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Tumor Cell-Associated Tissue Factor Supports Metastatic Potential through Both NK Cell-Dependent and -Independent Mechanisms.

Palumbo, Joseph ; Barney, Kelley A. ; Flick, Matthew J. ; [et al.]

American Society of Hematology ; 2006

In: Blood Vol. 108, No. 11 ( 2006-11-16), p. 66-66

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In: Blood, American Society of Hematology, Vol. 108, No. 11 ( 2006-11-16), p. 66-66

Abstract: Multiple lines of evidence indicate that the hemostatic system contributes to cancer dissemination. Previous studies have shown that tumor cell-associated tissue factor (TF) expression is a crucial determinant of metastatic potential. Furthermore, we have shown that tumor cell-associated TF supports metastatic potential through mechanism(s) dependent on multiple circulating hemostatic system components, including prothrombin, platelets, fibrinogen and, more recently, fXIII. At least two of these circulating hemostatic factors (platelets and fibrinogen) have been shown to support metastatic potential by impeding the clearance of recently embolized tumor cells by natural killer (NK) cells. It is reasonable to hypothesize that tumor cell-associated TF expression also supports metastatic potential by a mechanism coupled to NK cell function. Here, we used C57BL/6-derived, Ras-transformed tumor cell lines expressing wildtype murine tissue factor (TFWT), a mutant TF lacking the intracytoplasmic portion (TFΔTail), or no tissue factor (TFO) to directly examine the interplay between tumor cell-associated TF and NK cell function in determining metastatic potential. Each of these cell lines was capable of robust, comparable tumor growth in wildtype C57BL/6 mice. Loss of either platelet function or fibrinogen significantly diminished the metastatic potential of TFWT cells, but this effect was entirely abrogated by the concomitant loss of NK cells. Similar results were obtained with TFΔTail cells, indicating that the cytoplasmic portion of TF is not critical to these interactions. To determine if the increase in metastatic potential conferred by tumor cell-associated TF expression is entirely linked to NK cell function, we compared the metastatic potential and early survival of TFWT and TFO cells in mice with and without NK cells. TFOcells rarely formed any visible metastatic foci in mice with intact NK cell function, while TFWT cells were aggressively metastatic. Importantly, TF expression remained a significant determinant of metastatic potential even in mice lacking NK cells. Comparisons of the early fate of TFWT and TFO cells revealed that TF expression was not a determinant of initial tumor cell localization within the lungs. Rather, TF expression supported the sustained adherence and/or survival of tumor cells. Taken together, these data indicate that one mechanism linking tumor cell-associated TF expression to metastatic potential is coupled to circulating hemostatic factors and results in impaired NK cell-mediated clearance of recently established micrometastatic foci. However, TF expression also supports metastasis by at least one additional mechanism that is independent of natural killer cell function.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood.V108.11.66.66

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XA 33000

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XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2006

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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Tumor cell–associated tissue factor and circulating hemostatic factors cooperate to increase metastatic potential through natural killer cell–dependent and–independent mechanisms

Palumbo, Joseph S. ; Talmage, Kathryn E. ; Massari, Jessica V. ; [et al.]

American Society of Hematology ; 2007

In: Blood Vol. 110, No. 1 ( 2007-07-01), p. 133-141

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In: Blood, American Society of Hematology, Vol. 110, No. 1 ( 2007-07-01), p. 133-141

Abstract: Tumor cell–associated tissue factor (TF) is a powerful determinant of metastatic potential. TF may increase metastasis by supporting thrombin-mediated proteolysis, through intracellular signaling events mediated by the TF cytoplasmic domain, through TF/fVIIa/fXa–mediated activation of protease-activated receptors, or through a combination of these processes. To better define the relationship between tumor cell-associated TF and circulating hemostatic factors in malignancy, we generated a set of C57Bl/6-derived tumor lines genetically lacking TF, expressing wild-type murine TF, or expressing a mutant TF lacking the cytoplasmic domain. Comparison of the metastatic potential of these cells in immunocompetent mice with genetic deficits in prothrombin, platelet function, or fibrinogen revealed that TF supports metastasis through mechanisms independent of the cytoplasmic domain, but dependent on each of these distal hemostatic factors. TF was neither required for primary tumor growth nor necessary for initial localization of embolized tumor cells within the lungs. Rather, tumor cell fate studies indicated TF supports metastasis by increasing the survival of micrometastases. One mechanism linking TF to metastasis is through a fibrin(ogen)-dependent and platelet-dependent restriction in natural killer cell–mediated clearance of micrometastases. However, TF also supported the early success of micrometastases through an additional mechanism independent of natural killer cells, but coupled to circulating prothrombin.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood-2007-01-065995

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2007

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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Transition of Chronic Myeloid Leukemia to Chronic Myelomonocytic Leukemia As a Tool to Observe Development of Chronic Myelomonocytic Leukemia

Khorashad, Jamshid S ; Tantravahi, Srinivas K ; Yan, Dongqing ; [et al.]

American Society of Hematology ; 2015

In: Blood Vol. 126, No. 23 ( 2015-12-03), p. 5223-5223

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In: Blood, American Society of Hematology, Vol. 126, No. 23 ( 2015-12-03), p. 5223-5223

Abstract: Introduction. Development of abnormal Philadelphia (Ph) negative clones following treatment of chronic myeloid leukemia (CML) patients with imatinib has been observed in 3 to 9% of patients. Here we report on a 77 year old male diagnosed with CML that responded to imatinib treatment and subsequently developed chronic myelomonocytic leukemia (CMML). He achieved major cytogenetic response within 3 months but this response coincided with the emergence of monocytosis diagnosed as CMML. Five months after starting imatinib treatment the patient succumbed to CMML. We analyzed five sequential samples to determine whether a chronological order of mutations defined the emergence of CMML and to characterize the clonal evolution of the CMML population. Materials and Method. Five samples (diagnostic and four follow up samples) were available for analysis. CMML mutations were identified by whole exome sequencing (WES) in CD14+ cells following the onset of CMML, using CD3+ cells as constitutional control. Mutations were validated by Sequenom MassARRAY and Sanger sequencing and quantified by pyrosequencing. Deep WES was performed on the diagnostic sample to determine whether the mutations were present at CML diagnosis. To determine the clonal architecture of the emerging CMML, colony formation assays were performed on the diagnostic and the next two follow-up samples (Samples 1-3). More than 100 colonies per sample were plucked for DNA and RNA isolation. The DNA from these colonies were tested for the presence of the confirmed CMML mutations and the RNA was used for detection of BCR-ABL1 transcript using a Taqman real time assay. Results. Four mutations were identified by Sequenom and WES throughout the patient's time course [KRASG12R, MSLNP462H, NTRK3V443I and EZH2I669M ]. Sequenom did not identify these at diagnosis while deep WES did. Clones derived from colony formation assay revealed three distinct clones present in all samples analysed. Clone 1 had only KRASG12R, clone 2 had KRASG12R, MSLNP462H, and NTRK3V443I, and clone 3 had all four mutations. All clones containing any of these four mutations were BCR/ABL1 negative. Analysis of clonal architecture indicated that KRASG12R was acquired first and EZH2I669M last, while MSLNP462H and NTRK3V443I were acquired in between. These CMML clones increased proportionately as clinical CML metamorphosed into clinical CMML after initiation of imatinib therapy. Consistent with the colony data, pyrosequencing revealed that the ratio between the mutants remained largely stable throughout the follow up period. Conclusion. This case illustrates how targeted therapy impacts clonal competition in a heterogeneous MPN. While the CML clone was dominant in the absence of imatinib, it was quickly outcompeted by the CMML clones upon initiation of imatinib therapy. The clonal architecture analysis, in combination with in vivo kinetics data, suggest that the KRASG12R mutation alone was able to produce a CMML phenotype as clones with just KRASG12R remained at a relatively stable ratio during follow up. Unexpectedly, acquisition of additional mutations, including EZH2I669M as the last mutational event identified in this patient, did not increase clonal competitiveness, at least in the peripheral blood. These data show that clonal evolution may not invariably increase clonal fitness, suggesting that factors other than Darwinian pressures contribute to clonal diversity in myeloproliferative neoplasms. Disclosures Deininger: Gilead: Research Funding; Bristol-Myers Squibb: Consultancy, Membership on an entity's Board of Directors or advisory committees, Research Funding; Novartis: Consultancy, Membership on an entity's Board of Directors or advisory committees, Research Funding; Pfizer: Consultancy, Membership on an entity's Board of Directors or advisory committees; Incyte: Consultancy, Membership on an entity's Board of Directors or advisory committees; Ariad: Consultancy, Membership on an entity's Board of Directors or advisory committees.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood.V126.23.5223.5223

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2015

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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