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Query: UMLS:C0027627 (
metastases
)
103,950
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Interactions between tumor and stroma cells are essential for the progression of cancer from its initial growth at a primary site to its metastasis to distant organs. The metastasis-stimulating protein
S100A4
exerts its function as a stroma cell-derived factor. Genetic depletion of
S100A4
significantly reduced the metastatic burden in lungs of PyMT-induced mammary tumors. In
S100A4
(+/+) PyMT mice, massive leukocyte infiltration at the site of the growing tumor at the stage of malignant transition was associated with increased concentration of extracellular
S100A4
in the tumor microenvironment. In contrast, in
S100A4
(-/-) PyMT tumors, a significant suppression of T-cell infiltration was documented at the transition period. In vitro, the
S100A4
protein mediated the attraction of T cells. Moreover,
S100A4
(+/+), but not
S100A4
(-/-), fibroblasts stimulated the invasion of T lymphocytes into fibroblast monolayers. In vivo, the presence of
S100A4
(+/+), but not
S100A4
(-/-), fibroblasts significantly stimulated the attraction of T lymphocytes to the site of the growing tumor. Increased levels of T cells were also observed in the premetastatic lungs of tumor-bearing mice primed to
metastasize
by
S100A4
(+/+) fibroblasts. Treatment of T cells with the
S100A4
protein stimulated production of cytokines, particularly granulocyte colony-stimulating factor and eotaxin-2. The same cytokines were detected in the fluid of
S100A4
(+/+) PyMT tumors at the transition period. We suggest that release of
S100A4
in the primary tumor stimulates infiltration of T cells and activates secretion of cytokines, thus triggering sequential events that fuel tumor cells to
metastasize
. Similar processes could occur in the premetastatic lungs, facilitating generation of inflammatory milieu favorable for metastasis formation.
...
PMID:Lung metastasis fails in MMTV-PyMT oncomice lacking S100A4 due to a T-cell deficiency in primary tumors. 2010 44
Metastasis
is a complex cascade of events involving a finely tuned interplay between malignant cells and multiple host factors. The transition from benign tumor growth to malignancy is manifested by the ability of tumor cells to traverse tissue barriers and invade surrounding tissues. Among a multitude of factors playing a role, the small calcium-binding protein
S100A4
has been found to add to the invasive and metastatic capacity of cancer cells. However, the exact molecular function or mechanism by which
S100A4
exerts its putative metastasis-promoting effects has not been fully elucidated, and the protein is most likely involved in several aspects of tumor progression. Several studies have recently described a direct interaction and/or reciprocal influence between
S100A4
and the tumor suppressor protein p53. This corresponds to reports linking p53 to other S100-family members, especially S100B. The consequences are intriguing, connecting the metastasis-promoting protein
S100A4
to the large set of important p53-mediated functions, with broad potential importance in cancer development and metastasis. In this review we emphasize the studies involving p53 and
S100A4
, elucidating and comparing reported results and conclusions.
...
PMID:Evaluation of potential interactions between the metastasis-associated protein S100A4 and the tumor suppressor protein p53. 2017 48
Peritoneal surface malignancies are characterized by the propensity for tumor growth on peritoneal surfaces without development of extraperitoneal
metastases
, but the molecular basis for this phenomenon is incompletely understood. Five human tumors and corresponding orthotopic animal models of human pseudomyxoma peritonei and peritoneal mucinous carcinomatosis from colorectal carcinoma were extensively characterized by immunohistochemical analysis of molecular markers of tissue differentiation (carcinoembryonal antigen, CK20, CK7, and vimentin), proliferation and metastasis (Ki-67, vascular endothelial growth factor, and
S100A4
), mucins (MUC1, MUC2, MUC4, MUC5AC), and adhesion molecules (E-cadherin, N-cadherin, P-cadherin, claudin 1, claudin 3, and claudin 4). Macro- and microscopic growth patterns of implanted human tissues were preserved through passages in the animals, as were with few exception immunohistochemical staining profiles, supporting the relevance of the models as tools for studying the human disease. Tissue differentiation marker expression was in accordance with previously published results and high Ki-67 score confirmed high proliferative capacity, whereas absence of metastatic capacity was supported by low expression levels of the studied metastasis markers. These mucinous tumors expressed high levels of MUC2 and MUC4, whereas MUC1 was not expressed and MUC5AC expression was variable. Similarly, specific adhesion molecules from the cadherin and claudin families were shown to be of relevance in the investigated samples. The results indicate that mucinous peritoneal surface malignancies of intestinal origin are characterized by the presence of specific molecular markers and represent a step toward understanding the complexity of this intriguing phenotypic entity.
...
PMID:Exploring the peritoneal surface malignancy phenotype--a pilot immunohistochemical study of human pseudomyxoma peritonei and derived animal models. 2033 18
FANCD2, a pivotal protein in the Fanconi anemia and BRCA pathway/network, is monoubiquitylated in the nucleus in response to DNA damage. This study examines the subcellular location and relationship with prognostic factors and patient survival of FANCD2 in breast cancer. Antibodies to FANCD2 were used to immunocytochemically stain 16 benign and 20 malignant breast specimens as well as 314 primary breast carcinomas to assess its association with subcellular compartment and prognostic factors using Fisher's Exact test or with patient survival over 20 years using Wilcoxon-Gehan statistics. Immunoreactive FANCD2 was found in the nucleus and cytoplasm of all 16 benign tissues, but nuclear staining was lost from a significant 19/20 malignant carcinomas (P < 0.0001). Antibodies to FANCD2 stained the cytoplasm of 196 primary carcinomas, leaving 118 as negatively stained. Negative cytoplasmic staining was significantly associated with positive staining for the metastasis-inducing proteins
S100A4
, S100P, osteopontin, and AGR2 (P < or = 0.002). Survival of patients with FANCD2-negative carcinomas was significantly worse (P < 0.0001) than those with positively stained carcinomas, and only 4% were alive at the census date. Multivariate regression analysis identified negative staining for cytoplasmic FANCD2 as the most significant indicator of patient death (P = 0.001). Thus FANCD2's cytoplasmic loss in the primary carcinomas may allow the selection of cells overexpressing proteins that can induce
metastases
before surgery.
...
PMID:Significance of the Fanconi anemia FANCD2 protein in sporadic and metastatic human breast cancer. 2036 22
S100A4
, a member of the S100 family of Ca(2+)-binding proteins, regulates carcinoma cell motility via interactions with myosin-IIA. Numerous studies indicate that
S100A4
is not simply a marker for
metastatic disease
, but rather has a direct role in metastatic progression. These observations suggest that
S100A4
is an excellent target for therapeutic intervention. Using a unique biosensor-based assay, trifluoperazine (TFP) was identified as an inhibitor that disrupts the
S100A4
/myosin-IIA interaction. To examine the interaction of
S100A4
with TFP, we determined the 2.3 A crystal structure of human Ca(2+)-
S100A4
bound to TFP. Two TFP molecules bind within the hydrophobic target binding pocket of Ca(2+)-
S100A4
with no significant conformational changes observed in the protein upon complex formation. NMR chemical shift perturbations are consistent with the crystal structure and demonstrate that TFP binds to the target binding cleft of
S100A4
in solution. Remarkably, TFP binding results in the assembly of five Ca(2+)-
S100A4
/TFP dimers into a tightly packed pentameric ring. Within each pentamer most of the contacts between
S100A4
dimers occurs through the TFP moieties. The Ca(2+)-
S100A4
/prochlorperazine (PCP) complex exhibits a similar pentameric assembly. Equilibrium sedimentation and cross-linking studies demonstrate the cooperative formation of a similarly sized
S100A4
/TFP oligomer in solution. Assays examining the ability of TFP to block
S100A4
-mediated disassembly of myosin-IIA filaments demonstrate that significant inhibition of
S100A4
function occurs only at TFP concentrations that promote
S100A4
oligomerization. Together these studies support a unique mode of inhibition in which phenothiazines disrupt the
S100A4
/myosin-IIA interaction by sequestering
S100A4
via small molecule-induced oligomerization.
...
PMID:Phenothiazines inhibit S100A4 function by inducing protein oligomerization. 2042 9
Early detection of tumors and
metastases
is critical for improving treatment strategies and patient outcomes. The development of molecular markers and simple tests that are clinically applicable for detection, prognostication, and therapy monitoring is strongly needed. The gene
S100A4
has long been known to act as a metastasis inducer. High
S100A4
levels in the primary tumor are prognostic for metachronous metastasis and correlate with reduced patient survival. We provide, for the first time, a plasma-based assay for transcript quantification of
S100A4
in gastrointestinal patients' plasma. We conducted a study to define the diagnostic and prognostic power of
S100A4
transcripts using 466 plasma samples from colon, rectal, and gastric cancer patients. Plasma was separated, RNA was isolated, and
S100A4
mRNA was determined by quantitative RT-PCR.
S100A4
transcripts were increased in cancer patients of each entity (P < 0.0001) and all disease stages (P < 0.05), compared with tumor-free volunteers (sensitivities of 96%, 74%, and 90% and specificities of 59%, 82%, and 71%, for colon, rectal, and gastric cancer patients, respectively). Prospectively analyzed follow-up patients who later experienced metastasis showed higher
S100A4
levels than follow-up patients without metastasis. Disease-free survival was decreased in high
S100A4
-expressing follow-up colorectal cancer patients (P = 0.013). In summary, we developed a method for quantitative
S100A4
transcript determination in plasma that allows clinical application routinely. We demonstrated the diagnostic and prognostic potential of this method for early defining cancer staging and patients' risk for metastasis.
...
PMID:Diagnostic and prognostic value of metastasis inducer S100A4 transcripts in plasma of colon, rectal, and gastric cancer patients. 2135 54
S100A4
, a 10-12 kDa calcium-binding protein, plays functional roles in tumor progression and metastasis. The present study aimed to investigate the function of
S100A4
in osteosarcoma (OS) metastasis, using a loss-of-function approach. Our previous expression profiling analysis revealed that S100a4 was preferentially expressed in the highly metastatic mouse OS cell line, LM8. Introducing a short hairpin ribonucleic acid (shRNA) targeting S100a4 using a newly established vector containing insulators and transposons, we established stable LM8 subclones with almost 100% silencing of endogenous S100a4 protein. These transfectants showed a significant suppression of cell migration in vitro as well as a marked reduction in their ability to colonize the lung and form pulmonary
metastases
in vivo following intravenous inoculation, whereas there was no significant change in cell proliferation or cell attachment to fibronectin, laminin, and type I collagen. Expression and phosphorylation of ezrin, an emerging OS metastasis-associated factor, and expression of MMPs, remained the same in S100a4-shRNA clones. In 61 human OS, immunohistochemical analysis showed that lesional cells in 85.2% samples expressed
S100A4
protein, and the immunoreactivity was primarily cytoplasmic, but it also showed occasional nuclear localization. Chondroblastic and osteoblastic OS subtypes expressed more
S100A4
than fibroblastic subtypes. The causative role of
S100A4
in OS lung metastasis shown in the murine xenograft model, together with the high proportion of primary human OS expressing
S100A4
, suggest that
S100A4
protein represents an important potential target for future OS therapy.
...
PMID:Stable knockdown of S100A4 suppresses cell migration and metastasis of osteosarcoma. 2136 24
The tumor microenvironment is now recognized as a major factor in determining the survival and growth of disseminated tumor cells at potential metastatic sites. Tumor cells send signals to stroma cells and stimulate them to produce factors that in turn create favorable conditions for tumor cell metastasis. Activated fibroblasts constitute an important component of the tumor-associated stroma. We have previously shown that
S100A4
protein produced by stromal fibroblasts in the primary tumor stimulates metastasis formation. Here we show that activated fibroblasts also stimulate the formation of
metastases
independently of
S100A4
expression during organ colonization. To identify genes that could potentially interfere with fibroblast-driven metastasis, we used gene expression profiling of
S100A4
-deficient fibroblasts treated with and without tumor cell-conditioned media. Five differentially expressed genes encoding cell surface and secreted proteins with potential metastasis-modulating activity were selected. Expression of lymphocyte antigen 6 complex (Ly6c) and matrix metalloproteinase 3 (Mmp3) was upregulated in fibroblasts in response to tumor-conditioned medium, whereas expression of cadherin-16 (Cdh16), Ccn2, and fibulin-5 (Fbln5) was downregulated. Further analysis showed that Fibulin-5 is able to suppress the metastatic colonization of lungs and liver. Additional studies suggest a mechanism in which Fibulin-5 suppresses metastasis formation by inhibiting production of matrix metalloproteinase 9 (MMP9) and reducing the invasive behavior of fibroblasts. Together our data are consistent with the notion that tumors secrete factors that downregulate expression of Fbln5 in fibroblasts at sites of metastatic colonization, in turn upregulating Mmp9 expression and stimulating metastatic organ colonization.
...
PMID:Role of fibulin-5 in metastatic organ colonization. 2145 78
Overexpression of
S100A4
, a member of the S100 family of Ca(2+)-binding proteins, is associated with a number of human pathologies, including fibrosis, inflammatory disorders, and
metastatic disease
. The identification of small molecules that disrupt
S100A4
/target interactions provides a mechanism for inhibiting
S100A4
-mediated cellular activities and their associated pathologies. Using an anisotropy assay that monitors the Ca(2+)-dependent binding of myosin-IIA to
S100A4
, NSC 95397 was identified as an inhibitor that disrupts the
S100A4
/myosin-IIA interaction and inhibits
S100A4
-mediated depolymerization of myosin-IIA filaments. Mass spectrometry demonstrated that NSC 95397 forms covalent adducts with Cys81 and Cys86, which are located in the canonical target binding cleft. Mutagenesis studies showed that covalent modification of just Cys81 is sufficient to inhibit
S100A4
function with respect to myosin-IIA binding and depolymerization. Remarkably, substitution of Cys81 with serine or alanine significantly impaired the ability of
S100A4
to promote myosin-IIA filament disassembly. As reversible covalent cysteine modifications have been observed for several S100 proteins, we propose that modification of Cys81 may provide an additional regulatory mechanism for mediating the binding of
S100A4
to myosin-IIA.
...
PMID:Cysteine 81 is critical for the interaction of S100A4 and myosin-IIA. 2174 55
The fatality of cancer is mainly bestowed to the property of otherwise benign tumor cells to become malignant and invade surrounding tissues by circumventing normal tissue barriers through a process called metastasis.
S100A4
which is a member of the S100 family of calcium-binding proteins has been shown to be able to activate and integrate pathways both intracellular and extracellular to generate a phenotypic response characteristic of cancer metastasis. A large number of studies have shown an increased expression level of
S100A4
in various types of cancers. However, its implications in cancer metastasis in terms of whether an increased expression of
S100A4
is a causal factor for metastasis or just another after effect of several other physiological and molecular changes in the body resulting from metastasis are not clear. Here we describe the emerging preclinical and clinical evidences implicating
S100A4
protein, in both its forms (intracellular and extracellular) in the process of tumorigenesis and metastasis in humans. Based on studies utilizing
S100A4
as a metastasis biomarker and molecular target for therapies such as gene therapy, we suggest that
S100A4
has emerged as a promising molecule to be tested for anticancer drugs. This review provides an insight in the (1) molecular mechanisms through which
S100A4
drives the tumorigenesis and metastasis and (2) developments made in the direction of evaluating
S100A4
as a cancer biomarker and drug target.
Cancer
Metastasis
Rev 2012 Jun
PMID:S100A4 calcium-binding protein is key player in tumor progression and metastasis: preclinical and clinical evidence. 2210 80
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