Molecular pathology of the MEN1 gene

Sunita K. Agarwal; A. Lee Burns; Karen E. Sukhodolets; Patricia A. Kennedy; Victor H. Obungu; Alison B. Hickman; Michael E. Mullendore; Ira Whitten; Monica C. Skarulis; William F. Simonds; Carmen Mateo; Judy S. Crabtree; Peter C. Scacheri; Youngmi Ji; Elizabeth A. Novotny; Lisa Garrett-Beal; Jerrold M. Ward; Steven K. Libutti; H. Richard Alexander; Aniello Cerrato; Michael J. Parisi; Sonia Santa Anna-A; Brian Oliver; Settara C. Chandrasekharappa; Francis S. Collins; Allen M. Spiegel; Stephen J. Marx

doi:10.1196/annals.1294.020

Molecular pathology of the MEN1 gene

Sunita K. Agarwal, A. Lee Burns, Karen E. Sukhodolets, Patricia A. Kennedy, Victor H. Obungu, Alison B. Hickman, Michael E. Mullendore, Ira Whitten, Monica C. Skarulis, William F. Simonds, Carmen Mateo, Judy S. Crabtree, Peter C. Scacheri, Youngmi Ji, Elizabeth A. Novotny, Lisa Garrett-Beal, Jerrold M. Ward, Steven K. Libutti, H. Richard Alexander, Aniello CerratoMichael J. Parisi, Sonia Santa Anna-A, Brian Oliver, Settara C. Chandrasekharappa, Francis S. Collins, Allen M. Spiegel, Stephen J. Marx

Research output: Contribution to journal › Review article › peer-review

131 Scopus citations

Abstract

Multiple endocrine neoplasia type 1 (MEN1), among all syndromes, causes tumors in the highest number of tissue types. Most of the tumors are hormone producing (e.g., parathyroid, enteropancreatic endocrine, anterior pituitary) but some are not (e.g., angiofibroma). MEN1 tumors are multiple for organ type, for regions of a discontinuous organ, and for sub-regions of a continuous organ. Cancer contributes to late mortality; there is no effective prevention or cure for MEN1 cancers. Morbidities are more frequent from benign than malignant tumor, and both are indicators for screening. Onset age is usually earlier in a tumor type of MEN1 than of nonhereditary cases. Broad trends contrast with those in nonneoplastic excess of hormones (e.g., persistent hyperinsulinemic hypoglycemia of infancy). Most germline or somatic mutations in the MEN1 gene predict truncation or absence of encoded menin. Similarly, 11q13 loss of heterozygosity in tumors predicts inactivation of the other MEN1 copy. MEN1 somatic mutation is prevalent in nonhereditary, MEN1-like tumor types. Compiled germline and somatic mutations show almost no genotype/phenotype relation. Normal menin is 67 kDa, widespread, and mainly nuclear. It may partner with junD, NF-kB, PEM, SMAD3, RPA2, FANCD2, NM23β, nonmuscle myosin heavy chain II-A, GFAP, and/or vimentin. These partners have not clarified menin's pathways in normal or tumor tissues. Animal models have opened approaches to menin pathways. Local overexpression of menin in Drosophila reveals its interaction with the jun-kinase pathway. The Men1+/- mouse has robust MEN1; its most important difference from human MEN1 is marked hyperplasia of pancreatic islets, a tumor precursor stage.

Original language	English (US)
Pages (from-to)	189-198
Number of pages	10
Journal	Annals of the New York Academy of Sciences
Volume	1014
DOIs	https://doi.org/10.1196/annals.1294.020
State	Published - 2004
Externally published	Yes

Keywords

AP1
Carcinoid
Gastrinoma
Hyperparathyroidism
Insulinoma
MEN1
Menin
Oncogene
Tumor suppressor

ASJC Scopus subject areas

Neuroscience(all)
Biochemistry, Genetics and Molecular Biology(all)
History and Philosophy of Science

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1196/annals.1294.020

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Agarwal, S. K., Burns, A. L., Sukhodolets, K. E., Kennedy, P. A., Obungu, V. H., Hickman, A. B., Mullendore, M. E., Whitten, I., Skarulis, M. C., Simonds, W. F., Mateo, C., Crabtree, J. S., Scacheri, P. C., Ji, Y., Novotny, E. A., Garrett-Beal, L., Ward, J. M., Libutti, S. K., Alexander, H. R., ... Marx, S. J. (2004). Molecular pathology of the MEN1 gene. Annals of the New York Academy of Sciences, 1014, 189-198. https://doi.org/10.1196/annals.1294.020

Agarwal, SK, Burns, AL, Sukhodolets, KE, Kennedy, PA, Obungu, VH, Hickman, AB, Mullendore, ME, Whitten, I, Skarulis, MC, Simonds, WF, Mateo, C, Crabtree, JS, Scacheri, PC, Ji, Y, Novotny, EA, Garrett-Beal, L, Ward, JM, Libutti, SK, Alexander, HR, Cerrato, A, Parisi, MJ, Anna-A, SS, Oliver, B, Chandrasekharappa, SC, Collins, FS, Spiegel, AM & Marx, SJ 2004, 'Molecular pathology of the MEN1 gene', Annals of the New York Academy of Sciences, vol. 1014, pp. 189-198. https://doi.org/10.1196/annals.1294.020

@article{aeebf5bf16bb485786fd6fa55fc142f7,

title = "Molecular pathology of the MEN1 gene",

abstract = "Multiple endocrine neoplasia type 1 (MEN1), among all syndromes, causes tumors in the highest number of tissue types. Most of the tumors are hormone producing (e.g., parathyroid, enteropancreatic endocrine, anterior pituitary) but some are not (e.g., angiofibroma). MEN1 tumors are multiple for organ type, for regions of a discontinuous organ, and for sub-regions of a continuous organ. Cancer contributes to late mortality; there is no effective prevention or cure for MEN1 cancers. Morbidities are more frequent from benign than malignant tumor, and both are indicators for screening. Onset age is usually earlier in a tumor type of MEN1 than of nonhereditary cases. Broad trends contrast with those in nonneoplastic excess of hormones (e.g., persistent hyperinsulinemic hypoglycemia of infancy). Most germline or somatic mutations in the MEN1 gene predict truncation or absence of encoded menin. Similarly, 11q13 loss of heterozygosity in tumors predicts inactivation of the other MEN1 copy. MEN1 somatic mutation is prevalent in nonhereditary, MEN1-like tumor types. Compiled germline and somatic mutations show almost no genotype/phenotype relation. Normal menin is 67 kDa, widespread, and mainly nuclear. It may partner with junD, NF-kB, PEM, SMAD3, RPA2, FANCD2, NM23β, nonmuscle myosin heavy chain II-A, GFAP, and/or vimentin. These partners have not clarified menin's pathways in normal or tumor tissues. Animal models have opened approaches to menin pathways. Local overexpression of menin in Drosophila reveals its interaction with the jun-kinase pathway. The Men1+/- mouse has robust MEN1; its most important difference from human MEN1 is marked hyperplasia of pancreatic islets, a tumor precursor stage.",

keywords = "AP1, Carcinoid, Gastrinoma, Hyperparathyroidism, Insulinoma, MEN1, Menin, Oncogene, Tumor suppressor",

author = "Agarwal, {Sunita K.} and Burns, {A. Lee} and Sukhodolets, {Karen E.} and Kennedy, {Patricia A.} and Obungu, {Victor H.} and Hickman, {Alison B.} and Mullendore, {Michael E.} and Ira Whitten and Skarulis, {Monica C.} and Simonds, {William F.} and Carmen Mateo and Crabtree, {Judy S.} and Scacheri, {Peter C.} and Youngmi Ji and Novotny, {Elizabeth A.} and Lisa Garrett-Beal and Ward, {Jerrold M.} and Libutti, {Steven K.} and Alexander, {H. Richard} and Aniello Cerrato and Parisi, {Michael J.} and Anna-A, {Sonia Santa} and Brian Oliver and Chandrasekharappa, {Settara C.} and Collins, {Francis S.} and Spiegel, {Allen M.} and Marx, {Stephen J.}",

year = "2004",

doi = "10.1196/annals.1294.020",

language = "English (US)",

volume = "1014",

pages = "189--198",

journal = "Annals of the New York Academy of Sciences",

issn = "0077-8923",

publisher = "Wiley-Blackwell",

}

TY - JOUR

T1 - Molecular pathology of the MEN1 gene

AU - Agarwal, Sunita K.

AU - Burns, A. Lee

AU - Sukhodolets, Karen E.

AU - Kennedy, Patricia A.

AU - Obungu, Victor H.

AU - Hickman, Alison B.

AU - Mullendore, Michael E.

AU - Whitten, Ira

AU - Skarulis, Monica C.

AU - Simonds, William F.

AU - Mateo, Carmen

AU - Crabtree, Judy S.

AU - Scacheri, Peter C.

AU - Ji, Youngmi

AU - Novotny, Elizabeth A.

AU - Garrett-Beal, Lisa

AU - Ward, Jerrold M.

AU - Libutti, Steven K.

AU - Alexander, H. Richard

AU - Cerrato, Aniello

AU - Parisi, Michael J.

AU - Anna-A, Sonia Santa

AU - Oliver, Brian

AU - Chandrasekharappa, Settara C.

AU - Collins, Francis S.

AU - Spiegel, Allen M.

AU - Marx, Stephen J.

PY - 2004

Y1 - 2004

N2 - Multiple endocrine neoplasia type 1 (MEN1), among all syndromes, causes tumors in the highest number of tissue types. Most of the tumors are hormone producing (e.g., parathyroid, enteropancreatic endocrine, anterior pituitary) but some are not (e.g., angiofibroma). MEN1 tumors are multiple for organ type, for regions of a discontinuous organ, and for sub-regions of a continuous organ. Cancer contributes to late mortality; there is no effective prevention or cure for MEN1 cancers. Morbidities are more frequent from benign than malignant tumor, and both are indicators for screening. Onset age is usually earlier in a tumor type of MEN1 than of nonhereditary cases. Broad trends contrast with those in nonneoplastic excess of hormones (e.g., persistent hyperinsulinemic hypoglycemia of infancy). Most germline or somatic mutations in the MEN1 gene predict truncation or absence of encoded menin. Similarly, 11q13 loss of heterozygosity in tumors predicts inactivation of the other MEN1 copy. MEN1 somatic mutation is prevalent in nonhereditary, MEN1-like tumor types. Compiled germline and somatic mutations show almost no genotype/phenotype relation. Normal menin is 67 kDa, widespread, and mainly nuclear. It may partner with junD, NF-kB, PEM, SMAD3, RPA2, FANCD2, NM23β, nonmuscle myosin heavy chain II-A, GFAP, and/or vimentin. These partners have not clarified menin's pathways in normal or tumor tissues. Animal models have opened approaches to menin pathways. Local overexpression of menin in Drosophila reveals its interaction with the jun-kinase pathway. The Men1+/- mouse has robust MEN1; its most important difference from human MEN1 is marked hyperplasia of pancreatic islets, a tumor precursor stage.

AB - Multiple endocrine neoplasia type 1 (MEN1), among all syndromes, causes tumors in the highest number of tissue types. Most of the tumors are hormone producing (e.g., parathyroid, enteropancreatic endocrine, anterior pituitary) but some are not (e.g., angiofibroma). MEN1 tumors are multiple for organ type, for regions of a discontinuous organ, and for sub-regions of a continuous organ. Cancer contributes to late mortality; there is no effective prevention or cure for MEN1 cancers. Morbidities are more frequent from benign than malignant tumor, and both are indicators for screening. Onset age is usually earlier in a tumor type of MEN1 than of nonhereditary cases. Broad trends contrast with those in nonneoplastic excess of hormones (e.g., persistent hyperinsulinemic hypoglycemia of infancy). Most germline or somatic mutations in the MEN1 gene predict truncation or absence of encoded menin. Similarly, 11q13 loss of heterozygosity in tumors predicts inactivation of the other MEN1 copy. MEN1 somatic mutation is prevalent in nonhereditary, MEN1-like tumor types. Compiled germline and somatic mutations show almost no genotype/phenotype relation. Normal menin is 67 kDa, widespread, and mainly nuclear. It may partner with junD, NF-kB, PEM, SMAD3, RPA2, FANCD2, NM23β, nonmuscle myosin heavy chain II-A, GFAP, and/or vimentin. These partners have not clarified menin's pathways in normal or tumor tissues. Animal models have opened approaches to menin pathways. Local overexpression of menin in Drosophila reveals its interaction with the jun-kinase pathway. The Men1+/- mouse has robust MEN1; its most important difference from human MEN1 is marked hyperplasia of pancreatic islets, a tumor precursor stage.

KW - AP1

KW - Carcinoid

KW - Gastrinoma

KW - Hyperparathyroidism

KW - Insulinoma

KW - MEN1

KW - Menin

KW - Oncogene

KW - Tumor suppressor

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U2 - 10.1196/annals.1294.020

DO - 10.1196/annals.1294.020

M3 - Review article

C2 - 15153434

AN - SCOPUS:2342500422

SN - 0077-8923

VL - 1014

SP - 189

EP - 198

JO - Annals of the New York Academy of Sciences

JF - Annals of the New York Academy of Sciences

ER -

Molecular pathology of the MEN1 gene

Abstract

Keywords

ASJC Scopus subject areas

UN SDGs

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