Role of neurotrophin-trk interactions in oncology: the anti-tumor efficacy of potent and selective trk tyrosine kinase inhibitors in pre-clinical tumor models.

The increasing knowledge of the pathogenic mechanisms involved in cancer cell growth has enabled the implementation of mechanism based drug design approaches rather than the more conventional nonspecific approaches. Drugs that interfere with cellular signal transduction pathways are currently a major focus in development of newer therapeutic technologies in oncology. The therapeutic utility of potent and selective tyrosine kinase inhibitors in oncologic applications has become widely recognized for several years, however targeting neurotrophin receptors as a molecular target driven approach has only recently been realized. This review presents the hypothesis of the neurotrophin-trk receptors as a viable molecular target for medicinal chemical intervention in tumor biology, followed by an overview of the pre-clinical studies which culminated in the advancement of the first potent trk tyrosine kinase inhibitor CEP-2563 (KT-8391), and the orally active K-252a analog, CEP-701 (KT-5555) into clinical evaluation.

The Trk tyrosine kinase inhibitor CEP-701 (KT-5555) exhibits significant antitumor efficacy in preclinical xenograft models of human pancreatic ductal adenocarcinoma.

The aggressive behavior and poor prognosis of pancreatic ductal adenocarcinoma (PDAC) is associated with an increased expression of many growth factors and their cognate receptors. We have previously demonstrated the aberrant expression of the Trk receptors (Trks A, B, and C), enhanced tumor stromal expression of neurotrophins in primary PDAC specimens and human PDAC-derived cell lines, and a dose-dependent biological response of PDAC cells (in vitro invasiveness) to selective neurotrophins (Miknyoczki, S. J., et al., Int. J. Cancer, 81: 417-427, 1999). On the basis of these data, we have evaluated the therapeutic potential of inhibiting neurotrophin-Trk interactions using a selective and potent Trk tyrosine kinase inhibitor (CEP-701) in several preclinical models of human PDAC. CEP-701 is currently approved for clinical trials within the United States We demonstrate that CEP-701 administration at 10 mg/kg s.c. b.i.d. 5 days a week for 21-28 days inhibited tumor growth in a statistically significant manner in Panc-1, AsPc-1, BxPc-3, Colo 357, and MiaPaCa2 s.c. xenografts in athymic nude mice compared with vehicle-treated controls. Reductions in tumor growth volume of 50-70% relative to vehicle-treated controls were observed in xenografts responsive to CEP-701 administration. Significant reductions of in vivo PDAC tumor invasiveness were likewise observed in four of six CEP-701-treated rat tracheal xenografts implanted s.c. in athymic nude mice. The antitumor efficacy of CEP-701 was observed in the absence of pronounced morbidity or toxicity in vivo. Taken together, these data suggest that CEP-701 may be effective as a potential therapeutic agent in the treatment or management of PDAC.

The novel Trk receptor tyrosine kinase inhibitor CEP-701 (KT-5555) exhibits antitumor efficacy against human pancreatic carcinoma (Panc1) xenograft growth and in vivo invasiveness.

The survival rate for patients with pancreatic ductal adenocarcinoma (PDAC) is among the poorest for all cancers. The factors that contribute to this poor prognosis are lack of effective early detection, high rate of metastases and a generally refractory response to available treatment modalities. The most commonly used treatment methods--chemotherapy and radiation therapy--are mainly used for symptom palliation, with surgery being the only "curative" treatment option. The use of combinations of treatment modalities is the only therapy available to patients with locally advanced disease or that which is surgically unresectable. These options are still not sufficient to increase patient survival time significantly. The aggressive behavior and poor prognosis of this cancer is associated with an increased expression of many growth factors and their cognate receptors. We have demonstrated previously the aberrant expression of the Trk receptors (Trks A, B, and C) in PDAC specimens and human PDAC-derived cell lines and a biphasic, dose-dependent response of specific neurotrophic agents on the in vitro invasiveness of PDAC cells. Based on these data we have evaluated the therapeutic potential of inhibiting neurotrophin-Trk interactions using a selective Trk tyrosine kinase inhibitor (CEP-701) on subcutaneous (s.c.) and tracheal xenografts derived from the poorly differentiated PDAC cell line, Panc1. We demonstrate that CEP-701 administration at 10 mg/kg s.c. BID for 21 days inhibited tumor growth of the Panc1 s.c. xenografts in a statistically-significant manner (p < 0.01) compared to vehicle controls, in the absence of morbidity and mortality. A T/C value of 25% was observed for CEP-701-treated s.c. xenografts. In addition, CEP-701 administration inhibited tumor cell invasion in the s.c. tracheal xenograft model of in vivo invasiveness. Taken together, these data suggest that further studies are warranted to evaluate CEP-701 as a potential therapeutic agent in the treatment of PDAC.

Neurotrophins and Trk receptors in human pancreatic ductal adenocarcinoma: expression patterns and effects on in vitro invasive behavior.

The aggressive and highly metastatic behavior observed in pancreatic ductal adenocarcinoma (PDAC) may be due to autocrine and/or paracrine interactions (tumor/stromal) involving altered expression of peptide growth factors and their corresponding receptors. The neurotrophin (NT) growth factor family and their cognate receptors have been demonstrated to play a role in the invasiveness, chemotactic behavior and tumor cell survival of both neuronal and non-neuronal cancers. We hypothesized that aberrant expression of the NTs and/or the Trk receptors may contribute to the malignant phenotype of PDAC, specifically tumor cell invasiveness, through autocrine and/or paracrine interactions. In this study, we examined the expression of NTs, Trks and p75NGFR by immunohistochemical and in situ hybridization analyses in both normal (n=14) and neoplastic pancreas (n=47) and PDAC-derived cell lines (n=6). Further, we evaluated the effects of various NTs on the in vitro invasive and chemotactic behavior on 6 human PDAC-derived cell lines in a modified Boyden chamber assay. Brain-derived nerve growth factor (BDNF), NT-3, NT-4/5 and Trks A, B and C exhibited diffuse cytoplasmic and membranous immunostaining patterns in both the ducts and the acini of the exocrine pancreas and the islets of the endocrine pancreas of both normal and PDAC specimens. NT expression was primarily within the stromal compartment of the tumor, while Trk expression was weak or absent. We observed a 68%, 64% and 66% increase in the expression of Trks A, B and C, respectively, in the ductal elements of the PDAC samples examined compared with the normal adjacent tissue. Invasiveness of 4 of 6 PDAC cell lines was significantly inhibited (p<0.05) when the cells were incubated with 100 ng/ml NT. However, when select cell lines were incubated with lower concentrations of NT-3 and BDNF (0, 1, 5, 25 and 50 ng/ml), invasiveness was significantly stimulated (p<0.05) through the Matrigel matrix. Collectively, our data suggest the possibility that paracrine and/or autocrine NT-Trk interactions may influence the phenotype (possibly the invasive behavior) of PDAC.

Mutational activation of K-ras in nonneoplastic exocrine pancreatic lesions in relation to cigarette smoking status.

BACKGROUND: Cigarette smoking is among the few unequivocal risk factors for the development of pancreatic ductal adenocarcinoma (PDAC). Activating mutations in codon 12 of the K-ras protooncogene is a frequent and early molecular event in the pathogenesis of PDAC and a variety of nonmalignant ductal pancreatic lesions. The molecular epidemiologic relation between heavy cigarette smoking and mutational activation of K-ras in PDAC has been examined to a limited extent. The authors have examined the mutational status of K-ras in nonneoplastic pancreata in relation to cigarette smoking status. METHODS: Archival formalin fixed paraffin embedded specimens of nonneoplastic pancreata (n = 39) were obtained from the American Cancer Society and evaluated histopathologically. Specimens from age- and gender-matched individuals were stratified into three groups: 1) those who never smoked cigarettes (n = 16), 2) those who smoked 1-2 packs/day for more than 20 years (n = 10 cases), and 3) those who smoked more than 2 packs/day for 20 or more years (n = 13). Cases were preselected from 77 specimens based on the quality, suitability, and cellularity of the archival tissues for analyses. Furthermore, none of the patients died of primary PDAC or had evidence of pancreatic metastases from an extrapancreatic primary tumor. Tissue sections were microdissected and deparaffinized, and genomic DNA was purified by standard proteinase K-phenol-chloroform extraction techniques. Genomic DNA was analyzed for mutations in codon 12 of the K-ras protooncogene by two mutant-allele-enriched polymerase chain reaction (PCR)-restriction fragment length polymorphism (RFLP) assays and by multiplex PCR-based ligase chain reaction (LCR) analyses. RESULTS: Analyses of multiple microdissected pancreata specimens from 39 cases revealed wild-type K-ras codon 12 sequences in both nonsmoking individuals and those who smoked 1-2 packs/day for 20 or more years. K-ras codon 12 mutations were confirmed by PCR-RFLP and PCR-LCR assays in 5 of 13 pancreata cases (39%) obtained from individuals who smoked more than 2 packs of cigarettes/day for 20 years or more (P < 0.005). The K-ras mutation spectra revealed two G-->T transversions, one G-->C transversion and two G-->A transitions. There was no clear relation between the incidence or spectra of mutations and pancreatic histopathology, as overtly normal pancreata as well as pancreata with squamous metaplasia, periductal fibrosis, and ductal atypia revealed reproducible K-ras alterations. Similarly, among those 34 cases in which a wild-type K-ras sequence was revealed by both approaches, a similar histopathologic profile was evident. CONCLUSIONS: Mutational activation of codon 12 of the K-ras protooncogene was confirmed reproducibly by mutant allele-enriched PCR-RFLP and multiplex PCR-LCR analyses in 39% (5 of 13) of archival nonneoplastic pancreata from age- and gender-matched individuals who smoked more than 2 packs of cigarettes/day for 20 or more years. The presence of a mutated or wild-type or K-ras was independent of the histopathologic profile of the 39 cases examined. The data provide further suggestive molecular epidemiologic evidence of an association between a major and unequivocal risk factor for PDAC (heavy cigarette smoking) and mutations in a molecular target (K-ras), the activation of which is an important and early event both in the pathogenesis of PDAC and in the development of a variety of nonneoplastic ductal pancreatic lesions.

Stable reintroduction of wild-type P53 (MTmp53ts) causes the induction of apoptosis and neuroendocrine-like differentiation in human ductal pancreatic carcinoma cells.

Pancreatic ductal adenocarcinoma is one of the major causes of cancer mortality in the industrialized world, having among the poorest prognosis of any malignancy. Mutations or alterations in the p53 tumor suppressor gene/protein are observed in 50-70% of these cancers, yet little information is available regarding the phenotypic effects of restoration of wild-type (wt) p53 function in pancreatic ductal carcinoma cells. The consequences of stable reintroduction of wt p53 on apoptosis and differentiation was examined in a poorly differentiated pancreatic carcinoma cell line (Panc-1), possessing only mutant (mt) p53 (codon 273 mutation). Cells were transfected with a temperature-sensitive mouse p53val135 (tsp53) vector under additional control of a genetically-modified metallothionein promoter. This tsp53 has a 'mt' phenotype at 37.5 degrees C, and a 'wt' phenotype at 32.5 degrees C and the presence of 100 microM ZnCl2. Stable expression of wt p53 caused upregulation of the p21/WAF1 gene, and G1 growth arrest as shown by flow cytometry and BrdU labeling. Additionally, apoptosis was induced 8-12 post-induction in the majority of the cells (60-70%), as demonstrated by morphological changes, in situ TdT labeling and internucleosomal laddering. However, a subpopulation (30%) of the transfectants survived this apoptotic fate. Unlike the epithelial parental Panc-1 cells, these cells exhibited the appearance of a neuroendocrine-like phenotype with extensive branch-like processes, and marked cytoplasmic and cytoskeletal immunostaining for tau-2, synaptophysin, and chromogranin A. These studies suggest that stable and regulated expression of wt p53 can have multiple phenotypic consequences (apoptosis and altered differentiation to a neuroendocrine-like phenotype) in poorly-differentiated pancreatic carcinoma cells.

Amplification and overexpression of the AKT2 oncogene in a subset of human pancreatic ductal adenocarcinomas.

AKT2, an oncogene encoding a protein serine-threonine kinase implicated in phosphatidylinositol-3-OH kinase signaling, is amplified in some human ovarian and pancreatic carcinomas. We previously demonstrated that the tumorigenicity and invasiveness of pancreatic ductal adenocarcinoma (PDAC) cell lines with amplified AKT2 could be markedly reduced by transfection with antisense AKT2 constructs. To evaluate further the extent of AKT2 alterations in PDAC, DNA and immunohistochemical analyses were performed to assess amplification or overexpression of AKT2, respectively, in 72 PDACs. Thirty-five PDACs were subjected to Southern analyses, and AKT2 amplification was detected in seven tumors (20%). Forty-one formalin-fixed PDAC specimens were examined immunohistochemically with an anti-AKT2 monoclonal antibody, and moderate to intense staining was observed in eight tumors (20%). AKT2 immunostaining paralleled AKT2 genomic status in each of four cases in which both Southern and immunohistochemical analyses were performed. No obvious relationship was observed between AKT2 status and tumor TNM stage or grade. These observations suggest the utility of immunohistochemical analysis in assessing alterations of AKT2 in human cancers. Furthermore, the role played by the AKT2 kinase in the signaling pathways of various mitogenic growth factors implicated in the development of pancreatic cancer suggests that alteration of AKT2 may be an important component in the pathogenesis of a substantial subset of PDACs.

Molecular pathology of primary and metastatic ductal pancreatic lesions: analyses of mutations and expression of the p53, mdm-2, and p21/WAF-1 genes in sporadic and familial lesions.

BACKGROUND: The molecular pathology underlying the development and progression of ductal pancreatic adenocarcinoma is poorly understood relative to that of other major cancers in industrialized societies. The frequency, nature, and distribution of p53 abnormalities, their temporal relationship to the metastatic and clinicopathologic phenotypes of sporadic and familial pancreatic cancer, and their consequent effects on the genetics and expression of critical wild-type p53-regulated genes (mdm-2 and p21/WAF-1) warrant examination in pancreatic adenocarcinoma. This molecular and immunochemical study of the p53, mdm-2, and p21/ WAF-1 genes and gene products examined the largest series of nonneoplastic, neoplastic, and metastatic ductal pancreatic lesions reported to date in relation to clinicopathologic profile. METHODS: Histologically confirmed specimens of primary (n = 136) and metastatic (n = 23) sporadic and familial ductal pancreatic adenocarcinoma lesions were subjected to immunochemical analyses of p53 expression in which a panel of 3 antibodies was utilized. A panel of nonneoplastic but histologically abnormal pancreatic lesions (n = 77) from individuals with varied histories of cigarette smoking were subjected to similar immunohistochemical examinations. In addition, 3 specimens from patients with chronic pancreatitis, 2 specimens of normal fetal pancreata, and 16 specimens of normal adult pancreata were examined as control tissues. Suitable frozen and archival microdissected tumor lesions were evaluated for mutations in exons 4-9 of the p53 gene by single strand conformation polymorphism (SSCP) and dideoxy sequencing analyses in which two distinct sets of outer and nested intron-based amplification primers were used for each exon. A subset of 25 tumor specimens and 18 tumor-derived cell lines for which the p53 mutation status was known were examined for amplification and/or overexpression of the mdm-2 gene; amplification was determined by Southern hybridization and overexpression by immunohistochemical and Western blot analyses. Similarly, mutations in the coding region of p21/WAF-1 gene were examined by SSCP and DNA sequence analyses, and steady-state expression of the p21/WAF-1 protein was assessed by Western blot analysis in these subsets of tumors and tumor-derived cell lines. RESULTS: Positive ductal nuclear p53 immunostaining was demonstrated in 56% of primary tumors and 54% of metastatic lesions. The frequency did not differ significantly between sporadic and familial lesions, and immunostaining was not observed in ductal, acinar, or islet cell elements of normal pancreata or histologically abnormal benign pancreatic lesions from cigarette smokers. A total of 70% of tumor samples revealed reproducible SSCP abnormalities for p53; 42% of these were found in exons 7 and 8. DNA sequence analysis of cases with greater than 35% epithelial cellularity (n = 25) revealed 17 missense mutations, 12 of which were transitions. Seventy-five percent of these transitions were of G:C-->A:T type. A total of 22% of the p53 mutations identified were microdeletions, along with one insertional mutation at exon 8. None of the normal pancreata from sporadic or familial lesions revealed germ-line p53 alterations. Moreover, the frequency and spectra of p53 alterations exhibited no clear, statistically significant association with tumor grade, TNM stage, or patients' cigarette-smoking histories. The mdm-2 gene was neither amplified nor overexpressed immunochemically in a subset of ductal adenocarcinomas, and there was no clear relationship between the p53 mutation status and the status of the mdm-2 gene or protein. Similarly, SSCP and DNA sequence analysis of the p21/WAF-1 gene revealed only 2 genetic abnormalities in a series of 25 primary tumors and 15 tumor-derived cell lines; 1 of the cell lines also revealed the absence of immunoreactive p21/WAF-1 protein...

Deletion and mutation analyses of the P16/MTS-1 tumor suppressor gene in human ductal pancreatic cancer reveals a higher frequency of abnormalities in tumor-derived cell lines than in primary ductal adenocarcinomas.

The putative tumor suppressor gene p16/CDKN2 encodes a specific inhibitor of cyclin D-cyclin-dependent kinase 4 complexes important in cell-cycle regulation and has been found to be deleted or mutated in a variety of human cancers. Thirty microdissected primary human ductal pancreatic carcinomas from patients not subject to radiotherapy or chemotherapy prior to surgical resection of their carcinomas and 18 human pancreatic carcinoma cell lines were analyzed by single-strand conformation polymorphism (SSCP) and DNA sequence analyses and PCR-based deletion analyses for mutations and homozygous deletions of the p16/CDKN2 gene, respectively. Homozygous deletions of the gene were found in five cell lines, and nonpolymorphic SSCP and DNA sequence alterations were found within exon 1 in four cell lines and exon 2 in three lines, for an overall frequency of deletions and mutations of 66%. In contrast, homozygous deletions of p16/CDKN2 were observed in three primary pancreatic carcinomas, and five primary tumors revealed SSCP and/or sequence abnormalities in exon 1 (one case) and exon 2 (four cases), a mutation and deletion frequency of 27%. Immunoblotting analyses confirmed the absence of p16/MTS-1 expression in actively proliferating cell lines with a homozygous deletion of the gene and low-to-moderate levels of p16/MTS-1 expression in cell lines possessing a normal RB-1 gene or protein. These findings suggest that, although p16/CDKN2 may play a role in the pathobiology of pancreatic cancer, inactivation of this putative tumor suppressor gene occurs more frequently in cell lines than in primary ductal pancreatic carcinomas.

Molecular and immunochemical analyses of RB1 and cyclin D1 in human ductal pancreatic carcinomas and cell lines.

Somatic mutations in the retinoblastoma-1 gene (RB1) and loss of RB1 protein function have been implicated in a number of human malignancies, but the role of RB1 gene and protein abnormalities in ductal pancreatic cancer (DPCA) is virtually unknown. We therefore analyzed expression of the RB1 protein immunohistochemically and/or by western blotting in a total of 54 sporadic and eight familial cases of archival and frozen DPCA and in 18 pancreatic carcinoma cell lines by using the antibodies RB-WL-1, 84-B3-1, and PMG3-245. Mutations in the RB1 promotor region and exons 13-21 of the RB1 gene were likewise examined by single-strand conformation polymorphism (SSCP) analyses and DNA sequencing of genomic DNA from 30 microdissected primary pancreatic tumors and the pancreatic carcinoma cell lines. Moreover, amplification and expression of a major regulatory component of RB1 function, cyclin D1, were assessed by southern and immunohistochemical analyses, respectively. The DPCAs were heterogeneous in both the intensity of RB1 nuclear staining and the percentage of immunoreactive cells. The tumors often had areas where RB1 staining was weak or absent adjacent to normal pancreatic tissue; however, only two of 32 archival cases and one of 30 frozen cases of DPCA completely lacked RB1 nuclear staining. Immunohistochemical and western blot analyses of 18 pancreatic carcinoma cell lines demonstrated the absence of RB1 expression in only two cell lines, Capan-1 and QGP-1. Analyses of the RB1 gene and promotor region by SSCP and DNA sequencing largely confirmed the immunochemical findings. Three of 30 primary carcinomas had abnormalities revealed by SSCP analyses. In one case a single base-pair deletion was confirmed in exon 18 and resulted in premature termination and the absence of detectable RB1 protein. A second case had TAC-->TTC missense mutation in exon 13. The third primary carcinoma could not be reliably sequenced because it had a low percentage of epithelial cells. The cyclin D1 gene was not amplified in any of the primary pancreatic tumors or cell lines examined. These immunochemical and molecular analyses of the RB1 tumor suppressor gene and cyclin D1 proto-oncogene in a large series of human pancreatic cancers and cell lines indicate that RB1 and cyclin D1 alterations occur during the development of some human DPCAs. Nevertheless, it is probable that alterations in cell-cycle regulation in DPCAs more frequently involve pathways other than those involving RB1 and cyclin D1.

Neurotrophin-Trk receptor interactions in neoplasia: a possible role in interstitial and perineural invasion in ductal pancreatic cancer.

Autocrine and paracrine influences of growth factors play a critical role in the regulation of the growth, survival, differentiation, and invasion potential of tumor cells. These influences on the neoplastic phenotype are particularly important in those cancers in which tumor-stroma interactions constitute important components of tumor development, as exemplified by prostatic, breast, and pancreatic carcinomas. The neurotrophins and their corresponding Trk and p75(NGFR) receptor subtypes are families of growth factors and receptors that have received relatively little attention with respect to neoplasia. This review attempts to summarize their biochemical properties, their role in neuronal and non-neuronal systems, and their involvement in the development of a variety of cancers, particularly those in which perineural invasion and/or metastasis to the CNS are a part of the pathophysiological presentation. In this regard, we have focused on our studies of neurotrophin-Trk/p75(NGFR) expression and interactions in pancreatic ductal carcinoma (PDAC) and their potential role in the perineural invasive phenotype characteristic of this cancer.

Chemopreventive activity of Oltipraz against N-nitrosobis(2-oxopropyl)amine (BOP)-induced ductal pancreatic carcinoma development and effects on survival of Syrian golden hamsters.

The synthetic dithiolethione Oltipraz has marked cancer chemopreventive and phase II enzyme inducing activity in various animal carcinogenesis models, but has not been examined in any animal models of ductal pancreatic cancer relevant to the human disease. The chemopreventive potential of Oltipraz on pancreatic tumor incidence and multiplicity was examined in the N-nitrosobis(2-oxopropyl)-amine (BOP)-induced ductal pancreatic adenocarcinoma model in Syrian hamsters. Animals were maintained on control semipurified diets or semipurified diets containing 300 and 600 mg/kg Oltipraz beginning 2 weeks prior to BOP initiation and throughout the 26 week study. Oltipraz at 300 mg/kg had no effect on the incidence or multiplicity of preneoplastic, neoplastic or metastatic lesions, while at 600 mg/kg dietary Oltipraz the incidence of pancreatic adenocarcinomas was reduced significantly (P < or = 0.05) compared to BOP-treated controls. Dietary Oltipraz at both doses had a significant influence on reducing mortality and morbidity in tumor-bearing animals with metastatic disease. At 26 weeks, total hepatic glutathione-S transferase (GST) activity and GST mu activity were elevated significantly in Oltipraz-treated animals, while total pancreatic GST activity was reduced, albeit not significantly. Serum lipase activity, a marker for pancreatic damage, exhibited a progressive decline in BOP-treated animals administered Oltipraz compared to BOP-treated controls at 12 weeks of the study; by week 26, lipase activity was comparable in all groups and reduced compared to activity at week 12. Positive nuclear immunostaining for the p53 tumor suppressor protein, a hallmark of human pancreatic cancer and a transient response to DNA damage, was observed in only a small percentage of BOP-induced pancreatic lesions and was not influenced Oltipraz administration. Further chemoprevention and pharmacologic studies of Oltipraz in relevant animal models of ductal pancreatic cancer could provide a foundation for future studies in human populations at potential risk for pancreatic cancer.

Positive immunohistochemical staining of p53 and cyclin D in advanced mouse skin tumors, but not in precancerous lesions produced by benzo[a]pyrene.

Squamous cell carcinomas (SCCs) of the mouse skin, as well as several types of preinvasive carcinoma precursor lesions, were produced by complete carcinogenesis protocols with benzo[a]pyrene (B[a]P). Groups of mice were studied histologically at several time points. Tumors and precursor lesions were systematically counted on microscope slides. The main feature of tumor development using this ubiquitous human carcinogen was the sequential appearance of in situ flat lesions with progressive degrees of dysplasia. These changes, preceding the development of SCCs, were observed 20 weeks after beginning the carcinogen treatments. At this time point, in situ lesions outnumbered SCC approximately 10:1 at the higher total carcinogen dose examined. Ten weeks later, this ratio was approximately 1:1. With the lower total carcinogen dose protocol, progression was delayed since at 27 weeks preinvasive lesions outnumbered SCCs approximately 8:1. In addition to the in situ lesions, papillomas and keratoacanthomas were noted with the high B[a]P dose protocol, but tended to disappear at the end of the experiment, also indicating their probable role as SCC precursors. A study of histochemical markers showed that gamma-glutamyltranspeptidase (GGT) and keratin 13, although good markers of malignant changes in early papillomas produced by two-stage carcinogenesis protocols, were mainly negative in dysplastic lesions produced by complete carcinogenesis with B[a]P. Immunohistochemical detection of p53 showed that 50% of SCCs were positively stained, whereas only 3% of in situ lesions were p53 immunoreactive. Similarly, 62% of SCCs were immunohistochemically positive for cyclin D, but no precursor lesions were positive. Molecular analysis of the tumors showed the absence of H-ras mutations. No amplification of the cyclin-D-1 gene was detected in eight SCCs examined. Collectively, these findings indicate that preinvasive in situ lesions are frequent during early stages of carcinogenesis when B[a]P is used in a complete carcinogenesis protocol. Although the absence of p53 immunoreactivity in this mouse model differs from the observed changes in human premalignant squamous lesions, the sequence of morphological changes and the final incidence of p53 and cyclin D staining abnormalities are very similar to the well-known alterations that take place during human squamous carcinogenesis.

Murine squamous cell carcinoma cell lines produced by a complete carcinogenesis protocol with benzo[a]pyrene exhibit characteristic p53 mutations and the absence of H-ras and cyl 1/cyclin D1 abnormalities.

In this report, we describe the isolation and characterization of six murine squamous cell carcinoma cell lines (BPCC) derived from carcinomas produced by a complete carcinogenesis protocol with benzo[a]pyrene (B[a]P). All six cell lines were tumorigenic to varying degrees in nude mice, and several were spontaneously metastatic to the lungs. The in vivo invasive potential of each BPCC cell line was determined using de-epithelialized tracheal xenotransplants into which cells were inoculated. This assay revealed positive association of tumor grade with in vivo invasiveness, yet no clear relationship to the spontaneous metastatic potential of the cell lines, suggestive that invasive potential is only one determinant of the overall metastatic phenotype. At the molecular level, all six BPCC cell lines revealed the absence of mutations in the H-ras oncogene and no amplification or rearrangement in the cycl 1/cyclin D1 putative oncogene. Analysis of the p53 tumor suppressor gene revealed a direct correlation between positive nuclear immunohistochemical staining of the p53 protein in four BPCC cell lines and the presence of p53 mutations identified by direct sequence analysis. The localization of mutations to exons 7 and 8 of the p53 gene and the detection of G to T transversions in two of the four cell lines bearing p53 mutations are in agreement with previous analyses of a large series of primary B[a]P-induced murine skin tumors. In addition, frameshift mutations were identified in two cell lines. The correlation of the biological and molecular properties of these BPCC cell lines with the known characteristics of primary squamous cell carcinomas induced by B[a]P indicates that these cell lines could be useful tools in elucidating the mechanisms of tumorigenesis of this important chemical carcinogen.

Steady-state mRNA expression for growth factors in DMBA-induced rat mammary tumors.

Steady-state mRNA levels were examined for insulin-like growth factors (IGF) I and II, transforming growth factor alpha (TGF alpha) and its receptor and the epidermal growth factor (EGF) receptor in mammary tumors induced by DMBA in rats. An abundant 4.8 kb TGF alpha transcript was identified in all tumors, along with a 7.5-8.0 kb IGF-I transcript. A presumptive 2.9 kb IGF-II transcript was also identified in all tumors. Northern analyses and receptor autophosphorylation studies failed to detect EGF receptors in any mammary tumors. These findings suggest the potential for autocrine or paracrine influences of IGF-I and IGF-II in this tumor model and a possible paracrine influence of TGF alpha in tumor-induced neovascularization.

Caloric restriction and 7,12-dimethylbenz(a)anthracene-induced mammary tumor growth in rats: alterations in circulating insulin, insulin-like growth factors I and II, and epidermal growth factor.

Caloric restriction (CR) inhibits many neoplastic diseases in rodents, yet the biochemical mechanism(s) for these effects are poorly understood. We have examined the effects of ad libitum (AL) feeding with 25 or 40% CR on the promotion of 7,12-dimethylbenz(a)anthracene-induced mammary tumorigenesis in virgin female Sprague-Dawley rats. Further, we have also studied the influence of chronic CR on temporal alterations in circulating insulin, insulin-like growth factor I/somatomedin C, insulin-like growth factor II/multiplication-stimulating activity, and epidermal growth factor levels at 0, 1, 3, 5, 11, and 20 weeks in carcinogen- and vehicle-treated animals. Tumor incidence and multiplicity were markedly inhibited (P less than 0.05) with increasing CR. Fasting serum insulin-like growth factor I/somatomedin C levels exhibited a significant acute decline with CR at 1 and 3 weeks, but were comparable to AL-fed controls throughout the remainder of the 5-month study, despite continued differences in weight gain between AL and CR rats. Levels of insulin-like growth factor II/multiplication-stimulating activity exhibited no discernible pattern in relation to CR. Serum insulin levels showed age-dependent increases, but were affected by increasing CR at all time points. Insulin levels were significantly (P less than 0.05) reduced in 40% CR rats from 3 weeks onward compared to controls, while 25% CR resulted in nonsignificant (P less than 0.07) reductions throughout the study. No significant differences in growth factor levels were observed between 7,12-dimethylbenz(a)anthracene- and vehicle-treated rats. Circulating epidermal growth factor was not detectable in any treatment group regardless of the nature or duration of the dietary regimen, time of blood collection, or subsequent tumor-bearing status. These data suggest that decreased serum insulin-like growth factor I/somatomedin C and insulin levels with CR and their complex interactions in vivo may play a role in the inhibition of mammary tumor promotion by CR.

Growth factor binding to 7,12-dimethylbenz(a)anthracene-induced mammary tumors from rats subject to chronic caloric restriction.

Caloric restriction (CR) inhibits tumorigenesis in rodents. To understand the basis for this effect the binding of insulin, insulin-like growth factor I/somatomedin C (IGF-I/Sm-C), insulin-like growth factor II/multiplication stimulating activity (IGF-II/MSA), and epidermal growth factor were examined to membrane preparations of 7,12-dimethylbenz(a)anthracene-induced mammary adenocarcinomas and several normal tissues from female Sprague-Dawley rats. Animals were fed ad libitum (AL) or 25% and 40% calorically restricted diets. Large, palpable (LP) and small, less than or equal to 100 mg, nonpalpable (SNP) tumors were evaluated. Growth factor binding to tumors was differentially affected by CR. IGF-I/Sm-C binding was comparable for AL-LP, AL-SNP, and 25% CR-LP tumors, but elevated in 25% CR-SNP tumors. Scatchard analysis revealed high and low affinity IGF-I/Sm-C binding sites, with AL-SNP and 25% CR-SNP tumors exhibiting similar levels of high affinity sites and at a greater concentration than AL-LP and 25% CR-LP tumors. Insulin binding to mammary tumors was low, i.e., 8- to 13-fold lower than IGF-I/Sm-C binding. The 25% CR-LP and SNP tumors bound 2- to 5-fold more insulin than corresponding AL-LP and SNP tumors. Binding of IGF-II/MSA to these tumor preparations was high, approximately 11- to 25-fold greater than insulin binding, and was unaffected by CR or tumor size. The binding of epidermal growth factor was not detected in any tumor preparations. Receptor binding studies were confirmed with covalent cross-linking and sodium dodecyl sulfate-polyacrylamide gel electrophoresis analyses. Normal tissues exhibited tissue- and growth factor-specific alterations in binding with host CR. Thus, alterations in growth factor binding were not tumor specific, but were less pronounced than in mammary tumors. These findings suggest alterations in IGF-I/Sm-C and insulin binding properties to tumors in relation to CR and tumor size may contribute, in part, to the inhibitory effects of CR on tumorigenesis.

Biochemical alterations in 7,12-dimethylbenz[a]anthracene-induced mammary tumors from rats subjected to caloric restriction.

Caloric restriction reduces the incidence and progression of a broad spectrum of neoplastic diseases, yet little is known about the biochemical and molecular mechanisms involved. Profiles of enzyme activities of importance in cellular energy utilization were examined in 7,12-dimethylbenz[a]anthracene-induced (DMBA) mammary adenocarcinomas from rats fed ad libitum or calorically restricted diets. The diets provided equal nutrients except for fewer carbohydrate-derived calories; graded caloric restriction was 10, 20, 30 and 40%. The specific activities of hexokinase, pyruvate kinase, lactate dehydrogenase, glucose-6-phosphate dehydrogenase, malic enzyme and fructose-1,6-bisphosphatase were all elevated to varying degrees in both large palpable and small, non-palpable tumors from calorically restricted hosts compared to activities in tumors from ad libitum-fed rats. Phosphofructokinase activity was increased in palpable tumors from calorically restricted hosts but markedly reduced in non-palpable tumors. These results suggest adaptive or compensatory alterations in tumor enzyme profiles in response to the altered nutritional state of the host.