Metformin alters DNA methylation genome-wide via the H19/SAHH axis.

The molecular mechanisms underlying the antineoplastic properties of metformin, a first-line drug for type 2 diabetes, remain elusive. Here we report that metformin induces genome-wide alterations in DNA methylation by modulating the activity of S-adenosylhomocysteine hydrolase (SAHH). Exposing cancer cells to metformin leads to hypermethylation of tumor-promoting pathway genes and concomitant inhibition of cell proliferation. Metformin acts by upregulating microRNA let-7 through AMPK activation, leading to degradation of H19 long noncoding RNA, which normally binds to and inactivates SAHH. H19 knockdown activates SAHH, enabling DNA methyltransferase 3B to methylate a subset of genes. This metformin-induced H19 repression and alteration of gene methylation are recapitulated in endometrial cancer tissue samples obtained from patients treated with antidiabetic doses of metformin. Our findings unveil a novel mechanism of action for the drug metformin with implications for the molecular basis of epigenetic dysregulation in cancer. This novel mechanism of action also may be occurring in normal cells.

Reduced expression of the epidermal growth factor signaling system in preeclampsia.

INTRODUCTION: The epidermal growth factor (EGF) signaling system regulates trophoblast differentiation, and its disruption could contribute to perinatal disease. We hypothesized that this pathway is altered in preeclampsia, a disorder associated with trophoblast apoptosis and failure to invade and remodel the uterine spiral arteries. METHODS: Six EGF family peptides and a truncated EGF receptor splice variant (p110/EGFR) were examined using immunohistochemistry in the trophoblast of placentas (N = 76) from women with preeclampsia, and compared to placentas from women of similar gestational age (GA) with preterm labor (PTL) or small for gestational age (SGA) fetuses, as well as normal term placentas. EGF, transforming growth factor-α (TGFA), and heparin-binding EGF-like growth factor (HBEGF) were evaluated using ELISA in maternal plasma from another 20 pregnancies with or without preeclampsia. Cell death was evaluated in the HTR-8/SVneo human cytotrophoblast cell line using TUNEL to evaluate the protective effects of EGF peptides. RESULTS: Trophoblast HBEGF, TGFA, and EGF were significantly reduced in preeclampsia compared to PTL and SGA, while p110/EGFR accumulated significantly on the surface of the chorionic villi (p < 0.05). Plasma EGF levels were significantly decreased in preeclamptic patients, compared to non-preeclamptic patients (p < 0.05). HBEGF, EGF, TGFA, epiregulin, and betacellulin each blocked cytotrophoblast cell death in vitro (p < 0.05). DISCUSSION: Three members of the EGF family are dysregulated in placentas with preeclampsia, whereas p110/EGFR, a potential EGF receptor antagonist, is overexpressed. These findings are consistent with the concept that disruption of the EGF signaling system contributes to aberrant trophoblast development associated with preeclampsia.

Pluripotency factors Lin28 and Oct4 identify a sub-population of stem cell-like cells in ovarian cancer.

Lin28 and Oct4 are highly expressed in human embryonic stem (ES) cells and, along with two other stem cell marker proteins (Nanog and Sox2), together can convert human somatic cells to pluripotency. As an RNA-binding protein, Lin28 acts to stimulate the translation of a specific subset of mRNAs, and to inhibit the biogenesis of a group of microRNAs. Oct4 is a transcription factor essential for the maintenance of pluripotency and survival of ES cells. In this study, we report that a sub-population of epithelial ovarian cancer (EOC) cells co-expresses Lin28 and Oct4 as demonstrated in the analyses of both cell lines and patient tumor samples. We also observe that the combined expression of these proteins in tumor samples is correlated with advanced tumor grade. Intriguingly, when the expression of these two proteins is repressed in the same cells using RNA interference, there is significant reduction in cell growth and survival. We thus propose that Lin28 and Oct4 may have important roles in the initiation and/or progression of EOC, and consequently may serve as important molecular diagnostics and/or therapeutic targets for the development of novel treatment strategies in EOC patients.

Effect of high fat diet on body weight and mammary tumor latency in MMTV-TGF-alpha mice.

OBJECTIVE: The role of high fat diets in breast cancer/mammary tumor (MT) development is controversial. This may be partially attributable to variable effects of high fat diets on body weight. Here, we used a moderately high fat diet (32.5% fat calories) expected to cause obesity in most mice, but predicted to result in some mice remaining in the weight range of mice fed the low fat diet (11% fat calories). This provided the opportunity to compare mice fed the high fat diet exhibiting different body weights and mice of similar weight consuming high vs low fat diets. EXPERIMENTAL METHODS: Transgenic MMTV-TGF-alpha mice, a model of postmenopausal breast cancer, consumed a low fat diet, that is, chow-fed (n=25) or a moderately high fat diet from 10 weeks of age (n=51). Body weight at 34 weeks of age was used to assign high fat diet mice to obesity-prone>overweight>obesity-resistant groups (n=17) (P<0.0001). Mice were euthanized when MTs developed or at 85 weeks of age. RESULTS: Final body weights were highest in obesity-prone>overweight >obesity-resistant=chow-fed mice. Fat pads and fat pad:carcass were heaviest in obesity-prone followed by overweight mice. However, obesity-resistant mice had fat pad weights and fat pad:carcass three-fold greater than chow-fed mice. All groups had MT incidences between 72 and 82%. Obesity-prone mice exhibited the shortest MT latency (P<0.0001), but obesity-resistant mice had significantly shorter latency than chow-fed mice. CONCLUSIONS: Consumption of a high fat diet increased adiposity and shortened MT latency in relation to its effect on body weight. These results indicate a complex role of dietary fat level on mammary tumorigenesis.

EGF/ErbB receptor family in ovarian cancer.

In summary, the EGF/ErbB family of receptor tyrosine kinases has been shown to play a key role in normal ovarian follicle development, and cell growth regulation of the ovarian surface epithelium. Disregulation of these normal growth regulatory pathways, including overexpression and/or mutation of EGFR/ErbB receptor family members, as well as elements of their downstream signalling pathways, have been shown to contribute to the etiology and progression of epithelial ovarian cancer. It is, therefore, not surprising that these gene products, and their related soluble receptor isoforms may have clinical utility as tumor and/or serum biomarkers of disease activity. Moreover, since several of these soluble receptor isoforms have potent growth inhibitory activity, and are naturally occurring in the circulation, they are ideal candidates for the development of novel therapeutics for the treatment of ovarian cancer patients.

A preliminary study of serum concentrations of soluble epidermal growth factor receptor (sErbB1), gonadotropins, and steroid hormones in healthy men and women.

Soluble ErbB (sErbB) growth factor receptors are being investigated as cancer biomarkers. Gonadotropic and steroid hormones have been shown to modulate the expression of ERBB family members in vivo. Accordingly, the range of sErbB1 values and their relationship to gonadotropic and steroid hormones need to be established in healthy subjects to provide a baseline for future clinical studies. We assayed sera from healthy men and women to determine p110 sErbB1 concentrations by acridinium-linked immunosorbent assay (ALISA). Follicle-stimulating hormone (FSH), estradiol, and testosterone concentrations were measured using the ACS:180 Immunoassay Analyzer. Luteinizing hormone (LH) and progesterone concentrations were quantified using the Access Immunoassay System. Unadjusted for age, p110 sErbB1 concentrations in healthy men and women do not differ significantly. However, sErbB1 concentrations show a strong age-gender interaction, increasing with age in men but decreasing with age in women. Consequently, sErbB1 concentrations are significantly higher in premenopausal women compared with either postmenopausal women or age-matched men and in age-matched men compared with postmenopausal women. Serum sErbB1 concentrations show significant negative associations with both FSH and LH concentrations in healthy women and a significant positive association with FSH concentrations in healthy men. Univariate linear regression models show that these respective gonadotropic hormones and age are independent predictors of sErbB1 concentrations in men and women. Multivariate models show that when age and FSH and LH concentrations are mutually adjusted for each other, they account for 22% of the variability observed in sErbB1 concentrations in healthy women. These data support the hypothesis that gonadotropic and steroid hormones may modulate ERBB1 expression in vivo and suggest that age- and gonadotropin-adjusted sErbB1 concentrations may be of clinical utility. Furthermore, these data demonstrate that gender, age, menstrual cycle phase, menopausal status, and exogenous hormone use must be considered when using serum p110 sErbB1 concentrations as cancer biomarkers.

A naturally occurring secreted human ErbB3 receptor isoform inhibits heregulin-stimulated activation of ErbB2, ErbB3, and ErbB4.

A variety of receptor-mediated signaling pathways are controlled by both positive and negative extracellular regulators. In this study, we demonstrate that a naturally occurring secreted form of the human ErbB3 receptor, p85-soluble ErbB3 (sErbB3), is a potent negative regulator of heregulin (HRG)-stimulated ErbB2, ErbB3, and ErbB4 activation. We show that p85-sErbB3 binds to HRG with an affinity comparable to that of full-length ErbB3 and competitively inhibits high affinity HRG binding to ErbB2/ErbB3 heterodimers on the cell surface of breast carcinoma cells with an IC(50) of 0.5 nM. p85-sErbB3 inhibits HRG-induced phosphorylation of ErbB2, ErbB3, and ErbB4 in breast carcinoma-derived cell lines and can also block HRG-stimulated activation of mitogen-activated protein kinase, Akt, and association of ErbB3 with the phosphatidylinositol 3'-kinase p85 regulatory subunit. Cell growth assays show that exogenous addition of a 100-fold molar excess of p85-sErbB3 inhibits HRG-stimulated cell growth by as much as 90%. Whereas several potential mechanisms of p85-sErbB3 inhibition of ErbB receptor activation exist, our results suggest that at least one means of inhibition is competition for HRG binding. The IC(50) for both p85-sErbB3- and 2C4 (a monoclonal antibody specific for ErbB2)-mediated inhibition of HRG binding is approximately 0.5 nM, although the mechanism of inhibition by these two proteins is distinct. Together these results suggest that p85-sErbB3 is a naturally occurring negative regulator of HRG-stimulated signal transduction that may have important therapeutic applications in human malignancies associated with HRG-mediated cell growth such as breast and prostate cancer.

Comparative genomic sequence analysis and isolation of human and mouse alternative EGFR transcripts encoding truncated receptor isoforms.

This study presents the annotated genomic sequence and exon-intron organization of the human and mouse epidermal growth factor receptor (EGFR) genes located on chromosomes 7p11.2 and 11, respectively. We report that the EGFR gene spans nearly 200 kb and that the full-length 170-kDa EGFR is encoded by 28 exons. In addition, we have identified two human and two mouse alternative EGFR transcripts of 2.4-3.0 kb using both computational and experimental methods. The human 3.0-kb and mouse 2.8-kb EGFR mRNAs are predominantly expressed in placenta and liver, respectively, and both transcripts encode 110-kDa truncated receptor isoforms containing only the extracellular ligand-binding domain. We also have demonstrated that the aberrant 2.8-kb EGFR transcript produced by the human A431 carcinoma cell line is generated by splicing to a recombinant 3'-terminal exon located in EGFR intron 16, which apparently was formed as a result of a chromosomal translocation. Finally, we have shown that the human, mouse, rat, and chicken 1.8- to 3.0-kb alternative EGFR transcripts are generated by distinct splicing mechanisms and that each of these mRNAs contains unique 3' sequences that are not evolutionarily conserved. The presence of truncated receptor isoforms in diverse species suggests that these proteins may have important functional roles in regulating EGFR activity.

Activation of Rho is required for ligand-independent oncogenic signaling by a mutant epidermal growth factor receptor.

Mutations in the epidermal growth factor receptor have been identified in several human tumor types, including gliomas. These receptor mutants have deletions in their extracellular ligand-binding domains and are, therefore, no longer regulated by ligand, resulting in constitutive activation of the receptor kinase. These mutants have been proposed to transduce oncogenic signals via ligand-independent signaling pathways. Avian viral homologues of these oncogenic epidermal growth factor receptors exhibit structurally homologous deletions and form tumors in chickens. One such mutant, S3v-ErbB, transforms fibroblasts in vitro, and transformation has been correlated with the formation of a novel tyrosine phosphoprotein complex. V-ErbB-mediated complex formation and transformation have been shown to occur independently of Ras activation. The major aims of this study are to further characterize this ligand-independent v-ErbB oncogenic signaling pathway. Here we show that both v-ErbB-mediated phosphoprotein complex formation and transformation are inhibited by a dominant negative mutant of Rho. This inhibition is specific for dominant negative Rho; dominant negative mutants of Rac and Cdc42 have no effect on transformation or on tyrosine phosphorylation of the phosphoprotein complex. Based on these observations, we propose that S3v-ErbB stimulates a Rho-dependent tyrosine kinase, resulting in complex formation and ultimately oncogenic transformation.

An oncogenic epidermal growth factor receptor signals via a p21-activated kinase-caldesmon-myosin phosphotyrosine complex.

Many ligand-independent receptor tyrosine kinases are tumorigenic. The biochemical signals that mediate ligand-independent transformation of cells by these transmembrane receptors are poorly defined. In this report, we demonstrate that a constitutively activated mutant epidermal growth factor receptor (v-ErbB) induces the formation of a transformation-specific signaling module that complexes with myosin II. The components of this signaling complex include the signal adapter proteins Shc, Grb2, and Nck, and tyrosine-phosphorylated forms of p21-activated kinase (Pak), caldesmon, and myosin light chain kinase. Transformation-specific, tyrosine phosphorylation of Pak enhances the catalytic activity of this serine/threonine kinase. Furthermore, the tyrosine phosphorylation of Pak is Rho-, but not Ras-, Rac-, or Cdc42-dependent. These results demonstrate that a ligand-independent epidermal growth factor receptor mutant can transduce oncogenic signals that are distinct from ligand-dependent, mitogenic signals. In addition, these data provide evidence for the coupling of oncogenic receptor tyrosine kinases with the actomyosin molecular motor. This myosin-associated signaling module may mediate some of the biochemical changes of myosin found in v-ErbB- transformed fibroblasts, thereby contributing to the regulation of the mechanical forces governing cellular adhesion, cytoskeletal tension, and, hence, anchorage-independent cell growth.

Ras-independent oncogenic transformation by an EGF-receptor mutant.

Mutations in the ligand-binding domain of the epidermal growth factor receptor have been identified in several types of human cancers, including malignant gliomas. These mutations render signaling by this receptor to be constitutively ligand-independent. In fibroblasts transformed with ligand-independent epidermal growth factor receptor mutants, there is a correlation between the formation of a unique phosphotyrosine protein complex and oncogenic transformation. This phosphoprotein complex includes Grb2, Shc, Sos, tyrosine-phosphorylated form of caldesmon, and two, as yet, unidentified proteins. The presence of Grb2, Shc, and Sos in this complex implicates Ras in ligand-independent signaling by these oncogenic epidermal growth factor receptor mutants. We, therefore, have used retroviral co-infections of cultured primary fibroblasts to determine if Ras activation is required for phosphoprotein complex formation, stress fiber loss, or transformation. As predicted, expression of a dominant-negative Ras mutant (N17Ras) completely abrogates ligand-stimulated soft agar colony growth of primary fibroblasts. In contrast, N17Ras expression has no effect on v-ErbB mediated stress fiber disassembly, soft agar colony growth, or phosphoprotein complex assembly. In addition, our data suggest that ligand-dependent Ras activation may be suppressed by oncogenic v-ErbB expression. Together these observations suggest that oncogenic signaling by v-ErbB does not require Ras activation, and implicate an alternative signal transduction pathway in ligand-independent epidermal growth factor receptor oncogenic signaling.

Tyrosine phosphorylation of caldesmon is required for binding to the Shc.Grb2 complex.

S3-v-erbB is a retroviral oncogene that encodes a ligand-independent, transforming mutant of the epidermal growth factor receptor. This oncogene has been shown to be sarcomagenic in vivo and to transform fibroblasts in vitro. Our previous studies (McManus, M. J., Lingle, W. L., Salisbury, J. L., and Maihle, N. J. (1997) Proc. Natl. Acad. Sci. U. S. A. 94, 11351-11356) showed that expression of S3-v-erbB in primary fibroblasts results in the tyrosine phosphorylation of caldesmon (CaD), an actin- and calmodulin-binding protein. This phosphorylation is transformation-associated, and the phosphorylated form of CaD is associated with a signaling complex consisting of Shc, Grb2, and Sos in transformed fibroblasts. To identify the tyrosine phosphorylation site(s) in the CaD molecule and to further elucidate the functional role of CaD tyrosine phosphorylation in S3-v-ErbB oncogenic signaling, we have generated a series of mutant CaDs in which one or more tyrosine residues have been replaced with phenylalanine. Using a CaD null cell line, DF1 cells (an immortalized chicken embryo fibroblast cell line), and transient transfection assays, we demonstrated that Tyr-27 and Tyr-393 are the major sites of tyrosine phosphorylation on CaD. Interestingly, Tyr-27 is located within the myosin binding domain of CaD, and Tyr-393 is adjacent to one of the major actin binding and actomyosin ATPase inhibitory domains. Our studies also show that the tyrosine phosphorylation of CaD enhances its binding to the Shc.Grb2 complex. Specifically, replacement of Tyr-27, but not of Tyr-165 or Tyr-393, significantly reduces the ability of CaD to interact with the Shc. Grb2 complex. Together, these studies demonstrate that the major sites of tyrosine phosphorylation on CaD are located in the myosin and actin binding domains of CaD and that Tyr-27 is the major tyrosine phosphorylation site through which CaD interacts with the Shc.Grb2 complex.

Serum sErbB1 and epidermal growth factor levels as tumor biomarkers in women with stage III or IV epithelial ovarian cancer.

Epithelial ovarian cancer (EOC) has a high mortality rate, which is due primarily to the fact that early clinical symptoms are vague and nonspecific; hence, this disease often goes undetected and untreated until in its advanced stages. Sensitive and reliable methods for detecting earlier stages of EOC are, therefore, urgently needed. Epidermal growth factor (EGF) is a ligand for EGF receptor (ErbB1); this receptor is the product of the c-erbB1 proto-oncogene. ErbB1 overexpression is common in human ovarian carcinoma-derived cell lines and tumors, in which overexpression is thought to play a critical role in tumor etiology and progression. Furthermore, ErbB1 overexpression is associated with disease recurrence and decreased patient survival. Recently, we have developed an acridinium-linked immunosorbent assay that detects a approximately 110-kDa soluble analogue of ErbB1, ie., sErbB1, in serum samples from healthy men and women (A. T. Baron, et al., J. Immunol. Methods, 219: 23-43, 1998). Here, we demonstrate that serum p110 sErbB1 levels are significantly lower in EOC patients with stage III or IV disease prior to (P < 0.0001) and shortly after (P < 0.0001) cytoreductive staging laparotomy than in healthy women of similar ages, whereas EGF levels are significantly higher than those of age-matched healthy women only in serum samples collected shortly after tumor debulking surgery (P < 0.0001). We observe that the preoperative serum sErbB1 concentration range of advanced stage EOC patients barely overlaps with the serum sErbB1 concentration range of healthy women. In addition, we show that serum sErbB1 and EGF levels changed temporally for some EOC patients who were surgically debulked of tumor and who provided a second serum sample during the course of combination chemotherapy. Finally, we observe a significant positive association between sErbB1 and EGF levels only in serum samples of EOC patients collected prior to cytoreductive surgery (correlation coefficient = 0.61968; P = 0.0027). These data suggest that epithelial ovarian tumors concomitantly affect serum sErbB1 and EGF levels. In conclusion, these data indicate that serum sErbB1 and EGF (postoperative only) levels are significantly different between EOC patients and healthy women and that altered and/or changing serum sErbB1 and EGF levels may provide important diagnostic and/or prognostic information useful for the management of patients with EOC.

A sandwich type acridinium-linked immunosorbent assay (ALISA) detects soluble ErbB1 (sErbB1) in normal human sera.

The epidermal growth factor receptor (ErbB1) is overexpressed in various human tumor-derived cell lines and neoplasms, where it is believed that receptor dysregulation plays a role in oncogenic transformation and tumor progression. In addition to the ErbB1 holoreceptor, numerous studies demonstrate that cells synthesize soluble or secreted forms of ErbB1, i.e., sErbB1. Overexpression of ErbB1 in a variety of tumors has led us to hypothesize that sErbB levels also may be altered during oncogenesis, tumor progression, and/or metastasis; and that these molecules may be useful tumor biomarkers. To address this hypothesis we have developed an acridinium-linked immunosorbent assay (ALISA) specific for the extracellular domain of ErbB1 that can be used to quantify the levels of sErbB1 molecules in body fluids and conditioned culture media. This assay can also detect full-length ErbB1 in cell and tissue extracts. Our ALISA is characterized by high sensitivity (intra-assay LLD < 1 fmol/ml), a broad linear range (approximately 1 to 4000 fmol/ml), and good reproducibility (CVs < 10%). Specificity experiments show that this ALISA detects p170 ErbB1 and soluble forms of ErbB1 that embody extracellular subdomains I through IV, but not forms of sErbB1 lacking subdomain IV. Our ALISA does not detect full-length ErbB2, ErbB3, or ErbB4; or p105 soluble ErbB2. We report that serum sErbB1 levels of healthy women (median = 3716 fmol/ml), ranging in age from 43 to 76 years, differ significantly from those of healthy men (median = 24,512 fmol/ml), ranging in age from 25 to 79 years. Additional analyses do not indicate that serum sErbB1 levels change with age in either healthy men or women. Immunoprecipitation experiments show that monoclonal antibodies specific for extracellular epitopes of ErbB1 completely neutralize the detection of sErbB1 in normal human sera by ALISA. Finally, we show by immunoprecipitation and Western immunoblot analyses with monoclonal antibodies specific for the extracellular domain of ErbB1 that normal human female and male sera contain a approximately 110-kDa protein. We conclude that our ALISA is measuring the relative levels of this p110 sErbB1 analog in normal human sera. Our ALISA, therefore, should be useful for measuring the levels of ErbB1 and sErbB1 molecules in tumor biopsy specimens and body fluids, respectively, and for determining whether sErbB1, like ErbB1, is a useful tumor biomarker.

Independent origin of multiple foci of prostatic intraepithelial neoplasia: comparison with matched foci of prostate carcinoma.

BACKGROUND: Prostate carcinoma usually is heterogeneous and multifocal, with diverse clinical and morphologic manifestations. Understanding of the molecular basis for this heterogeneity is limited, particularly for the putative precursor, high grade prostatic intraepithelial neoplasia (PIN). In this study, the authors attempted to determine the genetic relation between multiple foci of PIN and matched foci of carcinoma, and whether they are independent in origin. METHODS: The distribution and prevalence of allelic imbalance at 6 microsatellite polymorphic markers on chromosomes 7q, 8p, 8q, and 18q were examined in 84 microscopically excised PIN foci (mean, 1.6 foci/case) and 95 foci of prostate carcinoma (mean, 1.8 foci/case) from 52 completely embedded, mapped whole mount prostates. RESULTS: PIN contained a lower overall proportion of allelic imbalance than matched prostate carcinoma foci for the 6 polymorphic microsatellite markers (65% vs. 82%), but this difference was not significant. The rate of allelic imbalance in PIN was similar to that in prostate carcinoma at 5 of 6 loci studied; the exception, D18S34 (18q12.2-12.3), had a significantly lower rate of allelic imbalance in PIN than in prostate carcinoma (19% vs. 52%), suggesting that genetic alterations in this chromosomal region may be important in carcinogenesis. Of 22 cases with allelic imbalance in at least 1 focus of PIN and 1 focus of prostate carcinoma, 21 informative cases (95%) showed a similar pattern of allelic imbalance at > or = 1 markers in the matched PIN and prostate carcinoma foci. Significant genetic heterogeneity was observed in both PIN and prostate carcinoma. Allelic imbalance was observed in at least 1 focus in 11 of 25 cases with multiple foci of PIN (44%) and 20 of 25 cases with multiple foci of prostate carcinoma (80%). There was no significant correlation between allelic imbalance and pathologic stage or tumor grade. CONCLUSIONS: Our findings indicate that multiple foci of PIN arise independently within the same prostate. This observation suggests that a field effect underlies prostatic neoplasia. Multiple foci of prostate carcinoma also often arise independently, lending additional support for this hypothesis. The strong genetic similarities between PIN and prostate carcinoma strongly suggest that evolution and clonal expansion of PIN may account for the multifocal etiology of carcinomas.

Isolation and characterization of four alternate c-erbB3 transcripts expressed in ovarian carcinoma-derived cell lines and normal human tissues.

ErbB-3 is a member of the epidermal growth factor receptor (EGFR/ErbB) family. In addition to the previously reported 6.2 kb full-length and 1.4 kb truncated c-erbB3 transcripts, we have observed a 1.7 kb c-erbB3 human transcript in Northern blots that specifically hybridizes to a probe of the extracellular domain of the receptor. Using 3'-RACE we have isolated four novel c-erbB3 cDNA clones of 1.6, 1.7, 2.1 and 2.3 kb from a human ovarian carcinoma-derived cell line. All four alternate transcripts are synthesized by readthrough of an intron and use of an alternative polyadenylation signal within this intron. Identical c-erbB3 transcripts are expressed in normal human placental tissues. Expression of these alternate transcripts is tissue-specific as indicated by Northern blot and RNase protection analyses. Fibroblasts transfected with expression vectors carrying these alternate c-erbB3 cDNA clones stably express truncated ErbB-3 products. Three of these four cDNA clones express a receptor product that is secreted. Immunoprecipitation analysis of primary cultures of human ovarian carcinomas also demonstrate the expression of a 90 kDa ErbB-3 related protein that is secreted. Furthermore, we demonstrate conservation of the exon-intron junctions between members of the erbB gene family in those regions of the gene encoding the extracellular domain. This gene structure is also conserved in the c-erbB1 homologues of Drosophila and C. elegans. Growth regulatory roles for related truncated ErbB products recently have been reported. It is, therefore, possible that the products of these four alternate c-erbB3 transcripts may also play important growth regulatory roles in normal and transformed cells.

Centrosome hypertrophy in human breast tumors: implications for genomic stability and cell polarity.

The centrosome plays an important role in maintenance of cell polarity and in progression through the cell cycle by determining the number, polarity, and organization of interphase and mitotic microtubules. By examining a set of 35 high grade human breast tumors, we show that centrosomes of adenocarcinoma cells generally display abnormal structure, aberrant protein phosphorylation, and increased microtubule nucleating capacity in comparison to centrosomes of normal breast epithelial and stromal tissues. These structural and functional centrosome defects have important implications for understanding the mechanisms by which genomic instability and loss of cell polarity develop in solid tumors.

A transformation-associated complex involving tyrosine kinase signal adapter proteins and caldesmon links v-erbB signaling to actin stress fiber disassembly.

The avian erythroblastosis viral oncogene (v-erbB) encodes a receptor tyrosine kinase that possesses sarcomagenic and leukemogenic potential. We have expressed transforming and nontransforming mutants of v-erbB in fibroblasts to detect transformation-associated signal transduction events. Coimmunoprecipitation and affinity chromatography have been used to identify a transformation-associated, tyrosine phosphorylated, multiprotein complex. This complex consists of Src homologous collagen protein (Shc), growth factor receptor binding protein 2 (Grb2), son of sevenless (Sos), and a novel tyrosine phosphorylated form of the cytoskeletal regulatory protein caldesmon. Immunofluorescence localization studies further reveal that, in contrast to the distribution of caldesmon along actin stress fibers in normal fibroblasts, caldesmon colocalizes with Shc in plasma membrane blebs in transformed fibroblasts. This colocalization of caldesmon and Shc correlates with actin stress fiber disassembly and v-erbB-mediated transformation. The tyrosine phosphorylation of caldesmon, and its association with the Shc-Grb2-Sos signaling complex directly links tyrosine kinase oncogenic signaling events with cytoskeletal regulatory processes, and may define one mechanism regulating actin stress fiber disassembly in transformed cells.

The role of body mass index in the relative risk of developing premenopausal versus postmenopausal breast cancer.

Many women in industrialized countries are overweight. Excess body fat is associated with excess morbidity and mortality from atherosclerosis and diabetes. In some cases, overweight/obesity also is implicated with increased incidence of breast cancer, but the results of these studies are not consistent. Human breast cancer is usually distinguished as either premenopausal or postmenopausal. In this review, we focus on literature that presents body mass index (BMI, weight/height2) ranges and identifies menstrual status. The majority of the relevant prospective studies support an inverse relationship between BMI and the relative risk (RR) of developing premenopausal breast cancer. In contrast, a positive relationship between BMI and the RR of developing postmenopausal breast cancer is reported in only half of all prospective studies on this topic. Those studies that do not show a positive RR, in general, have used younger postmenopausal women, and their body weights were obtained prior to menopause. Many case-control studies also report an inverse association between BMI and the RR of developing premenopausal breast cancer, and a positive association between BMI and the RR of developing postmenopausal breast cancer. Other studies do not find these associations, but a number of these studies have used small sample sizes and, for the postmenopausal subjects, have represented populations with low obesity and/or breast cancer rates. Other factors that might play a role in breast cancer development, such as body fat distribution, weight at earlier ages, and weight gain, are also addressed, as well as the effect of obesity in breast cancer prognosis. In addition, limited data available for animal studies related to this topic, as well as potential mechanisms by which body fat may play a role in breast cancer development, are discussed. Finally, the need for better animal models in which to perform controlled dietary and/or drug intervention studies to test rigorously the proposed mechanisms by which body fat may contribute to breast cancer development is addressed.