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Query: UMLS:C0598934 (
tumor growth
)
58,965
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We have previously shown that inoculation of human chromosome 3 (chr3)/A9 mouse fibrosarcoma microcell hybrids (MCHs) into severe combined immunodeficient (SCID) mice was followed by the regular elimination of some 3p regions whereas a 3q region was retained even after prolonged mouse passage. Using this approach, referred to as the elimination test (Et), we have defined a common eliminated region (CER) of approximately 7 cM at 3p21.3 that was absent in all of the 27 tumors generated from five MCHs. Later, CER was reduced to a 1-Mb region, designated as CER1. Another eliminated region (ER2) at 3p21.1-p14.2 was absent in 21 of the 27 tumors. ER2 borders at but does not include the fragile histidine triad (FHIT) gene, considered as a putative tumor suppressor gene. In the present work, two new and two previously studied MCHs, and 13 derived SCID mouse tumors were analyzed by fluorescence in situ hybridization (FISH) chromosome painting and by PCR, using 72 chr3p-specific and 11 chr3q-specific markers. Nine tumors generated from three MCHs that carried cytogenetically normal chr3, remained PCR-positive for all of the chr3 markers tested. Designated as "PCR+" tumors, they were examined by reverse transcription (RT)-PCR, together with four of six previously studied tumors derived from MCH910.7, which carried a del(3)(pter-p21.1), for the expression of 14 human genes: 5 genes within CER1 (
LIMD1
, CCR1, CCR2, CCR3, CCR5), 5 genes located within regions that were homozygously deleted in a variety of carcinomas (ITGA4L, LUCA1, PTPRG, FHIT, DUTT1), and 4 other genes in chr3p (VHL, MLH1, TGM4, UBE1L). We found that VHL, MLH1, ITGA4L,
LIMD1
, UBE1L, LUCA1, PTPRG, and DUTT1 were expressed in the MCH lines in vitro and also in the derived SCID tumors. No transcripts that originated from the four CCR genes or from TGM4 could be detected in any of the MCH lines. Alone among the 14 genes examined, FHIT showed a
tumor growth
-associated change. It was expressed in vitro in five of seven MCH lines. Nine of 13 derived tumors had no FHIT transcript. The remaining 4 expressed a truncated mRNA and a reduced amount of the full-length mRNA. We have previously found that FHIT was deleted at the DNA level in 17 of 21 tumors derived from four MCHs. The remaining 4 of 21 had no FHIT transcript. Our compiled data show that FHIT was either physically or functionally impaired in all 34 of the 34 analyzed tumors. Variants with deleted or down-regulated FHIT have a selective growth advantage.
...
PMID:Inactivation of the human fragile histidine triad gene at 3p14.2 in monochromosomal human/mouse microcell hybrid-derived severe combined immunodeficient mouse tumors. 1115 20
Chromosome deletions do abound in cancer and are detected in certain regions in a non-random manner. Although their relevance remains elusive, it is a general agreement that segmental losses provide the cell with selective growth advantage. Consequently these may contain genes and/or regulatory sequences that control normal growth and inhibit malignancy. We have developed a monochromosomal hybrid based experimental model for the generation and functional analysis of deletions, that is called "elimination test" (Et). Focused on human chromosome 3 - that was known to carry multiple 3p deletions - the Et was expected to restrict a 3p tumor suppressor region to a sufficiently small segment that permits the selection of a critically important candidate gene. Surprisingly, we detected three regions that were lost in all or majority of tumors: CER1 (3p21.3, Mb: 43.32-45.74), CER2 (3p22, Mb: 37.83-39.06) and FER (3p14.3-p21.2, Mb: 50.12-58.03). In contrast a 3q26-qter region (CRR) was regularly retained. CER1 - our main focus - contains multiple genes that may inhibit
tumor growth
, but 3 genes, RIS1, LF (LTF) and
LIMD1
have already the necessary experimental support to be considered bona fide tumor suppressors. Tumor suppressor region borders display instability features including: (1) they break in evolution and in tumors, (2) they evolve horizontally, and (3) they are enriched with pseudogene insertions. The most remarkable features at the breakpoint cluster regions were segmental duplications that drive horizontal evolution and contribute to cancer associated instability.
...
PMID:Modeling non-random deletions in cancer. 1717 4
The hLIMD1 gene is located at chromosome 3p21 and was identified as a putative tumor suppressor gene using an elimination test assay. Chromosome 3p21 loci are frequently deleted in a number of cancers, including breast. The 3p21.3 locus harbors a number of tumor suppressor candidates, including
LIMD1
, a member of the ZYXIN family of genes.
LIMD1
directly interacts with RB and is thought to play a role in suppressing
tumor growth
. To investigate whether mutations in the
LIMD1
gene could potentially be involved in breast cancer, we used single-stranded conformation polymorphism analysis on DNA from 235 breast cancers and 95 controls. We identified four novel coding region alterations, including two amino acid substitutions at positions 255 and 302. The two remaining novel variants were found at amino acid positions 246 and 647 and encoded silent alterations. The rare Ser255Arg variant was identified in only sporadic breast tumors (2/165 tumors). Some ZYXIN proteins are phosphorylated by serine/threonine kinases, and the Ser255Arg change is located in a region phosphorylated on serine residues. Together, the data suggest that this variant may warrant further characterization.
...
PMID:Identification of rare variants in the hLIMD1 gene in breast cancer. 1788 6
Wounding, apoptosis, or infection can trigger a proliferative response in neighboring cells to replace damaged tissue. Studies in Drosophila have implicated c-Jun amino-terminal kinase (JNK)-dependent activation of Yorkie (Yki) as essential to regeneration-associated growth, as well as growth associated with neoplastic tumors. Yki is a transcriptional coactivator that is inhibited by Hippo signaling, a conserved pathway that regulates growth. We identified a conserved mechanism by which JNK regulated Hippo signaling. Genetic studies in Drosophila identified Jub (also known as Ajuba LIM protein) as required for JNK-mediated activation of Yki and showed that Jub contributed to wing regeneration after wounding and to
tumor growth
. Biochemical studies revealed that JNK promoted the phosphorylation of Ajuba family proteins in both Drosophila and mammalian cells. Binding studies in mammalian cells indicated that JNK increased binding between the Ajuba family proteins
LIMD1
or WTIP and LATS1, a kinase within the Hippo pathway that inhibits the Yki homolog YAP. Moreover, JNK promoted binding of
LIMD1
and LATS1 through direct phosphorylation of
LIMD1
. These results identify Ajuba family proteins as a conserved link between JNK and Hippo signaling, and imply that JNK increases Yki and YAP activity by promoting the binding of Ajuba family proteins to Warts and LATS.
...
PMID:Ajuba family proteins link JNK to Hippo signaling. 2406 39
Over the past decade, therapies targeting the VEGF/VEGFR and mTOR pathways have served as the standard of care for the clinical management of renal cell carcinoma (RCC) patients. Albeit promising, these targeted drugs have attained only modest clinical benefits with limited prolonged progression-free survival. Therefore, alternative reasonable and applicable therapeutic approaches should be introduced to improve the clinical outcome of RCC patients.
Methods:
FDA approved kinase inhibitors were screened to evaluate their abilities to suppress the proliferation of RCC cells. Then, the downstream effector, therapeutic target and signaling pathway of the selected drug were identified by gene expression array, RNAi, kinase profile and rescue verification. Finally, the
in vivo
effectiveness of the drug was assessed in cell line-based xenograft models and patient-derived xenograft models.
Results:
In this study, we discovered that dasatinib is a potent agent that can impair RCC cell viability
in vitro
and decrease
tumor growth
in vivo.
Mechanistically, we improved the understanding of the precise mechanistic role of YAP as a pivotal effector of dasatinib-induced anti-proliferation through Src-JNK-
LIMD1
-LATS signaling cascade in RCC cells. Meanwhile, our results indicated that the alteration of p-YAP is closely correlated to the growth inhibition caused by dasatinib in sensitive RCC models.
Conclusion:
Our findings provide evidence that dasatinib may serve as a powerful drug candidate to treat subgroups of RCC patients with hyper-activated Src-YAP signaling axis, and the alteration of p-YAP could serve as a functional response biomarker of dasatinib in RCC.
...
PMID:A tightly controlled Src-YAP signaling axis determines therapeutic response to dasatinib in renal cell carcinoma. 2993 Jul 27
The transcriptional co-activators YAP (or YAP1) and TAZ (or WWTR1) are frequently activated during the growth and progression of many solid tumors, including lung, colorectal, breast, pancreatic, and liver carcinomas as well as melanoma and glioma. YAP/TAZ bind to TEAD-family co-activators to drive cancer cell survival, proliferation, invasive migration, and metastasis. YAP/TAZ activation may also confer resistance to chemotherapy, radiotherapy, or immunotherapy. YAP-TEAD cooperates with the RAS-induced AP-1 (FOS/JUN) transcription factor to drive
tumor growth
and cooperates with MRTF-SRF to promote activation of cancer-associated fibroblasts, matrix stiffening, and metastasis. The key upstream repressor of YAP/TAZ activation is the Hippo (MST1/2-LATS1/2) pathway and the key upstream activators are mechanically induced Integrin-SRC and E-cadherin-AJUBA/TRIP6/
LIMD1
, growth factor induced PI3K-AKT, and inflammation-induced G-protein coupled receptor (GPCR) signals, all of which antagonize the Hippo pathway. In this review, strategies to target YAP/TAZ activity in cancer are discussed along with the prospects for synergy with established pillars of cancer therapy.
...
PMID:YAP/TAZ: Drivers of Tumor Growth, Metastasis, and Resistance to Therapy. 3212 50
