Mechanisms of organ selective tumour growth by bloodborne cancer cells

Murphy, Paul V.; Alexander, Peter; Senior, P. V.; Fleming, Jason C.; Kirkham, N.; Taylor, I.

doi:10.1038/bjc.1988.3

Cited by 80 publications

(36 citation statements)

References 49 publications

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“…The site selectivity of metastases was thought by Ewing (1928) to be determined by haemodynamic considerations of the arterial blood supply, which could be the case in our observations, as the pleura is more invested with the bronchial arterial supply than the parenchyma (Spencer, 1985). However, the soil/seed hypothesis (Murphy et al, 1988), which emphasises the importance of the microenvironment around the metastatic cell, seems attractive since the metastatic mesothelial cells are preferentially localising at a site from which they originated, the pleura, where they ought to have the best microenvironment for continued growth. Fibrosarcoma cells with a propensity to metastasis to the lung (originally induced by methylcholanthrene) have been shown to grow preferentially on the pleura, although initially they are evenly distributed throughout the lung (Orr et al, 1988).…”

Section: Discussioncontrasting

confidence: 42%

Phenotypic stability and metastatic behaviour of serially xenografted rat mesotheliomas

Edwards

Hill²,

Brown³

et al. 1990

Br J Cancer

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Summary Mesotheliomas induced in rats by intrapleural injection of the fibrous zeolite, erionite, were serially transplanted in nude mice for up to ten generations. The cell phenotypes (epithelial or sarcomatous) were well maintained during passaging, as determined morphologically and by the expression of the cytokeratin markers demonstrated in normal mesothelial cells. Some of the tumours occasionally produced metastasis in nude mice. In contrast, a cloned epithelial cell mesothelioma and sarcomatous cell mesothelioma, the original cells of which were isolated in tissue culture, both produced regular multiple metastases when passaged in nude mice. These metastases were frequently found on the visceral pleura, rather than in the lung parenchyma, in nude mice. The high metastatic rate of the xenograph mesotheliomas derived by in vitro isolation of cells from mesotheliomas is atypical of the usual behaviour of xenografts of mesotheliomas.The fibrous zeolite, erionite, has been shown to be particularly carcinogenic by inhalation both in man (Baris et al., 1979) and animals (Wagner, 1983) and by intrapleural inoculation into rats (Hill et al., 1990).Previously mesotheliomas induced by crocidolite asbestos have been serially transplanted (Wagner et al., 1982) in syngeneic rats with success. However, during passaging it was found that the tumour phenotype changed with passage number, often alternating between epithelial and sarcomatous cell type within a relatively short number of passages. One explanation of this behaviour would be the existence of a stem cell population within the tumour which has the capacity to differentiate into epithelial or sarcomatous cells, possibly due to the various local stimuli (Wagner et al., 1982; Johnson et al., 1984). There is certainly no doubt that the erionite-induced mesotheliomas can have the appearance of producing histological elements, such as bone, which are more fully differentiated forms of tissue than the more simple epithelial or sarcomatous forms (Johnson et al., 1984).One way of resolving whether pluripotential stem cells really do exist in mesotheliomas is to clone the cells derived from them and to grow them in culture before injecting them into a suitable host for tumour production. If cloned mesothelioma cells will produce the same pattern of mixed cell tumours with differentiated tissue elements, such as bone, when passaged in animals, then there can be little doubt as to the existence of a pluripotential stem cell responsible for this. Previous attempts to examine the morphological pattern of the mesotheliomas induced by asbestos using in vitro as well as in vivo techniques have shown that the in vitro cell cultures did not correspond well with the morphology of the original tumours (Gormley et al., 1980). Only one cell line of the uncloned cell lines established produced a tumour resembling a typical mesothelioma in vivo, although tumours were produced from the cell lines established. The selection of malignant elements using soft agar cloning methods (Brown et ...

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Section: Discussioncontrasting

confidence: 42%

Phenotypic stability and metastatic behaviour of serially xenografted rat mesotheliomas

Edwards

Hill²,

Brown³

et al. 1990

Br J Cancer

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“…To express a 'soil effect' numerically as a probability that a single cell will cause a deposit requires that following intracardiac injection, the cells are distributed singly within the tissues. This was shown to be the case for normal tissue by Murphy et al (1986;1988) who found that following intracardiac injection of single cell suspensions, the cells distributed in the organs singly and randomly. Individual cells were far apart and there was no possibility that the tumour formed as the concerted action of several cancer cells.…”

Section: Resultsmentioning

confidence: 85%

“…In the present study, enhancement is largely over when the trauma precedes the tumour injection by 14 days. It is noteworthy that transecting the bowel after the cells have reached the tissue does not cause detectable enhancement of tumour growth, even though tumour cells are known to remain viable for up to 24 h after trapping in tissues (Murphy et al, 1988). Enhanced tumour growth at a healing colonic anastomosis is not restricted to one tumour (MC28) as the OES5 carcinoma also grows at colonic anastomoses.…”

Section: Resultsmentioning

confidence: 98%

“…This effect is reproducible with different tumours and appears to be a feature of the behaviour of the recipient tissue rather than the tumour (Murphy et al, 1986). The resistance of the colon to growth of these experimental tumours is paralleled by the clinical observation that the large bowel is a rare site for bloodborne secondary deposits from primary malignancies elsewhere in the body.Trauma to a tissue is known to enhance the ability of that tissue to support growth of tumour either from locally implanted cells (Jones & Rous, 1914), or from cells that reached the site of injury via the circulation (Robinson & Hoppe, 1962;Alexander & Altemeier, 1964;Fisher & Fisher, 1965).Following intracardiac injection of the two tumours used in this investigation, Murphy et al (1988) found that growth occurred much more readily in healing laparotomy wounds than in the surrounding normal skeletal muscle. There have been no studies to investigate the effect of surgical trauma on the ability of the large bowel to support growth of tumour cells delivered by the circulation.…”

mentioning

confidence: 82%

“…Following intracardiac injection of the two tumours used in this investigation, Murphy et al (1988) found that growth occurred much more readily in healing laparotomy wounds than in the surrounding normal skeletal muscle. There have been no studies to investigate the effect of surgical trauma on the ability of the large bowel to support growth of tumour cells delivered by the circulation.…”

mentioning

confidence: 98%

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Preferential growth of bloodborne cancer cells in colonic anastomoses

Skipper

Jeffrey²,

Cooper³

et al. 1988

Br J Cancer

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Summary Intracardiac injection, in hooded Lister rats, of syngeneic MC28 sarcoma cells never induced tumour growth in normal bowel. Tumour growth occurred at the site of a colonic anastomosis if surgery preceded tumour injection but not if it followed tumour injection, even by as little as 1h. Maximum enhancement of tumour growth occurred when the healing process had progressed between 2 and 8 days, with a peak at 5 to 7 days. The enhancing effect was largely over by the time the healing had progressed 14 days. The syngeneic OES5 breast carcinoma also grew at colonic anastomoses when surgery preceded tumour injection by 5 days, but not in normal colon. The MC28 sarcoma also grew at ileal anastomoses but not in the normal ileum after intracardiac injection. By injecting radiolabelled sarcoma cells, an estimate of the probability of a single bloodborne tumour cell lodging at a colonic anastomosis and leading to a tumour deposit was calculated to be of the order of 1:43 whereas the probability of the cell lodging in normal colon and causing a deposit is < 1:4 x 104.When cells from the transplantable syngeneic sarcoma and carcinoma used in this study are injected into the left ventricle of a rat, they distribute to all organs in proportion to the fraction of the cardiac output they receive (Murphy et al., 1986). However, some organs (e.g., adrenals and bone), commonly develop deposits, other organs (e.g., skin and lungs), occasionally develop deposits, whilst others (e.g., spleen and intestines), never develop deposits. This effect is reproducible with different tumours and appears to be a feature of the behaviour of the recipient tissue rather than the tumour (Murphy et al., 1986). The resistance of the colon to growth of these experimental tumours is paralleled by the clinical observation that the large bowel is a rare site for bloodborne secondary deposits from primary malignancies elsewhere in the body.Trauma to a tissue is known to enhance the ability of that tissue to support growth of tumour either from locally implanted cells (Jones & Rous, 1914), or from cells that reached the site of injury via the circulation (Robinson & Hoppe, 1962;Alexander & Altemeier, 1964;Fisher & Fisher, 1965).Following intracardiac injection of the two tumours used in this investigation, Murphy et al. (1988) found that growth occurred much more readily in healing laparotomy wounds than in the surrounding normal skeletal muscle. There have been no studies to investigate the effect of surgical trauma on the ability of the large bowel to support growth of tumour cells delivered by the circulation. The aims of this investigation were firstly to determine whether surgical trauma to the colon would enhance its ability to support growth of bloodborne cancer cells; and secondly, if enhancement did take place, to determine at which stage in the healing process the enhancement is at a maximum. experiments, and the OES5 breast carcinoma. MC28 is a methylcholanthrene-induced sarcoma and OES5 is an oestrogen-induced breast carcinoma (Senior et...

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