Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
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Query: UMLS:C0677930 (
primary tumor
)
20,210
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
It has become evident that retinoids control differentiation, embryonal development, and tumorigenesis. In animal models, skin tumorigenesis has been shown to be prevented by retinoids, which in this organ function as antitumor promoters in the two-stage system using 7,12-dimethylbenz(a)anthracene (DMBA) as the initiator, and 12-tetradecanoyl-phorbol-13-acetate (TPA) as tumor promoter. Even though pharmacological doses applied topically appear to inhibit tumor formation, we found that papilloma and keratoacanthoma growth required physiological concentrations of retinoic acid and that vitamin A deficiency was even more effective than excess retinoid in inhibiting SENCAR mouse skin tumorigenesis. In human beings, oral administration of retinoic acid after tumor resection was effective in inhibiting the appearance of new tumors on the skin of four patients with Xeroderma Pigmentosum, and was effective in preventing new
primary tumor
formations in patients treated for head and neck cancer. The newly-discovered nuclear receptors for retinoic acid function as transcriptional activators for several genes. In patients with acute promyelocytic leukemia presenting with a reciprocal translocation of chromosome 17 to chromosome 15, the breakpoint has been identified in the retinoic acid receptor alpha gene, which forms a fusion gene with a new gene termed myl, on chromosome 15. Treatment of the patients with retinoic acid causes complete remission of the
APL
. It also appears to generate cells that do not bear the translocation. Therefore, retinoids may well function as modulators of carcinogenesis both at the promotion level as well as by causing differentiation of neoplastically transformed cells.
...
PMID:Multiple mechanisms: the example of vitamin A. 830 28
Tumor latency and dormancy are obstacles to effective cancer treatment. In brain metastases, emergence of a lesion can occur at varying intervals from diagnosis and in some cases following successful treatment of the
primary tumor
. Genetic factors that drive brain metastases have been identified, such as those involved in cell adhesion, signaling, extravasation, and metabolism. From this wealth of knowledge, vexing questions still remain; why is there a difference in strategy to facilitate outgrowth and why is there a difference in latency? One missing link may be the role of tissue biophysics of the brain microenvironment in infiltrating cells. Here, I discuss the mechanical cues that may influence disseminated tumor cells in the brain, as a function of age and disease. I further discuss
in vitro
and
in vivo
preclinical models such as 3D culture systems and zebrafish to study the role of the mechanical environment in brain metastasis in an effort of providing novel targeted therapeutics.
APL
Bioeng 2018 Sep
PMID:Perspective: The role of mechanobiology in the etiology of brain metastasis. 3106 12
Cancer cell fusion was suggested as a mechanism of metastasis about a century ago. Since then, many additional modes of material transfer (i.e., tunneling nanotubes, and exosomes) to generate cell hybrids have been identified. However, studies documenting spontaneous tumor hybrid formation
in vivo
as a mechanism that enables metastasis are still lacking. Here, we tested whether spontaneous hybrid formation
in vivo
contributes to bona fide metastatic tumors. We first used single cell RNASeq to analyze the gene expression profile of spontaneously formed cancer cell-stromal hybrids, and results revealed that hybrids exhibit a clustering pattern that is distinct from either parental cell and suggestive of substantial diversity of individual hybrids. Despite the newly gained diversity, hybrids can retain expression of critical genes of each parental cell. To assess the biological impact of cancer cell hybrids
in vivo
, we transfected murine mammary tumor cells, isolated from FVB/N-Tg(MMTV-PyVT)634Mul/J mice (PyVT) with
Cre
recombinase prior to injection to the murine fat pad of FVB.129S6(B6)-
Gt(ROSA)26Sor
tm
1
(Luc)Kael
/J mice such that luciferase expression is induced with hybrid formation; luciferase expression was tracked for up to four months. We observed that hybrid formation occurs spontaneously
in vivo
and that a significantly higher number of hybrids reside in metastases compared to the
primary tumor
, supporting the possibility that hybrids can emerge from the
primary tumor
and proliferate to help create a new tumor at a distant site. Additional studies are now warranted to delineate the mechanisms of cancer cell hybrid transit to metastases since drugs to inhibit hybrid formation might prevent metastatic spread.
APL
Bioeng 2018 Sep
PMID:Breast tumor cell hybrids form spontaneously
in vivo
and contribute to breast tumor metastases. 3106 16
More than a quarter of lung, uterine, and ovarian adenocarcinoma (LUAD, USEC, and OV) tumors are resistant to platinum drugs. Only recently and only in OV, patterns of copy-number alterations that predict survival in response to platinum were discovered, and only by using the tensor GSVD to compare Agilent microarray platform-matched profiles of patient-matched normal and
primary tumor
DNA. Here, we use the GSVD to compare whole-genome sequencing (WGS) and Affymetrix microarray profiles of patient-matched normal and primary LUAD, USEC, and OV tumor DNA. First, the GSVD uncovers patterns similar to one Agilent OV pattern, where a loss of most of the chromosome arm 6p combined with a gain of 12p encode for transformation. Like the Agilent OV pattern, the WGS LUAD and Affymetrix LUAD, USEC, and OV patterns are correlated with shorter survival, in general and in response to platinum. Like the tensor GSVD, the GSVD separates these tumor-exclusive genotypes from experimental inconsistencies. Second, by identifying the shorter survival phenotypes among the WGS- and Affymetrix-profiled tumors, the Agilent pattern proves to be a technology-independent predictor of survival, independent also of the best other indicator at diagnosis, i.e., stage. Third, like no other indicator, the pattern predicts the overall survival of OV patients experiencing progression-free survival, in general and in response to platinum. We conclude that comparative spectral decompositions, such as the GSVD and tensor GSVD, underlie a mathematically universal description of the relationships between a
primary tumor
's genotype and a patient's overall survival phenotype, which other methods miss.
APL
Bioeng 2019 Sep
PMID:GSVD- and tensor GSVD-uncovered patterns of DNA copy-number alterations predict adenocarcinomas survival in general and in response to platinum. 3146 21
