Showing papers by "Carlos Cordon-Cardo published in 1997"

Prostate-specific membrane antigen expression in normal and malignant human tissues.

Abstract: Prostate-specific membrane antigen is a type II membrane protein with folate hydrolase activity produced by prostatic epithelium. The expression of this molecule has also been documented in extraprostatic tissues, including small bowel and brain. In the present study, an extensive immunohistochemical analysis was performed on a panel of well-characterized normal and malignant human tissues to further define the pattern of prostate-specific membrane antigen (PSMA) expression. Detectable PSMA levels were identified in prostatic epithelium, duodenal mucosa, and a subset of proximal renal tubules. A subpopulation of neuroendocrine cells in the colonic crypts also exhibited PSMA immunoreactivity. All other normal tissues, including cerebral cortex and cerebellum, had undetectable levels of PSMA. Thirty-three of 35 primary prostate adenocarcinomas and 7 of 8 lymph node metastases displayed tumor cell PSMA immunostaining. Eight of 18 prostate tumors metastatic to bone expressed PSMA. All of the other nonprostatic primary tumors studied had undetectable PSMA levels. However, intense staining was observed in endothelial cells of capillary vessels in peritumoral and endotumoral areas of certain malignancies, including 8 of 17 renal cell carcinomas, 7 of 13 transitional cell carcinomas, and 3 of 19 colon carcinomas. Extraprostatic PSMA expression appears to be highly restricted. Nevertheless, its diverse anatomical distribution implies a broader functional significance than previously suspected. The decrease in PSMA immunoreactivity noted in advanced prostate cancer suggests that expression of this molecule may be linked to the degree of tumor differentiation. The neoexpression of PSMA in endothelial cells of capillary beds in certain tumors may be related to tumor angiogenesis and suggests a potential mechanism for specific targeting of tumor neovasculature.

Lipopolysaccharide Induces Disseminated Endothelial Apoptosis Requiring Ceramide Generation

Abstract: The endotoxic shock syndrome is characterized by systemic inflammation, multiple organ damage, circulatory collapse and death Systemic release of tumor necrosis factor (TNF)-α and other cytokines purportedly mediates this process However, the primary tissue target remains unidentified The present studies provide evidence that endotoxic shock results from disseminated endothelial apoptosis Injection of lipopolysaccharide (LPS), and its putative effector TNF-α, into C57BL/6 mice induced apoptosis in endothelium of intestine, lung, fat and thymus after 6 h, preceding nonendothelial tissue damage LPS or TNF-α injection was followed within 1 h by tissue generation of the pro-apoptotic lipid ceramide TNF-binding protein, which protects against LPS-induced death, blocked LPS-induced ceramide generation and endothelial apoptosis, suggesting systemic TNF is required for both responses Acid sphingomyelinase knockout mice displayed a normal increase in serum TNF-α in response to LPS, yet were protected against endothelial apoptosis and animal death, defining a role for ceramide in mediating the endotoxic response Furthermore, intravenous injection of basic fibroblast growth factor, which acts as an intravascular survival factor for endothelial cells, blocked LPS-induced ceramide elevation, endothelial apoptosis and animal death, but did not affect LPS-induced elevation of serum TNF-α These investigations demonstrate that LPS induces a disseminated form of endothelial apoptosis, mediated sequentially by TNF and ceramide generation, and suggest that this cascade is mandatory for evolution of the endotoxic syndrome

Cooperative effects of INK4a and ras in melanoma susceptibility in vivo

Abstract: The familial melanoma gene (INK4a/MTS1/CDKN2) encodes potent tumor suppressor activity. Although mice null for the ink4a homolog develop a cancer-prone condition, a pathogenetic link to melanoma susceptibility has yet to be established. Here we report that mice with melanocyte-specific expression of activated H-rasG12V on an ink4a-deficient background develop spontaneous cutaneous melanomas after a short latency and with high penetrance. Consistent loss of the wild-type ink4a allele was observed in tumors arising in ink4a heterozygous transgenic mice. No homozygous deletion of the neighboring ink4b gene was detected. Moreover, as in human melanomas, the p53 gene remained in a wild-type configuration with no observed mutation or allelic loss. These results show that loss of ink4a and activation of Ras can cooperate to accelerate the development of melanoma and provide the first in vivo experimental evidence for a causal relationship between ink4a deficiency and the pathogenesis of melanoma. In addition, this mouse model affords a system in which to identify and analyze pathways involved in tumor progression against the backdrop of genetic alterations encountered in human melanomas.

Selection of tumor antigens as targets for immune attack using immunohistochemistry: II. Blood group-related antigens

Abstract: Blood group-related antigens have been attractive targets for immunotherapy of cancer since their initial identification as cancer-related antigens. However, available information on the relative expression of most of these antigens on human malignant and normal tissues has been insufficient for selecting optimal antigens and tumors for immune attack. In this study, the distribution of the blood group-related antigens TF, Tn, sTn, Le(a), sialyl Le(a), Le(b), Le(x), sialyl Le(x), polyfucosyl Le(x) and Le(y) on 13 types of cancer and 16 normal tissues was compared. Our results show that sTn is strongly expressed on cancers of breast, colon, stomach, ovary, prostate and uterus; Tn on prostate cancer; TF on cancers of breast, colon, ovary, prostate and uterus; Le(y) on the cancers of colon, lung, pancreas and ovary; Le(a) and Le(x) on gastric cancer; and sialyl Le(a) and sialyl Le(x) on colon cancer. The complete absence of these antigens on cancers of neuroectodermal or mesodermal origin including melanoma, sarcoma, neuroblastoma and B cell lymphoma is as striking as their widespread presence on tumors of epithelial origin. Normal tissues were also tested. Tn and Le(b) were only detected on gastric and ovarian epithelia; sTn on Leydig cells of testis in addition to gastric and ovarian epithelia; Le(x) and sialyl Le(x) on polymorphonuclear leukocytes; and TF, Le(a), sialyl Le(a), Le(x), sialyl Le(x), polyfucosyl Le(x) and Le(y) on epithelia from a variety of tissues.

Selection of tumor antigens as targets for immune attack using immunohistochemistry: I. Focus on gangliosides

Abstract: Understanding the distribution of tumor-associated antigens on cancers and normal tissues is essential for selection of targets for cancer immunotherapy. Seven carbohydrate antigens, potential targets for immunotherapy, were studied using a panel of well-characterized MAbs by immunohistochemistry on cryostat-cut tissue sections of 13 types of cancers and 18 normal tissues. GD2 and GD3 were present on most cancers of neuroectodermal origin and GD2 was also present on B cell lymphomas. 9-O-acetyl-GD3 was detected only on melanoma while fucosyl GM1 was detected only on small cell lung cancers (SCLC). Surprisingly, GM2 was strongly expressed on all tested tumors, including cancers of neuroectodermal origin and cancers of epithelial origin. Polysialic acid was primarily expressed on SCLC and neuroblastomas. Globo H was present on most cancers of epithelial origin. These antigens were also identified in normal tissues. Fucosyl GM1 was not expressed significantly on any of the normal tissues analyzed. GD3, GD2, GM2 and polysialic acid were detected in normal brain to varying degrees. GM2 and Globo H were expressed on the luminal surface of epithelia of a variety of organs. The unexpected expression of GM2 on a broad range of cancers and normal epithelial tissues was confirmed by loss after methanol fixation and by immune thin layer chromatography. Int. J. Cancer 73:42–49, 1997. © 1997 Wiley-Liss, Inc.

Ku70 Is Required for DNA Repair but Not for T Cell Antigen Receptor Gene Recombination In Vivo

Abstract: Ku is a complex of two proteins, Ku70 and Ku80, and functions as a heterodimer to bind DNA double-strand breaks (DSB) and activate DNA-dependent protein kinase. The role of the Ku70 subunit in DNA DSB repair, hypersensitivity to ionizing radiation, and V(D)J recombination was examined in mice that lack Ku70 ( Ku70 −/− ). Like Ku80 −/− mice, Ku70 −/− mice showed a profound deficiency in DNA DSB repair and were proportional dwarfs. Surprisingly, in contrast to Ku80 −/− mice in which both T and B lymphocyte development were arrested at an early stage, lack of Ku70 was compatible with T cell receptor gene recombination and the development of mature CD4 + CD8 − and CD4 − CD8 + T cells. Our data shows, for the first time, that Ku70 plays an essential role in DNA DSB repair, but is not required for TCR V(D)J recombination. These results suggest that distinct but overlapping repair pathways may mediate DNA DSB repair and V(D)J recombination.

Cooperative Effects of p53 and pRB Alterations in Primary Superficial Bladder Tumors

Abstract: Altered patterns of p53 and pRB expression have been reported to be frequent events and to have prognostic significance in bladder cancer. To assess the potential adverse consequences of having altered patterns of both p53 and pRB proteins in patients with bladder neoplasms compared with having one or neither abnormality, we have studied a cohort of superficial transitional cell carcinomas of the urinary bladder by immunohistochemical analysis. The present study included 59 well-characterized superficial transitional cell carcinomas (Ta, n = 28; T1, n = 31) for which clinicopathological variables were available. Nuclear overexpression of p53 was identified in 22 cases (37%). A statistically significant association was observed between the p53-positive phenotype and disease progression ( P < 0.001), as well as reduced survival ( P < 0.001). Undetectable levels of pRB were observed in 11 cases (19%). Patients with a pRB-negative phenotype had a more frequent disease progression ( P = 0.014) and decreased overall survival ( P = 0.014). We also observed a significant association between altered p53 and undetectable pRB expression patterns ( P = 0.001). Nine tumors showed both a p53-positive and a pRB-negative phenotype. There was an even more marked increase in progression ( P = 0.0005) and decreased overall survival ( P = 0.0004) in patients whose tumors had both alterations after controlling for tumor stage, tumor grade, and suspicion of vascular invasion. These data suggest that alterations of p53 and pRB have a cooperative negative effect on both progression and survival in primary bladder cancer. It may be postulated that aberrant p53 and pRB expression deregulates cell cycle control at the G1 checkpoint and engenders tumor cells with reduced response to programmed cell death. The imbalance produced by an enhanced proliferative activity and a decreased apoptotic rate may determine the aggressive clinical course of the bladder tumors harboring both p53 and pRB alterations.

DNA extraction from paraffin-embedded tissues using a salting-out procedure: a reliable method for PCR amplification of archival material.

Abstract: Many techniques have been described for the extraction of DNA from paraffin-embedded tissues. Numerous efforts have been directed at simplification of these methods for rapid analysis using PCR. One disadvantage to some of the simpler procedures is inefficient PCR amplification, and for more involved ones using phenol/chloroform extraction, reduction in the yield of DNA. In the present study we report the use of a novel salting-out procedure that was utilized to extract DNA from 259 separate microdissection specimens of formalin-fixed, paraffin-embedded tissue sections. These sections were derived from 97 patients with tumors of the ampulla of Vater resected between 1965 and 1995 at our institution. The mean DNA yield was 22.75 micrograms (median 13.2 +/- 30.25) and the mean 260/280 absorbance ratio was 1.68 (median 1.70 +/- 0.25). All specimens (259/259) were successfully used to amplify K-ras exon 1 by a nested PCR technique. These results indicate that this DNA extraction method produces good yields of quality DNA, even from specimens several decades old.

K-ras mutation in adenomas and carcinomas of the ampulla of vater.

Abstract: The role of K-ras mutations in the progression of tumors of the ampulla of Vater is not well understood. To study the frequency and timing of K-ras mutations in ampullary tumors, areas of invasive carcinoma and adjacent adenomas were microdissected from paraffin blocks from 96 resected tumors. DNA was extracted, PCR amplification of K-ras exon 1 was performed, and PCR products were sequenced. Statistical analysis of K-ras mutations with respect to patient survival and clinicopathological factors was performed using the chi2 test, log-rank test, and Cox proportional hazard model. Thirty-four of 92 ampullary carcinomas (37.0%) and 25 of 46 adenomas (54.3%) had mutations in K-ras exon 1. Twenty-two of 23 (95.7%) adenomas adjacent to carcinomas with K-ras mutations also had K-ras mutations. The only clinicopathological factor significantly associated with K-ras mutation was tumor size >2 cm (P = = 0.035). Patient survival did not correlate with the K-ras mutation status (P = 0.31). We conclude that K-ras mutations are frequent in both adenomas and carcinomas of the ampulla of Vater and appear to occur as an early genetic event. The spectrum of mutations is similar to that observed in colorectal neoplasms, and these do not significantly correlate with patient survival.

Evaluation of the telomeric repeat amplification protocol (TRAP) assay for telomerase as a diagnostic modality in recurrent bladder cancer.

Abstract: There is a need for the identification of an accurate test for the detection of recurrent bladder cancer. In this study, we evaluate the telomeric repeat amplification protocol (TRAP) assay for detection of telomerase as a potential new method for bladder cancer detection and compare it to voided urine cytology. A urine sample and a bladder wash were obtained from 63 patients with a history of bladder cancer. Cytological evaluation was performed on voided urine, and the TRAP assay was performed on voided urine and bladder wash. The overall clinical sensitivity of the TRAP assay, as defined by the ability to identify correctly the patients with pathologically confirmed bladder cancer, was 35% in voided urine and 50% in bladder wash, whereas the overall clinical sensitivity of voided urine cytology was 71%. The sensitivity of voided urine cytology for the papillary and noninvasive tumors (Ta) was 50%, compared to 92% for the superficially invasive tumors (T1), 62% for the muscle-invasive tumors (T2+), and 100% for the high-grade flat carcinoma in situ (Tis). The clinical sensitivity of the TRAP assay using voided urine was 46% for Ta, 50% for T1, 18% for T2+, and 20% for Tis. The sensitivity of the TRAP assay in Ta disease was similar to that of cytology (50% for cytology versus 46% for the TRAP assay). There was a strong association between the total number of exfoliated malignant cells and the sensitivity of the assay. The sensitivity of the TRAP assay in bladder washes was 44% for Ta, 67% for T1, 46% for T2+, and 43% for Tis. The TRAP assay is reproducible, highly specific, and not dependent on the expertise of the cytopathologist. These results suggest that this assay should be further investigated as a diagnostic tool for bladder cancer.

Genetic studies and molecular markers of bladder cancer.

Abstract: Target genes implicated in cellular transformation and tumor progression have been divided into two categories: proto-oncogenes which, when activated, become dominant events characterized by the gain of function, and tumor suppressor genes which become recessive events characterized by the loss of function. Alterations in proto-oncogenes and tumor suppressor genes seem equally prevalent among human cancers. Multiple mutations appear to be required to conform the malignant phenotype. Proto-oncogenes are activated mainly by point mutations; however, amplification and translocation events are also common. Tumor suppressor genes are inactivated by an allelic loss followed by a point mutation of the remaining allele. The prototype suppressor genes are the retinoblastoma (RB) gene and the TP53 (also known as p53) genes. Recent studies have shown that inactivation of TP53 and RB occur in bladder tumors that have a more aggressive clinical outcome and poor prognosis. We will review the molecular abnormalities associated with both oncogenes and tumor suppressor genes in bladder tumors, and also discuss the potential clinical use of their detection. The implementation of objective predictive assays to identify these alterations in clinical material will enhance our ability to assess tumor biological activities and to design effective treatment regimes.Semin. Surg. Oncol. 13:319-327, 1997. © 1997 Wiley-Liss, Inc.

Bcl-2 and Bax expression in thyroid tumours. An immunohistochemical and western blot analysis.

Abstract: Bcl-2 and Bax proteins, which are involved in repressing and promoting programmed cell death, respectively, have been investigated immunohistochemically and by Western blot analysis in a series of thyroid tumours. Three immunostaining patterns were identified. Benign lesions and well-differentiated thyroid carcinomas displayed a profile similar to that of normal follicular epithelium, in which Bcl-2 immunostaining was predominant. Thyroid carcinomas associated with an aggressive behaviour, such as the tall-cell variant of papillary carcinoma and the poorly differentiated carcinomas, co-expressed both proteins. Finally, anaplastic carcinomas expressed only the Bax protein. Western blot analyses revealed that the anti-Bcl-2 antibody recognized two bands, of molecular weights 21 kDa and 25 kDa. This was only seen in the tall-cell papillary carcinomas and in the anaplastic carcinomas.

Chromosome 16 in primary prostate cancer: a microsatellite analysis.

Abstract: Cytogenetic and molecular genetic analyses of prostate cancer specimens have revealed nonrandom chromosomal deletions, affecting chromosomes 7q, 8p, 10q and 16q. Based on these data, we designed this study to further characterize the altered region(s) on chromosome 16 by evaluating 16 microsatellite markers on a population composed of 32 paired normal and primary prostatic tumor samples. The 16 microsatellites selected mapped to 11 distinct loci on 16q and 5 loci on 16p. No alterations were identified affecting 16p. However, 16 of 31 (51%) informative cases showed molecular alterations in at least one of the loci analyzed on 16q, consisting of 18 deletions and 11 bandshifts. Moreover, most of the deletions clustered at 6 microsatellite loci, mapping to the 16q22.1-23.1 region. Our results suggest that microsatellite alterations on the long arm of chromosome 16 are frequent events in prostate cancer, and that the 16q22.1-23.1 region might harbor a tumor suppressor gene involved in prostate cancer.

Two Cytodifferentiation Agent-induced Pathways, Differentiation and Apoptosis, Are Distinguished by the Expression of Human Papillomavirus 16 E7 in Human Bladder Carcinoma Cells

Abstract: Many transformed cells have been found to lose the capacity to proliferate and undergo differentiation following exposure to hybrid polar agents. This study investigates the mechanism by which hexamethylene bisacetamide (HMBA) suppresses the proliferation of the human bladder carcinoma line, T24. We found that following a 24-h exposure to HMBA, T24 proliferation was inhibited, and cells arrested in G1 phase and underwent morphological maturation. HMBA-induced cessation of proliferation was mediated, in part, by effects on cell cycle regulatory proteins. In T24 cells cultured without HMBA, E2F complexes predominantly with p107. In culture with inducer, p107 protein decreased, pRB and p130 were converted to underphosphorylated forms, and E2F was shifted into complexes with pRB and p130. To determine whether the formation of pRB:E2F and p130:E2F complexes was required for the HMBA-induced G1 arrest, the ability of the pocket proteins to bind E2F was blocked by enforced expression of human papillomavirus 16 E7. Following culture with HMBA, the T24 clones expressing E7 died, whereas vector-alone T24 clones arrested in G1 phase. T24/E7-1 cells did not form pRB:E2F or p130:E2F complexes upon culture with HMBA; rather, E2F was present in its free form. T24/E7-1 cells cultured with HMBA initially accumulate in G1. By day 2, they have entered into S phase, and by day 3, over 80% of the cells became apoptotic. Taken together, these studies enlarge the repertoire of demonstrated developmental pathways that may be triggered in transformed cells, depending upon their molecular status, and may provide potential therapeutic opportunities for cancer.

Molecular and immunopathology studies of oncogenes and tumor-suppressor genes in bladder cancer.

Abstract: Target genes implicated in cellular transformation and tumor progression have been divided into two categories: proto-oncogenes (that when activated become dominant events characterized by gain of function) and tumor-suppressor genes (recessive events characterized by the loss of function). Alterations in proto-oncogenes and tumor-suppressor genes seem equally prevalent among human cancers. Multiple mutations appear to be required to conform the malignant phenotype. It is therefore conceivable that cancer be viewed fundamentally as a genetic disease entailing inherited (also called germ-line) and/or acquired (also termed somatic) mutations of genes in these two categories. Molecular studies of bladder neoplasms have identified a series of nonrandom genetic alterations affecting a particular set of oncogenes and tumor-suppressor genes. Because the modality of therapy for patients with bladder neoplasms primarily depends on morphological evaluation and clinical staging, the diagnosis carries significant consequences. However, it is well known that morphologically similar tumors presenting in any assigned stage may behave in radically different fashions, which seriously hampers the physician's ability accurately to predict clinical behavior in a given case. Recent studies have shown that inactivation of certain tumor-suppressor genes, such as RB and TP53, occur in bladder tumors that have a more aggressive clinical outcome and poor prognosis. In the present paper we review the molecular abnormalities associated with these dominant and recessive genes in bladder cancer and discuss the potential clinical use of their detection. The implementation of objective predictive assays to identify these alterations in clinical material will enhance our ability to assess tumor biological activities and to design effective treatment regimens. The need now is to translate this newly developed scientific knowledge into diagnostic and therapeutic strategies, which in turn will enhance the quality of life and prolong the survival of patients with bladder cancer.