Jürgen Adamkiewicz scite author profile

The peroxisome proliferator‐activated receptor‐β (PPARβ) has been implicated in tumorigenesis, but its precise role remains unclear. Here, we show that the growth of syngeneic Pparb wild‐type tumors is impaired in Pparb−/− mice, concomitant with a diminished blood flow and an abundance of hyperplastic microvascular structures. Matrigel plugs containing pro‐angiogenic growth factors harbor increased numbers of morphologically immature, proliferating endothelial cells in Pparb−/− mice, and retroviral transduction of Pparb triggers microvessel maturation. We have identified the Cdkn1c gene encoding the cell cycle inhibitor p57Kip2 as a PPARβ target gene and a mediator of the PPARβ‐mediated inhibition of cell proliferation, which provides a possible mechanistic explanation for the observed tumor endothelial hyperplasia and deregulation of tumor angiogenesis in Pparb−/− mice. Our data point to an unexpected essential role for PPARβ in constraining tumor endothelial cell proliferation to allow for the formation of functional tumor microvessels.

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Endothelial-like cells derived from human CD14 positive monocytes

Pujol¹,

Lucibello²,

Gehling

et al. 2000

Differentiation

305

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A Fos protein containing the Jun leucine zipper forms a homodimer which binds to the AP1 binding site

Neuberg¹,

Adamkiewicz²,

Hunter³

et al. 1989

Nature

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The TPA (12-O-tetradecanoyl-phorbol-13-acetate) responsive element (TRE) is recognized by the inducible transcription factor AP1, a heterodimeric complex of Fos- and Jun-protein subunits, which each contain a specific structure known as the leucine zipper through which they interact. Studies using site-directed mutagenesis have shown that a basic region adjacent to the leucine zipper in Fos is crucial for the interaction of the Fos-Jun complex with the TRE, and probably represents a site of interaction with DNA. The functionally crucial amino acids in this region are almost completely conserved between Fos and Jun (refs 6, 7 and 11; M.N. and R.M., unpublished results), indicating the formation of a nearly symmetrical DNA-binding site in the Fos-Jun complex. Whereas Jun can form a homodimeric protein complex which binds to the TRE, Fos is unable to do so. The Fos-Jun heterodimer, however, possesses at least a 30-fold-higher affinity for the TRE than does the Jun-Jun homodimer, indicating cooperative binding. Because Fos cannot form a homodimer it is not known whether Fos specifically recognizes part of the TRE or has a different role in the binding of the Fos-Jun complex to DNA. Here we report that exchanging the leucine zipper in Fos with that of Jun generates a protein (termed psi-Fos) that can form a complex with Fos. This Fos-psi-Fos complex, and to a lesser extent a homodimeric psi-Fos complex, exhibits specific binding to the TRE. This finding strongly supports the hypothesis that Fos and Jun form a nearly symmetrical DNA-binding site that interacts with the palindromic TRE.

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Immuno-slot-blot: A highly sensitive immunoassay for the quantitation of carcinogen-modified nucleosides in DNA

Nehls

Adamkiewicz

Rajewsky

1984

J Cancer Res Clin Oncol

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We have established a highly sensitive immuno-slot-blot (ISB) procedure that can be routinely applied for detection and quantitation of any heat- or alkali-stable structural DNA modification (caused by carcinogens or mutagens, for example) for which a specific (monoclonal) antibody (MAB) is available. The essential step in this assay is the immobilization on nitrocellulose filters of the structurally modified DNA in its single-stranded form. The immobilized DNA is first reacted with an MAB specifically directed against a particular modified DNA component (e.g., an alkyldeoxynucleoside), and thereafter with a second antibody directed against the first one. The second antibody can be either labeled with 125I or linked to an enzyme complex capable of eliciting a color reaction with a suitable substrate. The sensitivity of the ISB is demonstrated for two different alkyldeoxynucleosides, O6-ethyldeoxyguanosine (O6-EtdGuo) and O4-ethyldeoxythymidine (O4-EtdThd), both of which are produced in cellular DNA exposed to the alkylating N-nitroso carcinogen N-ethyl-N-nitrosourea and both of which represent DNA lesions miscoding during DNA replication and transcription. Using anti-(O6-EtdGuo) and anti-(O4-EtdThd) MABs, respectively, O6-EtdGuo and O4-EtdThd are detected at levels as low as greater than or equal to 0.3 X 10(-15) mol O6-EtdGuo/3 micrograms DNA (O6-EtdGuo/deoxyguanosine molar ratio in DNA, greater than or equal to 2 X 10(-7) ) and greater than or equal to 0.1 X 10(-15) mol of O4-EtdThd/3 micrograms DNA (O4-EtdThd/deoxythymidine molar ratio in DNA, greater than or equal to 4 X 10(-8) ).

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