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Target Concepts:
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Query: UMLS:C0677930 (
primary tumor
)
20,210
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The antimetastatic activity of the prostacyclin analog Iloprost has been examined in mice bearing Lewis lung carcinoma. An inhibition of lung colony formation is observed when 100 or 200 micrograms/kg Iloprost are administered i.v. 1 h before i.v. injection of tumor cells, which is dependent on the size of tumor inoculum. The effects of 200 micrograms/kg Iloprost persist for 24 h, and are of the same magnitude as those obtained with 10 mg/kg prostacyclin, which last only for 30 min. When treatment with Iloprost is followed by surgical removal of
primary tumor
, spontaneous metastasis formation is reduced, and the survival time of the treated animals is significantly increased over controls treated with surgery only. The antimetastatic effects of Iloprost appear dissociated from drug's effects on the hemostatic system of the host as indicated by the clot retraction assay, performed after in vivo treatment, using
ADP
or tumor cells as platelet aggregating agents. Iloprost thus appears to reduce spontaneous metastasis formation and intraoperative tumor cell dissemination, with pharmacological properties more favourable to therapeutic use than those of prostacyclin.
...
PMID:Antimetastatic action of the prostacyclin analog iloprost in the mouse. 247 73
We studied the effects on platelet function of cells isolated from freshly dissociated human tumor tissues (11 breast carcinomas, 9 colon carcinomas and 1 lymph node metastasis from melanoma) obtained at surgery as compared with cultured human tumor cells: namely, human melanoma 1402 cell line derived from a
primary tumor
and two lines derived from lymph node metastases (ME 7110/2 and Me 665/1) as well as a human hepatoma cell line (Hep G2). The three melanoma cell lines activated platelets by producing
ADP
, as evidenced by the inhibitory effect of apyrase and by the direct measurement of the agonist in the supernatants of tumor cell suspensions; this production was much greater by the cells derived from metastases than by the cells derived from the
primary tumor
. On the other hand, aggregation induced by Hep G2 hepatoma cells was unaffected by apyrase and was inhibited by hirudin or concanavalin A, suggesting that the cells aggregate platelets by producing thrombin, probably through tissue factor activity of the cells themselves. Cells isolated from 16 of the 21 human tumor tissues possessed a potent platelet-aggregating effect, which was not inhibited by apyrase, hirudin or concanavalin A, but was virtually abolished by the cysteine protease inhibitors iodoacetic acid or p-hydroxymercuri-phenylsulfonate. Collectively, our data demonstrate that cells isolated from freshly dissociated tumor tissues activate platelets through tumor-associated cysteine proteinases rather than by the
ADP
- or thrombin-dependent mechanisms characteristic of cultured human tumor cell lines.
...
PMID:Mechanisms of platelet activation by cultured human cancer cells and cells freshly isolated from tumor tissues. 276 27
The role of platelets in cancer metastasis was studied by investigating the effects of the antiplatelet agents ticlopidine, diltiazem, dipyridamole and trapidil on artificial and spontaneous pulmonary metastases in mice. These agents were tested at their optimal inhibitory doses on
adenosine diphosphate
-induced platelet aggregation; namely, 100 mg/kg for ticlopidine, 2 mg/kg for diltiazem, 180 mg/kg for trapidil and 60 mg/kg for dipyridamole. At these doses, trapidil caused moderate inhibition of thrombin-induced platelet aggregation in mice, but the other agents had only slight effects. Artificial pulmonary metastasis was produced by inoculation of Lewis lung carcinoma (LLC) or B16 melanoma (B16) cells into C57BL/6 mice. For induction of spontaneous pulmonary metastases, these tumor cells were implanted subcutaneously into the footpads of mice. The resulting primary tumors of LLC and B16 were removed 9-10 and 17 days later, respectively. Artificial pulmonary metastases were inhibited significantly by all the antiplatelet agents tested. Spontaneous pulmonary metastases were markedly reduced only when these agents were given after removal of the
primary tumor
. The role of platelets is discussed with respect to thrombus formation in the lodgement of tumor cells and the participation of platelet-derived growth factor in the growth of metastatic foci.
...
PMID:Effects of antiplatelet agents on pulmonary metastases. 672 29
B-cell chronic lymphocytic leukemia (B-CLL) remains an incurable disease that requires innovative new approaches to improve therapeutic outcome. Honokiol is a natural product known to possess potent antineoplastic and antiangiogenic properties. We examined whether honokiol can overcome apoptotic resistance in
primary tumor
cells derived from B-CLL patients. Honokiol induced caspase-dependent cell death in all of the B-CLL cells examined and was more toxic toward B-CLL cells than to normal mononuclear cells, suggesting greater susceptibility of the malignant cells. Honokiol-induced apoptosis was characterized by the activation of caspase-3, -8, and -9 and cleavage of poly(
adenosine diphosphate
-ribose) polymerase (PARP). Exposure of B-CLL cells to honokiol resulted in up-regulation of Bcl2-associated protein (Bax) and down-regulation of the expression of the key survival protein myeloid-cell leukemia sequence 1 (Mcl-1), which is associated with response to treatment in B-CLL patients. In addition, B-CLL cells pretreated with interleukin-4 (IL-4), a cytokine known to support B-CLL survival, underwent apoptosis when subsequently incubated with honokiol, indicating that honokiol could also overcome the prosurvival effects of IL-4. Furthermore, honokiol enhanced cytotoxicity induced by fludarabine, cladribine, or chlorambucil. These data indicate that honokiol is a potent inducer of apoptosis in B-CLL cells and should be examined for further clinical application either as a single agent or in combination with other anticancer agents.
...
PMID:The natural product honokiol induces caspase-dependent apoptosis in B-cell chronic lymphocytic leukemia (B-CLL) cells. 1580 33
NEDD9 is an established marker of invasive and metastatic cancers. NEDD9 downregulation has been shown to dramatically reduce cell invasion and metastasis in multiple tumors. The mechanisms by which NEDD9 regulates invasion are largely unknown. In the current study, we have found that NEDD9 is required for matrix metalloproteinase 14 (MMP14) enzymatic recovery/recycling through the late endosomes to enable disengagement of tissue inhibitor of matrix metalloproteinase 2 (TIMP2) and tumor invasion. Depletion of NEDD9 decreases targeting of the MMP14/TIMP2 complex to late endosomes and increases trafficking of MMP14 from early/sorting endosomes back to the surface in a small GTPase
ADP
ribosylation factor-6 (Arf6)-dependent manner. NEDD9 directly binds to Arf6-GTPase-activating protein, ARAP3 and Arf6-effector GGA3, thereby facilitating the Arf6 inactivation required for MMP14/TIMP2 targeting to late endosomes. Re-expression of NEDD9 or a decrease in Arf6 activity is sufficient to restore MMP14 activity and the invasive properties of tumor cells. Importantly, NEDD9 inhibition by Vivo-Morpholinos, an antisense therapy, decreases
primary tumor
growth and metastasis in xenograft models of breast cancer. Collectively, our findings uncover a novel mechanism to control tumor-cell dissemination through NEDD9/Arf6-dependent regulation of MMP14/TIMP2 trafficking, and validate NEDD9 as a clinically relevant therapeutic target to treat metastatic cancer.
...
PMID:NEDD9/Arf6-dependent endocytic trafficking of matrix metalloproteinase 14: a novel mechanism for blocking mesenchymal cell invasion and metastasis of breast cancer. 2524 93
The ability of
primary tumor
cells to invade into adjacent tissues, followed by the formation of local or distant metastasis, is a lethal hallmark of cancer. Recently, locomoting clusters of tumor cells have been identified in numerous cancers and associated with increased invasiveness and metastatic potential. However, how the collective behaviors of cancer cells are coordinated and their contribution to cancer invasion remain unclear. Here we show that collective invasion of breast cancer cells is regulated by the energetic statuses of leader and follower cells. Using a combination of in vitro spheroid and ex vivo organoid invasion models, we found that cancer cells dynamically rearrange leader and follower positions during collective invasion. Cancer cells invade cooperatively in denser collagen matrices by accelerating leader-follower switching thus decreasing leader cell lifetime. Leader cells exhibit higher glucose uptake than follower cells. Moreover, their energy levels, as revealed by the intracellular ATP/
ADP
ratio, must exceed a threshold to invade. Forward invasion of the leader cell gradually depletes its available energy, eventually leading to leader-follower transition. Our computational model based on intracellular energy homeostasis successfully recapitulated the dependence of leader cell lifetime on collagen density. Experiments further supported model predictions that decreasing the cellular energy level by glucose starvation decreases leader cell lifetime whereas increasing the cellular energy level by AMP-activated kinase (AMPK) activation does the opposite. These findings highlight coordinated invasion and its metabolic regulation as potential therapeutic targets of cancer.
...
PMID:Energetic regulation of coordinated leader-follower dynamics during collective invasion of breast cancer cells. 3092 13
A substantial obstacle to the success of adoptive T cell-based cancer immunotherapy is the sub-optimal affinity of T-cell receptors (TCRs) for most tumor antigens. Genetically engineered TCRs that have enhanced affinity for specific tumor peptide-MHC complexes may overcome this barrier. However, this enhancement risks increasing weak TCR cross-reactivity to other antigens expressed by normal tissues, potentially leading to clinical toxicities. To reduce the risk of such adverse clinical outcomes, we have developed an extensive preclinical testing strategy, involving potency testing using 2D and 3D human cell cultures and
primary tumor
material, and safety testing using human primary cell and cell-line cross-reactivity screening and molecular analysis to predict peptides recognized by the affinity-enhanced TCR. Here, we describe this strategy using a developmental T-cell therapy,
ADP
-A2M4, which recognizes the HLA-A2-restricted MAGE-A4 peptide GVYDGREHTV.
ADP
-A2M4 demonstrated potent anti-tumor activity in the absence of major off-target cross-reactivity against a range of human primary cells and cell lines. Identification and characterization of peptides recognized by the affinity-enhanced TCR also revealed no cross-reactivity. These studies demonstrated that this TCR is highly potent and without major safety concerns, and as a result, this TCR is now being investigated in two clinical trials (NCT03132922, NCT04044768).
...
PMID:Preclinical evaluation of an affinity-enhanced MAGE-A4-specific T-cell receptor for adoptive T-cell therapy. 3200 90
