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- Garousi, Javad, et al.
(författare)
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ADAPT, a Novel Scaffold Protein-Based Probe for Radionuclide Imaging of Molecular Targets That Are Expressed in Disseminated Cancers
- 2015
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Ingår i: Cancer Research. - : American Association for Cancer Research Inc.. - 0008-5472 .- 1538-7445. ; 75:20, s. 4364-4371
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Tidskriftsartikel (refereegranskat)abstract
- Small engineered scaffold proteins have attracted attention as probes for radionuclide-based molecular imaging. One class of these imaging probes, termed ABD-Derived Affinity Proteins (ADAPT), has been created using the albumin-binding domain (ABD) of streptococcal protein G as a stable protein scaffold. In this study, we report the development of a clinical lead probe termed ADAPT6 that binds HER2, an oncoprotein overexpressed in many breast cancers that serves as a theranostic biomarker for several approved targeting therapies. Surface-exposed amino acids of ABD were randomized to create a combinatorial library enabling selection of high-affinity binders to various proteins. Furthermore, ABD was engineered to enable rapid purification, to eradicate its binding to albumin, and to enable rapid blood clearance. Incorporation of a unique cysteine allowed site-specific conjugation to a maleimido derivative of a DOTA chelator, enabling radionuclide labeling, In-111 for SPECT imaging and Ga-68 for PET imaging. Pharmacologic studies in mice demonstrated that the fully engineered molecule In-111/Ga-68-DOTA(HE) 3-ADAPT6 was specifically bound and taken up by HER2-expressing tumors, with a high tumor-to-normal tissue ratio in xenograft models of human cancer. Unbound tracer underwent rapid renal clearance followed by high renal reabsorption. HER2-expressing xenografts were visualized by gamma-camera or PET at 1 hour after infusion. PET experiments demonstrated feasibility for discrimination of xenografts with high or low HER2 expression. Our results offer a preclinical proof of concept for the use of ADAPT probes for noninvasive in vivo imaging.
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- Girnita, L., et al.
(författare)
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Increased expression of insulin-like growth factor I receptor in malignant cells expressing aberrant p53 : Functional impact
- 2000
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Ingår i: Cancer Research. - 0008-5472 .- 1538-7445. ; 60:18, s. 5278-5283
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Tidskriftsartikel (refereegranskat)abstract
- We investigated the functional impact of p53 on insulin-like growth factor I receptor (IGF-IR) expression in malignant cells. Using the BL-41tsp53-2 cell line, a transfectant carrying temperature-sensitive (ts) p53 and endogenous mutant p53 (codon 248), we demonstrated a drastic down-regulation of plasma membrane-bound IGF-IRs on induction of wild-type p53, However, a similar response was obtained by treatment of BL-41tsp53-2 cells expressing mutant ts p53 with a p53 antisense oligonucleotide. Thus, even if the negative effect of wild-type p53 predominates under a competitive condition, these data indicate that mutant p53 may be important for up-regulation of IGF-IR, To further elucidate this issue, three melanoma cell lines (BE, SK-MEL-5, and SK-MEL-28) that over expressed p53 were investigated. The BE cell line has a hot spot mutation (codon 248) and expresses only codon 248-mutant p53, SK-MEL-28 has a point mutation at codon 145. SK-MEL-5 cells did not exhibit any p53 mutations, but the absence of p21(Waf1) expression suggested functionally aberrant p53. Our data suggest that interaction with Mdm-2 may underlie p53 inactivation in these cells, Using p53 antisense oligonucleotides, we demonstrated a substantial down-regulation of cell surface expression of IGF-IR proteins in all melanoma cell lines after 24 h, This was paralleled by decreased tyrosine phosphorylation of IGF-IR and growth arrest, and, subsequently, massive cell death was observed (this was also seen in BL-41tsp53-2 cells with mutant conformation of ts p53). Taken together, our results suggest that up-regulation of IGF-IR as a result of expression of aberrant p53 may be important for the growth and survival of malignant cells.
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- Gustafsson, Robert, et al.
(författare)
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Crystal Structure of the Emerging Cancer Target MTHFD2 in Complex with a Substrate-Based Inhibitor
- 2017
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Ingår i: Cancer Research. - : AMER ASSOC CANCER RESEARCH. - 0008-5472 .- 1538-7445. ; 77:4, s. 937-948
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Tidskriftsartikel (refereegranskat)abstract
- To sustain their proliferation, cancer cells become dependent on one-carbon metabolism to support purine and thymidylate synthesis. Indeed, one of the most highly upregulated enzymes during neoplastic transformation is MTHFD2, a mitochondrial methylenetetrahydrofolate dehydrogenase and cyclohydrolase involved in one-carbon metabolism. Because MTHFD2 is expressed normally only during embryonic development, it offers a disease-selective therapeutic target for eradicating cancer cells while sparing healthy cells. Here we report the synthesis and preclinical characterization of the first inhibitor of human MTHFD2. We also disclose the first crystal structure of MTHFD2 in complex with a substrate-based inhibitor and the enzyme cofactors NAD(+) and inorganic phosphate. Our work provides a rationale for continued development of a structural framework for the generation of potent and selective MTHFD2 inhibitors for cancer treatment.
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- Hartman, Johan, et al.
(författare)
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Tumor repressive functions of estrogen receptor beta in SW480 colon cancer cells
- 2009
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Ingår i: Cancer Research. - 0008-5472 .- 1538-7445. ; 69:15, s. 6100-6
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Tidskriftsartikel (refereegranskat)abstract
- Estrogen receptor beta (ERbeta) is the predominant ER in the colorectal epithelium. Compared with normal colon tissue, ERbeta expression is reduced in colorectal cancer. Our hypothesis is that ERbeta inhibits proliferation of colon cancer cells. Hence, the aim of this study has been to investigate the molecular function of ERbeta in colon cancer cells, focusing on cell cycle regulation. SW480 colon cancer cells have been lentivirus transduced with ERbeta expression construct with or without mutated DNA-binding domain or an empty control vector. Expression of ERbeta resulted in inhibition of proliferation and G(1) phase cell cycle arrest and this effect was dependent on a functional DNA-binding region. c-Myc is overexpressed in an overwhelming majority of colorectal tumors. By Western blot and real-time PCR, we found c-Myc to be down-regulated in the ERbeta-expressing cells. Furthermore, the c-Myc target gene p21((Waf1/Cip1)) was induced and Cdc25A was reduced by ERbeta at the transcriptional level. The second cdk2-inhibitor, p27(Kip1), was induced by ERbeta, but this regulation occurred at the posttranscriptional level, probably through ERbeta-mediated repression of the F-box protein p45(Skp2). Expression of the ERbeta-variant with mutated DNA binding domain resulted in completely different cell cycle gene regulation. We performed in vivo studies with SW480 cells +/- ERbeta transplanted into severe combined immunodeficient/beige mice; after three weeks of ERbeta-expression, a 70% reduction of tumor volume was seen. Our results show that ERbeta inhibits proliferation as well as colon cancer xenograft growth, probably as a consequence of ERbeta-mediated inhibition of cell-cycle pathways. Furthermore, this ERbeta-mediated cell cycle repression is dependent on functional ERE binding.
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