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Genetic studies of endocrine abdominal tumorsHessman, Ola January 2001 (has links)
<p>Pancreatic endocrine tumors (PETs) occur sporadically or in the familial multiple endocrine neoplasia type 1 (MEN1) syndrome, whereas midgut carcinoids are nonfamilial, malignant endocrine tumors of the intestine. For these tumor entities morphological criteria are of limited use for prognostic prediction and selection of treatment. Genetic characterization may give additional information of clinical use and reveal pathways involved in tumor development.</p><p>Molecular genetic alterations in sporadic and MEN1-associated PETs and midgut carcinoids were studied with LOH and mutational analysis. In addition, immunohistochemistry was used to clarify gene expression. Detected genetic aberrations were correlated to the disease course of individual patients.</p><p>Somatic mutations of the<i> MEN1</i> gene at chromosome <i>11q13</i> were detected in 1/3 of sporadic PETs<i>. </i>Moreover, LOH was found in 70% of the lesions. All tumors with somatic <i>MEN1</i> mutations displayed loss of the remaining allele showing that the <i>MEN1</i> gene is involved in development of sporadic PETs.</p><p> Sporadic and MEN1 PETs were analyzed for LOH at <i>3p,</i> <i>11q13</i> and <i>18q</i>. A relation of LOH at <i>11q13</i> and <i>3p</i> to malignancy was found for the sporadic tumors. None of the benign tumors (all of them insulinomas) had allelic loss at <i>3p</i> or <i>11q13</i>, versus 92 % (p<0.01) of the malignant tumors (including malignant insulinomas). 1/4 of both sporadic and MEN1 lesions displayed LOH at <i>18q</i>, without altered <i>Smad4/DPC4</i>.</p><p>Genome-wide LOH screening of MEN1 PETs revealed multiple allelic deletions without general correlation to tumor size or malignancy. All tumors displayed LOH at the <i>MEN1 </i>locus, and 30% on chromosomes 3, 6, 8, 10, 18 and 21. Intratumoral heterogeneity was revealed, with chromosome 6 and 11 deletions in most tumor cells. Chromosome 6 deletions were mainly found in lesions from patients with malignant features. </p><p>A similar genome-wide LOH screening was performed on midgut carcinoids. Deletions at chromosome <i>18q</i> were found in 88% of the tumors indicating a potential tumor suppressor locus.</p>
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Genetic studies of endocrine abdominal tumorsHessman, Ola January 2001 (has links)
Pancreatic endocrine tumors (PETs) occur sporadically or in the familial multiple endocrine neoplasia type 1 (MEN1) syndrome, whereas midgut carcinoids are nonfamilial, malignant endocrine tumors of the intestine. For these tumor entities morphological criteria are of limited use for prognostic prediction and selection of treatment. Genetic characterization may give additional information of clinical use and reveal pathways involved in tumor development. Molecular genetic alterations in sporadic and MEN1-associated PETs and midgut carcinoids were studied with LOH and mutational analysis. In addition, immunohistochemistry was used to clarify gene expression. Detected genetic aberrations were correlated to the disease course of individual patients. Somatic mutations of the MEN1 gene at chromosome 11q13 were detected in 1/3 of sporadic PETs. Moreover, LOH was found in 70% of the lesions. All tumors with somatic MEN1 mutations displayed loss of the remaining allele showing that the MEN1 gene is involved in development of sporadic PETs. Sporadic and MEN1 PETs were analyzed for LOH at 3p, 11q13 and 18q. A relation of LOH at 11q13 and 3p to malignancy was found for the sporadic tumors. None of the benign tumors (all of them insulinomas) had allelic loss at 3p or 11q13, versus 92 % (p<0.01) of the malignant tumors (including malignant insulinomas). 1/4 of both sporadic and MEN1 lesions displayed LOH at 18q, without altered Smad4/DPC4. Genome-wide LOH screening of MEN1 PETs revealed multiple allelic deletions without general correlation to tumor size or malignancy. All tumors displayed LOH at the MEN1 locus, and 30% on chromosomes 3, 6, 8, 10, 18 and 21. Intratumoral heterogeneity was revealed, with chromosome 6 and 11 deletions in most tumor cells. Chromosome 6 deletions were mainly found in lesions from patients with malignant features. A similar genome-wide LOH screening was performed on midgut carcinoids. Deletions at chromosome 18q were found in 88% of the tumors indicating a potential tumor suppressor locus.
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Genome-wide screening of loss of heterozygosity in human midgut carcinoid tumors with fluorescent techniqueLöllgen, Ruth Mari Caroline 14 July 2004 (has links)
Hintergrund: Karzinoid-Tumoren des embryonalen Mitteldarms sind seltene intestinale neuroendokrine Tumoren, bei denen zum Zeitpunkt der Diagnose häufig Metastasen vorliegen. Im Gegensatz zu Karzinoiden des Vorderdarms und Respirationstraktes sind sie nicht mit der Multiplen Endokrinen Neoplasie Typ 1 (MEN1) vergesellschaftet. Die Mechanismen ihrer Tumorigenesis sind weitgehend unbekannt. Methoden: Tumorgewebe acht sporadischer, maligner Dünndarm-Karzinoide war Objekt dieser Studie über Verlust der Heterozygotie ("Loss Of Heterozygosity" (LOH)) mit 131 fluoreszierenden Mikrosatelliten. DNA Sequenz-Analyse mit Oligonucleotid Primern, die Exon 8-11 des SMAD4/DPC4 Gens flankieren sowie immunhistochemische Färbung mit Smad4/DPC4 antikörpern wurde durchgeführt. Ergebnis: Chromosom 18 wies Deletionen in 88% der Tumoren auf. Alle außer einem Tumor hatten sowohl 18p als auch 18q verloren, in einem der Tumoren war eine kleine Region telomer zu den SMAD4/DPC4/DCC Genen auf 18q21 verloren. Andere Chromosomen waren nur in drei Tumoren betroffen. LOH auf Chromosom 11q13, dem MEN1 Lokus, wurde nicht gefunden.Sequenzierung der DNA und immunhistochemische Färbung für das SMAD4/DPC4 Gen zeigten keine Aberrationen. Diskussion: Die Funde der Chromosom 18 Deletionen weisen eindeutig auf ein entscheidendes Ereignis in der Tumorigenese von Karzinoiden des Mitteldarms hin. An der Entstehung dieser Tumoren könnte ein mutmaßliches Tumor Suppressor Gen beteiligt sein, welches auf Chromosom 18 lokalisiert ist. Dahingegen ist SMAD4/DPC4 wahrscheinlich nicht in die Tumorneogenese von Carcinois Tumoren involviert. / Background: Midgut carcinoid tumors are rare malignant tumors with origin in the neuroendocrine cells of the small intestine. Due to secretion of a variety of peptide hormones and biogenic amines they cause the carcinoid syndrome. Metastases are often present at first diagnosis. Despite this, patients have a realistic chance to survive for a prolonged period (30% (unresectable/metastatic disease) -79% (non-metastatic disease) 5-year survival rate) if treated by a combination of surgery and medication. Unlike their foregut counterparts, midgut carcinoid tumors are not or rarely associated with the multiple endocrine neoplasia type 1 (MEN1) syndrome. The genetic back-ground to tumorigenesis of these neoplasms is unknown. In contrast, the events involved in tumorigenesis of gastroenteropancreatic adenocarcinomas are better characterized with frequent mutations e.g. of the Smad4/DPC4, Smad2/MADR2/JV18-1 and DCC genes on chromosome 18. Methods: Eight metastatic midgut carcinoids were analysed by a genome-wide screening for loss of heterozygosity using 131 PCR-amplified fluorescent-labelled microsatellite markers. DNA sequence analysis using oligonucleotide primers flanking exons 8-11 of the Smad4/DPC4 gene and immunohistochemical staining with Smad4/DPC4 antibodies was performed. Results: Chromosome 18 was deleted in seven out of eight tumors (88%). All but one of these tumors had lost both 18p and 18q, the remaining tumor had lost the long arm but retained the short arm. Several other chromosomal alleles were lost in a subset of the tumors. Loss of heterozygosity (LOH) on chromosome 11q13, the MEN 1 locus, was not found. Smad4/DPC4 wild-type sequence and normal immunohistochemical staining for Smad4/DPC4 protein was found for all analysed tumors. Conclusions: Our finding of a high frequency of chromosome 18 deletions in 88% of the tumors strongly suggests that midgut carcinoid tumorigenesis might involve inactivation of a candidate tumor suppressor gene located in that region while Smad4/DPC4 is unlikely to be involved in that process. A more detailed analysis of the genetic events in midgut carcinoid tumors is warranted to clarify their neogenetic origin.
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