Immunogenic Neoplastic Clones Derived in Vitro from an Originally Non-immunogenic BALB/c Fibrosarcoma

A non-immunogenic fibrosarcoma (SDC2), obtained by spontaneous neoplastic transformation of BALB/c fibroblasts cultured within a diffusion chamber kept in the peritoneal cavity of (BALB/c × C3Hf)F1 mice, was maintained in tissue culture for 10 passages. Three different clones were then derived from the in vitro neoplastic population. Each of the clones, the original in vivo tumor, and its in vitro line taken at the 10th passage (before cloning) were tested for the presence of individual tumor-associated transplantation antigens (TATA) by in vivo growth and excision assay. Contrary to the original SDC2 neoplasm, its in vitro line and 2 out of 3 clones (CL1-SDC2 and CL3-SDC2) were immunogenic, whereas the other clone (CL6-SDC2) displayed no immunogenicity. In addition, CL1-SDC2 and CL3-SDC2 were able to induce a reciprocal cross-protection in in vivo transplantation tests, thus showing common TATA; no cross-reactions were found between these clones and 2 other chemically-induced immunogenic sarcomas. The results suggest an antigenic heterogeneity in the original population of the nonimmunogenic SDC2 sarcoma, with the presence of antigenic but sub-immunogenic neoplastic cells.

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Inducibility of neoplastic transformation by Fujinami sarcoma virus in an in vitro chick embryo model for osteosarcoma: (I) Effect of differentiation and (II) investigation for in vivo growth potential in athymic mice

Bone ◽

10.1016/8756-3282(91)90024-d ◽

1991 ◽

Vol 12 (5) ◽

pp. 365-375 ◽

Cited By ~ 1

Author(s):

A. Cogliano ◽

C. Birek ◽

H.C. Tenenbaum

Keyword(s):

Chick Embryo ◽

Neoplastic Transformation ◽

Growth Potential ◽

Athymic Mice ◽

Sarcoma Virus ◽

In Vivo Growth ◽

Chick Embryo Model

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The Syrian Hamster Embryo (SHE) Cell Transformation System: A Biologically Relevant In Vitro Model− with Carcinogen Predicting Capabilities− of In Vivo Multistage Neoplastic Transformation

Critical Reviews™ in Oncogenesis ◽

10.1615/critrevoncog.v6.i3-6.30 ◽

1995 ◽

Vol 6 (3-6) ◽

pp. 251-260 ◽

Cited By ~ 13

Author(s):

Robert J. Isfort ◽

Robert A. LeBoeuf

Keyword(s):

Syrian Hamster ◽

In Vitro Model ◽

Cell Transformation ◽

Neoplastic Transformation ◽

Transformation System ◽

Biologically Relevant ◽

System A ◽

Vitro Model

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Regeneration linked miRNA modify tumor phenotype and can enforce multi-lineage growth arrest in vivo

Scientific Reports ◽

10.1038/s41598-021-90009-9 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Siamak Salehi ◽

Oliver D. Tavabie ◽

Augusto Villanueva ◽

Julie Watson ◽

David Darling ◽

...

Keyword(s):

Cell Proliferation ◽

Growth Inhibition ◽

Tumor Aggressiveness ◽

Novel Treatment ◽

Tumor Phenotype ◽

Aggressive Tumor ◽

In Vivo Growth ◽

Regulation Of Regeneration

AbstractRegulated cell proliferation is an effector mechanism of regeneration, whilst dysregulated cell proliferation is a feature of cancer. We have previously identified microRNA (miRNA) that regulate successful and failed human liver regeneration. We hypothesized that these regulators may directly modify tumor behavior. Here we show that inhibition of miRNAs -503 and -23a, alone or in combination, enhances tumor proliferation in hepatocyte and non-hepatocyte derived cancers in vitro, driving more aggressive tumor behavior in vivo. Inhibition of miRNA-152 caused induction of DNMT1, site-specific methylation with associated changes in gene expression and in vitro and in vivo growth inhibition. Enforced changes in expression of two miRNA recapitulating changes observed in failed regeneration led to complete growth inhibition of multi-lineage cancers in vivo. Our results indicate that regulation of regeneration and tumor aggressiveness are concordant and that miRNA-based inhibitors of regeneration may constitute a novel treatment strategy for human cancers.

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Asian ginseng extract inhibits in vitro and in vivo growth of mouse lewis lung carcinoma via modulation of ERK-p53 and NF-κB signaling

Journal of Cellular Biochemistry ◽

10.1002/jcb.22778 ◽

2010 ◽

Vol 111 (4) ◽

pp. 899-910 ◽

Cited By ~ 38

Author(s):

Vincent Kam Wai Wong ◽

Simon Shiu Fai Cheung ◽

Ting Li ◽

Zhi-Hong Jiang ◽

Jing-Rong Wang ◽

...

Keyword(s):

Lung Carcinoma ◽

Lewis Lung Carcinoma ◽

Lewis Lung ◽

Ginseng Extract ◽

In Vivo Growth

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Neoplastic conversion of preneoplastic Syrian hamster cells: rate estimation by fluctuation analysis

Molecular and Cellular Biology ◽

10.1128/mcb.3.5.931-945.1983 ◽

1983 ◽

Vol 3 (5) ◽

pp. 931-945

Author(s):

B D Crawford ◽

J C Barrett ◽

P O Ts'o

Keyword(s):

Syrian Hamster ◽

Neoplastic Transformation ◽

Solid Substrate ◽

Established Cell Line ◽

Fluctuation Analysis ◽

Neoplastic Progression ◽

Early Passage

Analysis of the role of gene mutations in the multistep process of neoplastic transformation requires that the discrete steps in carcinogenesis first be dissected. Toward this end, we have isolated and characterized preneoplastic Syrian hamster cells which exhibit in vitro a trait highly correlated with neoplastic conversion in vivo. Previous findings (J. C. Barrett, Cancer Res. 40:91-94, 1980) indicate that spontaneous neoplastic transformation of Syrian hamster cells occurs in at least two steps. An intermediate stage, characterized by an aneuploid established cell line which has a propensity to become neoplastic spontaneously upon further growth in vitro, has been described. These preneoplastic cells differ from diploid early-passage Syrian hamster cells in becoming capable of anchorage-independent growth in semisolid agar, as well as becoming neoplastic in vivo when attached to a solid substrate. Evidence presented here demonstrates that anchorage-independent conversion in vitro is a reliable marker for neoplastic conversion in this cell system. Fluctuation analyses, patterned after those described by Luria and Delbruck for microbial genetics, demonstrate that anchorage-independent variants are generated randomly from clonally derived preneoplastic cells at the rate of 10(-8) to 10(-7) variants per cell per generation. These results establish a multistep stochastic process for transformation in vitro and indicate that conversion to anchorage independence may be necessary for Syrian hamster cells to become tumorigenic. The possible role of gene mutation in this step during neoplastic progression is discussed.

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The tumor dormant state. Comparison of L5178Y cells used to establish dormancy with those that emerge after its termination.

Journal of Experimental Medicine ◽

10.1084/jem.149.3.745 ◽

1979 ◽

Vol 149 (3) ◽

pp. 745-757 ◽

Cited By ~ 31

Author(s):

K J Weinhold ◽

D A Miller ◽

E F Wheelock

Keyword(s):

Tumor Cells ◽

Antigen Expression ◽

Cell Subpopulation ◽

Effector Cells ◽

Dormant State ◽

Quantitative Absorption ◽

Tumor Outgrowth ◽

In Vivo Growth

The tumor dormant state established in L5178Y immunized and challenged mice is characterized by a prolonged period of clinical normalcy followed by rapid tumor outgrowth. The tumor cells which emerged after termination of the tumor dormant state had abnormal marker chromosomes identical to those in the L5178Y cells used in the original challenge inoculum, indicating that the emergent tumor cells were progeny of the challenge inoculum. Original and emergent L5178Y cells had equivalent in vivo growth rates, when inoculated into normal DBA/2 mice. The emergent L5178Y cells were less susceptible than original cells to in vitro lysis by tumor dormant PC. Original and emergent L5178Y cells expressed common tumor-associated target antigens for cytolytic effector cells. Both modulation and masking of these target antigens were ruled out as mechanisms for decreased susceptibility to cell-mediated cytolysis. Immunofluorescence revealed heterogeneity in tumor-associated antigen expression within both original and emergent cell populations, with a decreased intensity of staining in the emergent population. Both populations were equally susceptible to lysis by alloimmune cells, alloantiserum, and anti-Thy 1.2 serum, but emergent cells were less susceptible to lysis by serum directed against L5178Y TAA. Quantitative absorption revealed that the emergent L5178Y cells expressed eightfold less serologically detectable TAA than the original cells. These findings indicate that the host immune response developing during establishment of the tumor dormant state selects a stable tumor cell subpopulation which expresses decreased amounts of surface tumor-associated target antigens.

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In Vitro and In Vivo Fitness of Respiratory Syncytial Virus Monoclonal Antibody Escape Mutants

Journal of Virology ◽

10.1128/jvi.01387-06 ◽

2006 ◽

Vol 80 (23) ◽

pp. 11651-11657 ◽

Cited By ~ 20

Author(s):

Xiaodong Zhao ◽

Enmei Liu ◽

Fu-Ping Chen ◽

Wayne M. Sullender

Keyword(s):

Cell Culture ◽

Monoclonal Antibody ◽

Respiratory Syncytial Virus ◽

Viral Population ◽

Nucleotide Substitutions ◽

Cotton Rats ◽

Syncytial Virus ◽

In Vivo Growth

ABSTRACT Respiratory syncytial virus (RSV) is the only infectious disease for which a monoclonal antibody (MAb) is used in humans. Palivizumab (PZ) is a humanized murine MAb to the F protein of RSV. PZ-resistant viruses appear after in vitro and in vivo growth of RSV in the presence of PZ. Fitness for replication could be a determinant of the likelihood of dissemination of resistant viruses. We assessed the fitness of two PZ-resistant viruses (F212 and MP4). F212 grew less well in cell culture than the parent A2 virus and was predicted to be less fit than A2. Equal amounts of F212 and A2 were mixed and passaged in cell culture. F212 disappeared from the viral population, indicating it was less fit than the A2 virus. The MP4 virus grew as well as A2 in culture and in cotton rats. A2/MP4 virus input ratios of 1:1, 10:1, 100:1, and 1,000:1 were compared in competitive replication. For all input ratios except 1,000:1, the MP4 virus became dominant, supplanting the A2 virus. The MP4 virus also dominated the A2 virus during growth in cotton rats. Thus, the mutant MP4 virus was more fit than A2 virus in both in vitro and in vivo competitive replication. Whether this fitness difference was due to the identified nucleotide substitutions in the F gene or to mutations elsewhere in the genome is unknown. Understanding the mechanisms by which mutant virus fitness increased or decreased could prove useful for consideration in attenuated vaccine design efforts.

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