Identification, paracrine generation and possible function of human breast carcinoma myofibroblasts in culture

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Identification, paracrine generation and possible function of human breast carcinoma myofibroblasts in culture. / Rønnov-Jessen, Lone; van Deurs, Bo; Nielsen, Maja; Petersen, Ole William.

In: In Vitro Cellular & Developmental Biology - Animal, Vol. 28A, 1992, p. 273-283.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Rønnov-Jessen, L, van Deurs, B, Nielsen, M & Petersen, OW 1992, 'Identification, paracrine generation and possible function of human breast carcinoma myofibroblasts in culture', In Vitro Cellular & Developmental Biology - Animal, vol. 28A, pp. 273-283.

APA

Rønnov-Jessen, L., van Deurs, B., Nielsen, M., & Petersen, O. W. (1992). Identification, paracrine generation and possible function of human breast carcinoma myofibroblasts in culture. In Vitro Cellular & Developmental Biology - Animal, 28A, 273-283.

Vancouver

Rønnov-Jessen L, van Deurs B, Nielsen M, Petersen OW. Identification, paracrine generation and possible function of human breast carcinoma myofibroblasts in culture. In Vitro Cellular & Developmental Biology - Animal. 1992;28A:273-283.

Author

Rønnov-Jessen, Lone ; van Deurs, Bo ; Nielsen, Maja ; Petersen, Ole William. / Identification, paracrine generation and possible function of human breast carcinoma myofibroblasts in culture. In: In Vitro Cellular & Developmental Biology - Animal. 1992 ; Vol. 28A. pp. 273-283.

Bibtex

@article{7f97c970c53711dd8ca2000ea68e967b,
title = "Identification, paracrine generation and possible function of human breast carcinoma myofibroblasts in culture",
abstract = "Myofibroblasts from human breast carcinomas were identified and experimentally generated in culture, and a possible function was examined. The frequency ofα-smooth muscle actin immunoreactive cells was evaluated as a measure of myofibroblast differentiation in primary culture. Few or noα-smooth muscle actin-positive stromal cells (6.1 ± 8.4%) were identified in primary cultures from normal breast tissue (n=9). In contrast, high frequencies (68.8 ± 15.1%) were observed in primary cultures from carcinomas (n=19). The frequencies of myofibroblasts in primary cultures were almost identical to those obtained in the corresponding cryostat sections (69.1 vs. 68.8%). A possible precursor cell to the myofibroblast was looked for among typical fibroblasts and vascular smooth muscle cells. Purified blood vessels containing both fibroblasts and vascular smooth muscle cells were embedded in collagen gel and incubated with medium conditioned by breast epithelial cells. Fibroblasts rather than smooth muscle cells were recruited from the blood vessels. In medium conditioned by carcinoma cell lines or in co-cultures of carcinoma cell lines and purified fibroblasts,α-smooth muscle actin and the typical myofibroblast phenotype were induced in otherwiseα-smooth muscle actin-negative fibroblasts. The effect of myofibroblasts on cellular movement—essential to neoplastic cells—was analyzed. Spontaneous motility of tumor cells (MCF-7) was entirely suppressed in a collagen gel assay. Under these conditions tumor cell motility was selectively mediated by direct cell-to-cell interaction between tumor cells and myofibroblasts. Under chemically defined conditions, interaction was dependent on the presence of plasminogen. Anti-plasminogen, soybean trypsin inhibitor, and anti-fibronectin partly neutralized the effect of plasminogen. It is concluded that elements of myofibroblast differentiation and function may be studied in culture.",
author = "Lone R{\o}nnov-Jessen and {van Deurs}, Bo and Maja Nielsen and Petersen, {Ole William}",
year = "1992",
language = "English",
volume = "28A",
pages = "273--283",
journal = "In Vitro Cellular and Developmental Biology - Animal",
issn = "1071-2690",
publisher = "Springer",

}

RIS

TY - JOUR

T1 - Identification, paracrine generation and possible function of human breast carcinoma myofibroblasts in culture

AU - Rønnov-Jessen, Lone

AU - van Deurs, Bo

AU - Nielsen, Maja

AU - Petersen, Ole William

PY - 1992

Y1 - 1992

N2 - Myofibroblasts from human breast carcinomas were identified and experimentally generated in culture, and a possible function was examined. The frequency ofα-smooth muscle actin immunoreactive cells was evaluated as a measure of myofibroblast differentiation in primary culture. Few or noα-smooth muscle actin-positive stromal cells (6.1 ± 8.4%) were identified in primary cultures from normal breast tissue (n=9). In contrast, high frequencies (68.8 ± 15.1%) were observed in primary cultures from carcinomas (n=19). The frequencies of myofibroblasts in primary cultures were almost identical to those obtained in the corresponding cryostat sections (69.1 vs. 68.8%). A possible precursor cell to the myofibroblast was looked for among typical fibroblasts and vascular smooth muscle cells. Purified blood vessels containing both fibroblasts and vascular smooth muscle cells were embedded in collagen gel and incubated with medium conditioned by breast epithelial cells. Fibroblasts rather than smooth muscle cells were recruited from the blood vessels. In medium conditioned by carcinoma cell lines or in co-cultures of carcinoma cell lines and purified fibroblasts,α-smooth muscle actin and the typical myofibroblast phenotype were induced in otherwiseα-smooth muscle actin-negative fibroblasts. The effect of myofibroblasts on cellular movement—essential to neoplastic cells—was analyzed. Spontaneous motility of tumor cells (MCF-7) was entirely suppressed in a collagen gel assay. Under these conditions tumor cell motility was selectively mediated by direct cell-to-cell interaction between tumor cells and myofibroblasts. Under chemically defined conditions, interaction was dependent on the presence of plasminogen. Anti-plasminogen, soybean trypsin inhibitor, and anti-fibronectin partly neutralized the effect of plasminogen. It is concluded that elements of myofibroblast differentiation and function may be studied in culture.

AB - Myofibroblasts from human breast carcinomas were identified and experimentally generated in culture, and a possible function was examined. The frequency ofα-smooth muscle actin immunoreactive cells was evaluated as a measure of myofibroblast differentiation in primary culture. Few or noα-smooth muscle actin-positive stromal cells (6.1 ± 8.4%) were identified in primary cultures from normal breast tissue (n=9). In contrast, high frequencies (68.8 ± 15.1%) were observed in primary cultures from carcinomas (n=19). The frequencies of myofibroblasts in primary cultures were almost identical to those obtained in the corresponding cryostat sections (69.1 vs. 68.8%). A possible precursor cell to the myofibroblast was looked for among typical fibroblasts and vascular smooth muscle cells. Purified blood vessels containing both fibroblasts and vascular smooth muscle cells were embedded in collagen gel and incubated with medium conditioned by breast epithelial cells. Fibroblasts rather than smooth muscle cells were recruited from the blood vessels. In medium conditioned by carcinoma cell lines or in co-cultures of carcinoma cell lines and purified fibroblasts,α-smooth muscle actin and the typical myofibroblast phenotype were induced in otherwiseα-smooth muscle actin-negative fibroblasts. The effect of myofibroblasts on cellular movement—essential to neoplastic cells—was analyzed. Spontaneous motility of tumor cells (MCF-7) was entirely suppressed in a collagen gel assay. Under these conditions tumor cell motility was selectively mediated by direct cell-to-cell interaction between tumor cells and myofibroblasts. Under chemically defined conditions, interaction was dependent on the presence of plasminogen. Anti-plasminogen, soybean trypsin inhibitor, and anti-fibronectin partly neutralized the effect of plasminogen. It is concluded that elements of myofibroblast differentiation and function may be studied in culture.

M3 - Journal article

VL - 28A

SP - 273

EP - 283

JO - In Vitro Cellular and Developmental Biology - Animal

JF - In Vitro Cellular and Developmental Biology - Animal

SN - 1071-2690

ER -

ID: 8947111