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Target Concepts:
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Query: UMLS:C0033036 (
APC
)
10,214
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
11p15.5 is an important tumor-suppressor gene region, showing loss of heterozygosity in Wilms tumor, rhabdomyosarcoma, adrenocortical carcinoma, and lung, ovarian, and breast cancer. We previously mapped directly by genetic complementation a subtransferable fragment (STF) harboring an embryonal tumor-suppressor gene and spanning about 2.5 Mb. We have now mapped the centromeric end of this STF between D11S988 and D11S12 and its telomeric end between D11S1318 and TH. We have isolated a complete contig of
PAC
, P1, BAC, and cosmid genomic clones spanning the entire 2.5-Mb region defined by this STF, as well as more than 200 exons from these genomic clones using exon trapping. We have isolated genes in this region by directly screening DNA libraries as well as by database searching for ESTs. Nine of these genes have been reported previously by us and by others. However, the initial mapping of most of those genes was based on FISH or somatic cell hybrid analysis, and here we precisely define their physical location. These genes include
RRM1
, GOK (D11S4896E), Nup98, CARS, hNAP2 (NAP1L4), p57KIP2 (CDKN1C), KVLQT1 (KCNA9), TAPA-1, and ASCL2. In addition, we have identified several novel genes in this region, three of which, termed TSSC1, TSSC2, and TSSC3, are reported here. TSSC1 shows homology to Rb-associated protein p48 and chromatin assembly factor CAF1, and it is located between GOK and Nup98. TSSC2 is homologous to Caenorhabditis elegans beta-mannosyl transferase, and it lies between Nup98 and CARS. TSSC3 shows homology to mouse TDAG51, which is implicated in FasL-mediated apoptosis, and it is located between hNAP2 and p57KIP2. Thus, these genes may play a role in malignancies that involve this region.
...
PMID:A 2.5-Mb transcript map of a tumor-suppressing subchromosomal transferable fragment from 11p15.5, and isolation and sequence analysis of three novel genes. 940 53
LOH11A is a region of Chromosome (Chr) 11p15.5 where 75% of lung cancers show loss of heterozygosity (LOH). Clinical and cell biological studies suggest that LOH11A contains a tumor/metastasis suppressor gene. We have mapped this region (650 kb) using overlapping genomic P1/
PAC
/BAC clones, and one of the genes that we have identified is
RRM1
. This gene encodes the large subunit (M1) of ribonucleotide reductase, the heterodimeric enzyme that catalyzes the rate-limiting step in deoxyribonucleotide synthesis. By comparing our genomic sequences with the previously published cDNA, we have found that the human gene is composed of 19 exons. It is oriented telomere to centromere and is Alu rich. In order to verify that
RRM1
maps within the boundaries of LOH11A, we assessed the frequency of LOH at a SacI polymorphism within intron IX of the gene. We observed LOH in 48% (15/31) of informative lung tumor specimens. To determine whether
RRM1
was mutated in tumors, SSCP analysis of the 19
RRM1
exons was performed. No mutations were revealed in 12 pairs of normal and tumor DNA samples. Immunoblots on protein extracts from normal/tumor pairs indicated that a protein of the expected size was present in both. Our conclusion is that
RRM1
lies within the LOH11A region, but that its exons are not mutated in tumors. The potential for
RRM1
to act as a tumor suppressor is discussed.
...
PMID:Lung cancer and the human gene for ribonucleotide reductase subunit M1 (RRM1). 1044 45
Chemoresistance is a major issue for most gemcitabine-related chemotherapies. The overexpression of
ribonucleotide reductase subunit M1
(
RRM1
) plays a key role in gemcitabine resistance. In this study, we synthesized a new highly acid-sensitive amphiphilic micelle material by conjugating hydrophilic polyethylene glycol with a hydrophobic stearic acid derivative (C18) using a hydrazone bond, which was named as PHC-2. A lipophilic prodrug of gemcitabine, 4-(N)-stearoyl gemcitabine (GemC18), was loaded into micelles prepared with PHC-2, a previously synthesized less acid-sensitive PHC-1, and their acid-insensitive counterpart,
PAC
. GemC18 loaded in acid-sensitive micelles can overcome gemcitabine resistance, and GemC18 in the highly acid-sensitive PHC-2 micelles was more cytotoxic than in the less acid-sensitive PHC-1 micelles. Mechanistic studies revealed that upon cellular uptake and lysosomal delivery, GemC18 in the acid-sensitive micelles was released and hydrolyzed more efficiently. Furthermore, GemC18 loaded in the highly acid-sensitive PHC-2 micelles inhibited the expression of
RRM1
and increased the level of gemcitabine triphosphate (dFdCTP) in gemcitabine resistant tumor cells. The strategy of delivering lipophilized nucleoside analogs using highly acid-sensitive micelles may represent a new platform technology to increase the antitumor activity of nucleoside analogs and to overcome tumor cell resistance to them.
...
PMID:The effect of the acid-sensitivity of 4-(N)-stearoyl gemcitabine-loaded micelles on drug resistance caused by RRM1 overexpression. 2326 Dec 18
Metastatic chromophobe renal cell cancer (chRCC) is a rare subtype of RCC with no standard treatment. We performed molecular profiling of 12 chRCC cases to identify alterations predictive of response to therapy. Tests included immunohistochemistry assays, fluorescence in situ hybridization, and next-generation sequencing. Analysis identified c-KIT overexpression in 6/9 (67%) samples analyzed, and loss of protein expression of
RRM1
and MGMT in 11/12 (92%) and of PTEN in 7/12 samples (58%). Mutations of TP53, PTEN,
APC
, and VHL genes were identified. In summary, molecular profiling of chRCC identified alterations in genes and protein expression that might provide a mechanistic rationale for off-label use of approved therapies in advanced chRCC, and could guide the design of molecularly targeted clinical trials. PATIENT SUMMARY: In this study, we evaluated samples of a rare type of kidney cancer (chromophobe type) and identified potential genetic markers that could be used to individualize treatment and possibly improve treatment outcomes.
...
PMID:Molecular and Genomic Profiling to Identify Actionable Targets in Chromophobe Renal Cell Cancer. 2875 42
