 in the BRCA1 protein. Although found predominantly in the cytoplasm and, less abundantly, in the nucleus, VCP can be translocated from the nucleus after stimulation with epidermal growth factor. Collectively, our results suggest that VCP, by binding to BRCA1, participates in the DNA damage-repair function as an ATP transporter, possibly facilitating the transcription-coupled repair.

Rationally designed anti-HER2/neu peptide mimetic disables P185HER2/neu tyrosine kinases in vitro and in vivo

Monoclonal antibodies specific for the p185HER2/neu growth factor receptor represent a significant advance in receptor-based therapy for p185HER2/neu-expressing human cancers. We have used a structure-based approach to develop a small (1.5 kDa) exocyclic anti-HER2/neu peptide mimic (AHNP) functionally similar to an anti-p185HER2/neu monoclonal antibody, 4D5 (Herceptin). The AHNP mimetic specifically binds to p185HER2/neu with high affinity (KD=300 nM). This results in inhibition of proliferation of p185HER2/neu-overexpressing tumor cells, and inhibition of colony formation in vitro and growth of p185HER2/neu-expressing tumors in athymic mice. In addition, the mimetic sensitizes the tumor cells to apoptosis when used in conjunction with ionizing radiation or chemotherapeutic agents. A comparison of the molar quantities of the Herceptin antibody and the AHNP mimetic required for inhibiting cell growth and anchorage-independent growth showed generally similar activities. The structure-based derivation of the AHNP represents a novel strategy for the design of receptor-specific tumor therapies.

The synthetic CD4 exocyclic CDR3.AME(82-89) inhibits NF-kappaB nuclear translocation, HIV-1 promoter activation, and viral gene expression

We have previously shown that the synthetic aromatically modified exocyclic (AME) analog (CDR3.AME(82-89), derived from the CDR3 (residues 82-89) region of CD4 domain 1, inhibits replication of human immunodeficiency virus type 1 (HIV-1) in infected cells. In this work, we investigated the mechanism by which this inhibition is achieved. Although cells exposed to HIV-1 and treated with the CDR3.AME(82-89) peptide did not release viral particles for more than a week and kept surface expression of CD4, viral DNA was found in those cells 24 h after virus exposure, indicating that the CDR3.AME(82-89) analog does not prevent virus entry. However, virus transcription remained extremely low in infected cells, as demonstrated by the study of spliced HIV-1 mRNA in cultures treated with CDR3.AME(82-89) 72 h postinfection. Finally, the CDR3.AME(82-89) peptide was found to be a potent inhibitor of HIV-1 promoter activity and nuclear factor-kappaB translocation, indicating that the antiviral property of this peptide is, at least in part, linked with the ability of the molecule to prevent HIV-1 transcription.

A G1 cell cycle arrest induced by ligands of the reovirus type 3 receptor is secondary to inactivation of p21ras and mitogen-activated protein kinase

The reovirus type 3 S1 gene product (type 3 hemagglutinin; HA3) is the viral protein responsible for binding to a mammalian cell-surface receptor. It has been shown that HA3 binding to its receptor inhibits cell growth, even in the continuous presence of serum mitogens. Here, receptor-mediated signal transduction leading to growth arrest was studied after binding with synthetic or recombinant ligands in the absence of viral infection. Receptor ligation caused rapid inactivation of p21(ras), a decrease in Raf phosphorylation and in mitogen-activated protein kinase (MAPK) enzymatic activity, and G1 cell cycle arrest. Transfection and expression of constitutively active v-Has-ras prevented the G1 arrest, indicating that inactivation of p21(ras) is causative. Interestingly, v-Has-ras expression also decreased the efficiency of reoviridae replication, suggesting that inactivation of p21(ras) signals is required at some step of the viral cycle. This study may define new mechanisms regulating cell growth and support the approach of using viral proteins to identify and study cellular receptors. Synthetic receptor ligands with antiproliferative properties may be useful in drug development with the aim of blocking mitosis.

Shared antigenic epitopes and pathobiological functions of anti-p185(her2/neu) monoclonal antibodies

We have studied two anti-p185 antibodies: the monoclonal antibody 7. 16.4 and rhuMAb 4D5, which were raised against the the ectodomain of rat (p185(neu)), and the human (p185(her2/neu)) homolog, respectively. Studies on the structure of these two antibodies indicate that they share structural similarity in the variable region, especially the CDR3 region, which determines the antibody-antigen interaction. Further studies by flow cytometry revealed that 7.16.4 can compete with rhuMAb4D5 for binding to the cell surface p185(her2/neu), suggesting that these two antibodies share an epitope on the p185 receptor. Furthermore, 7.16.4 can also inhibit proliferation and transformation caused by p185(her2/neu). Moreover the rhuMAb 4D5 binds to the rat p185(neu). With the observation that 7.16.4 positively stains human breast cancer tissues that overexpress p185(her2/neu), 7.16.4 may be useful for the pathological diagnosis and therapy of human tumors.

Induction of the Tat-binding protein 1 gene accompanies the disabling of oncogenic erbB receptor tyrosine kinases

Conversion of a malignant phenotype into a more normal one can be accomplished either by down-regulation of erbB family surface receptors or by creating inactive erbB heterodimers on the cell surface. In this report, we report the identification and cloning of differentially expressed genes from antibody-treated vs. untreated fibroblasts transformed by oncogenic p185(neu). We repeatedly isolated a 325-bp cDNA fragment that, as determined by Northern analysis, was expressed at higher levels in anti-p185(neu)-treated tumor cells but not in cells expressing internalization defective p185(neu) receptors. This cDNA fragment was identical in amino acid sequence to the recently cloned mouse Tat binding protein-1 (mTBP1), which has 98.4% homology to the HIV tat-binding protein-1 (TBP1). TBP1 mRNA levels were found to be elevated on inhibition of the oncogenic phenotype of transformed cells expressing erbB family receptors. TBP1 overexpression diminished cell proliferation, reduced the ability of the parental cells to form colonies in vitro, and almost completely inhibited transforming efficiency in athymic mice when stably expressed in human tumor cells containing erbB family receptors. Collectively, these results suggest that the attenuation of erbB receptor signaling seems to be associated with activation/induction or recovery of a functional tumor suppressor-like gene, TBP1. Disabling erbB tyrosine kinases by antibodies or by trans-inhibition represents an initial step in triggering a TBP1 pathway.

Domain-specific interactions between the p185(neu) and epidermal growth factor receptor kinases determine differential signaling outcomes

We expressed the epidermal growth factor receptor (EGFR) along with mutant p185(neu) proteins containing the rat transmembrane point mutation. The work concerned the study of the contributions made by various p185(neu) subdomains to signaling induced by a heterodimeric ErbB complex. Co-expression of full-length EGFR and oncogenic p185(neu) receptors resulted in an increased EGF-induced phosphotyrosine content of p185(neu), increased cell proliferation to limiting concentrations of EGF, and increases in both EGF-induced MAPK and phosphatidylinositol 3-kinase (PI 3-kinase) activation. Intracellular domain-deleted p185(neu) receptors (T691stop neu) were able to associate with full-length EGFR, but induced antagonistic effects on EGF-dependent EGF receptor down-regulation, cell proliferation, and activation of MAPK and PI 3-kinase pathways. Ectodomain-deleted p185(neu) proteins (TDelta5) were unable to physically associate with EGFR, and extracellular domain-deleted p185(neu) forms failed to augment activation of MAPK and PI 3-kinase in response to EGF. Association of EGFR with a carboxyl-terminally truncated p185(neu) mutant (TAPstop) form did not increase transforming efficiency and phosphotyrosine content of the TAPstop species, and proliferation of EGFR.TAPstop-co-expressing cells in response to EGF was similar to cells containing EGFR only. Thus, neither cooperative nor inhibitory effects were observed in cell lines co-expressing either TDelta5 or TAPstop mutant proteins. Unlike the formation of potent homodimer assemblies composed of oncogenic p185(neu), the induction of signaling from p185(neu).EGFR heteroreceptor assemblies requires the ectodomain for ligand-dependent physical association and intracellular domain contacts for efficient intermolecular kinase activation.

Bacterial expression and characterization of recombinant biologically active anti-tyrosine kinase receptor antibody forms

Homomeric and heteromeric interactions among cell-surface tyrosine kinase receptors belonging to the ErbB family lead to intracellular signaling cascades which are involved in cell activation, cytoskeletal interactions, and cellular transformation leading to neoplasia. Monoclonal antibodies which specifically bind to p185neu or epidermal growth factor receptor (EGFR), such as 7.16.4 and 225, respectively, can elicit tumor growth-inhibitory effects on transformed cells which overexpress either or both of these receptors. In order to better understand these receptor-receptor and receptor-antibody interactions and to gain insights that may be useful in the production and design of an antibody-based anticancer therapeutic, novel small recombinant 7.16.4 and 225 single-chain Fv fragments (scFv) were constructed, expressed, and characterized. We showed that these recombinant antibody fragments, which retain binding affinity, can be produced and purified from bacterial cell lysates. Our analyses further demonstrate that fusion of a 61 amino-acid dimerization domain with 7.16.4 and 225 scFv (7.16.4hth and 225hth) is sufficient to restore biological activity to these recombinant proteins.

BRCA1 binds c-Myc and inhibits its transcriptional and transforming activity in cells

c-Myc, a proto-oncogene that is implicated in tumorigenesis, embryonic development and apoptosis, can physically associate with BRCA1. We have found that BRCA1 interacts with c-Myc in yeast, in in vitro assays and in mammalian cells. Endogenous interactions between BRCA1 and c-Myc were also observed. Efficient BRCA1-Myc association requires the intact helix-loop-helix region of c-Myc, a motif involved in Myc-Max dimerization. BRCA1 does not however bind to Max. Our studies revealed that BRCA1 represses Myc-mediated transcription while having no effect on some other transcriptional activities. Furthermore, BRCA1 reverses the phenotype of embryonic fibroblasts transformed by the activation of Myc and Ras, but only minimally affects the transformed phenotype induced by SV40 virus. These data indicate that BRCA1 may function as a tumor suppressor by regulating the behavior of c-Myc and provide a molecular explanation for some of the effects of the BRCA1 gene product.

Conversion of a radioresistant phenotype to a more sensitive one by disabling erbB receptor signaling in human cancer cells

Inhibition of cell growth and transformation can be achieved in transformed glial cells by disabling erbB receptor signaling. However, recent evidence indicates that the induction of apoptosis may underlie successful therapy of human cancers. In these studies, we examined whether disabling oncoproteins of the erbB receptor family would sensitize transformed human glial cells to the induction of genomic damage by gamma-irradiation. Radioresistant human glioblastoma cells in which erbB receptor signaling was inhibited exhibited increased growth arrest and apoptosis in response to DNA damage. Apoptosis was observed after radiation in human glioma cells containing either a wild-type or mutated p53 gene product and suggested that both p53-dependent and -independent mechanisms may be responsible for the more radiosensitive phenotype. Because cells exhibiting increased radiation-induced apoptosis were also capable of growth arrest in serum-deprived conditions and in response to DNA damage, apoptotic cell death was not induced simply as a result of impaired growth arrest pathways. Notably, inhibition of erbB signaling was a more potent stimulus for the induction of apoptosis than prolonged serum deprivation. Proximal receptor interactions between erbB receptor members thus influence cell cycle checkpoint pathways activated in response to DNA damage. Disabling erbB receptors may improve the response to gamma-irradiation and other cytotoxic therapies, and this approach suggests that present anticancer strategies could be optimized.

Absence of autophosphorylation site Y882 in the p185neu oncogene product correlates with a reduction of transforming potential

Autophosphorylation of type I receptor tyrosine kinases (RTKs) comprises one step in the signaling events mediated by erbB receptors such as p185neu and EGFR. Previous analysis of p185neu has indicated that there are at least five tyrosine autophosphorylation sites, Y882, Y1028, Y1143, Y1226/7 and Y1253, of which Y882 might be important because of its location in the kinase activity domain. We have specifically analysed the effect of a Y882F (phenylalanine substituted for tyrosine at position 882) mutation in the enzymatic active domain. We also deleted the carboxyl terminal 122 amino acids which contained three other autophosphorylation sites (TAPstop) and combined mutants of that deletion with Y882F (Y882F/APstop). Both in vitro and in vivo transformation assays showed that substitution of tyrosine882 by phenylalanine significantly decreased the transforming potential of activated, oncogenic p185neu, although no significant difference in the total phosphotyrosine levels of the mutant proteins were observed. To analyse mitogenic signaling in response to ligand, the intracellular domains of p185neu and Y882F were fused with the extracellular domain of the EGF receptor. The proliferation of cells expressing these chimeric receptors was EGF-dependent, and cells expressing EGFR/Y882F chimeric receptors were less responsive to EGF stimulation than those expressing EGFR/neu receptors. In vitro kinase assays demonstrated that abolishing the autophosphorylation site Y882 diminished the enzymatic tyrosine kinase activity of p185neu. These studies, taken together with the phenotypic inhibition observed with cells expressing Y882F, suggest that the tyrosine882 residue may be important for p185neu-mediated transformation by affecting the enzymatic kinase function of the p185neu receptor.

Unique molecular surface features of in vivo tolerized T cells

Differential expression of surface markers can frequently be used to distinguish functional subsets of T cells, yet a surface phenotype unique to T cells induced into an anergic state has not been described. Here, we report that CD4 T cells rendered anergic in vivo by superantigen can be identified by loss of the 6C10 T cell marker. Inoculation of Vbeta8.1 T cell antigen receptor (TCR) transgenic mice with a Vbeta8.1-reactive minor lymphocyte-stimulating superantigen (Mls-1(a)) induces tolerance to Mls-1(a) by clonal anergy. CD4 lymph node T cells from Mls-1(a) inoculated transgenic mice enriched for the 6C10(-) phenotype neither proliferate nor produce interleukin-2 upon TCR engagement, whereas 6C10(+) CD4 T cells retain responsiveness. Analysis of T cell memory markers demonstrate that 6C10(-) T cells remain 3G11(hi) but express heterogeneous levels of CD45RB, CD62L, CD44, and the CD69 early activation marker, suggesting that T cells at various degrees of activation can be functionally anergic. These studies demonstrate that anergic T cells can be purified based on 6C10 expression permitting examination of issues concerning biochemical and biological features specific to T cell anergy.