Analysis of mechanisms underlying BRMS1 suppression of metastasis

R. S. Samant; M. J. Seraj; M. M. Saunders; T. S. Sakamaki; L. A. Shevde; J. F. Harms; T. O. Leonard; S. F. Goldberg; L. Budgeon; W. J. Meehan; C. R. Winter; N. D. Christensen; M. F. Verderame; H. J. Donahue; D. R. Welch

doi:10.1023/A:1013124725690

Analysis of mechanisms underlying BRMS1 suppression of metastasis

R. S. Samant, M. J. Seraj, M. M. Saunders, T. S. Sakamaki, L. A. Shevde, J. F. Harms, T. O. Leonard, S. F. Goldberg, L. Budgeon, W. J. Meehan, C. R. Winter, N. D. Christensen, M. F. Verderame, H. J. Donahue, D. R. Welch

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Abstract

Introduction of normal, neomycin-tagged human chromosome 11 (neo11) reduces the metastatic capacity of MDA-MB-435 human breast carcinoma cells by 70-90% without affecting tumorigenicity. Differential display comparing MDA-MB-435 and neo11/435 led to the discovery of a human breast carcinoma metastasis suppressor gene, BRMS1, which maps to chromosome 11q13.1-q13.2. Stable transfectants of MDA-MB-435 and MDA-MB-231 breast carcinoma cells with BRMS1 cDNA still form progressively growing, locally invasive tumors when injected in mammary fat pads of athymic mice but exhibit significantly lower metastatic potential (50-90% inhibition) to lungs and regional lymph nodes. To begin elucidating the mechanism(s) of action, we measured the ability of BRMS1 to perturb individual steps of the metastatic cascade modeled in vitro. Consistent differences were not observed for adhesion to extracellular matrix components (laminin, fibronectin, type IV collagen, type I collagen, Matrigel); growth rates in vitro or in vivo; expression of matrix metalloproteinases, heparanase, or invasion. Likewise, BRMS1 expression did not up regulate expression of other metastasis suppressors, such as NM23, Kail, KiSS1 or E-cadherin. Motility of BRMS1 transfectants was modestly inhibited (30-60%) compared to parental and vector-only transfectants. Ability to grow in soft agar was also decreased in MDA-MB-435 cells by 80-89%, but the decrease for MDA-MB-231 was less (13-15% reduction). Also, transfection and re-expression of BRMS1 restored the ability of human breast carcinoma cells to form functional homotypic gap junctions. Collectively, these data suggest that BRMS1 suppresses metastasis of human breast carcinoma by complex, atypical mechanisms.

Original language	English (US)
Pages (from-to)	683-693
Number of pages	11
Journal	Clinical and Experimental Metastasis
Volume	18
Issue number	8
DOIs	https://doi.org/10.1023/A:1013124725690
State	Published - 2001

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Oncology
Cancer Research

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10.1023/A:1013124725690

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Samant, R. S., Seraj, M. J., Saunders, M. M., Sakamaki, T. S., Shevde, L. A., Harms, J. F., Leonard, T. O., Goldberg, S. F., Budgeon, L., Meehan, W. J., Winter, C. R., Christensen, N. D., Verderame, M. F., Donahue, H. J., & Welch, D. R. (2001). Analysis of mechanisms underlying BRMS1 suppression of metastasis. Clinical and Experimental Metastasis, 18(8), 683-693. https://doi.org/10.1023/A:1013124725690

@article{5b3e2aba699b46a49ecea357ef8c64bd,

title = "Analysis of mechanisms underlying BRMS1 suppression of metastasis",

abstract = "Introduction of normal, neomycin-tagged human chromosome 11 (neo11) reduces the metastatic capacity of MDA-MB-435 human breast carcinoma cells by 70-90% without affecting tumorigenicity. Differential display comparing MDA-MB-435 and neo11/435 led to the discovery of a human breast carcinoma metastasis suppressor gene, BRMS1, which maps to chromosome 11q13.1-q13.2. Stable transfectants of MDA-MB-435 and MDA-MB-231 breast carcinoma cells with BRMS1 cDNA still form progressively growing, locally invasive tumors when injected in mammary fat pads of athymic mice but exhibit significantly lower metastatic potential (50-90% inhibition) to lungs and regional lymph nodes. To begin elucidating the mechanism(s) of action, we measured the ability of BRMS1 to perturb individual steps of the metastatic cascade modeled in vitro. Consistent differences were not observed for adhesion to extracellular matrix components (laminin, fibronectin, type IV collagen, type I collagen, Matrigel); growth rates in vitro or in vivo; expression of matrix metalloproteinases, heparanase, or invasion. Likewise, BRMS1 expression did not up regulate expression of other metastasis suppressors, such as NM23, Kail, KiSS1 or E-cadherin. Motility of BRMS1 transfectants was modestly inhibited (30-60%) compared to parental and vector-only transfectants. Ability to grow in soft agar was also decreased in MDA-MB-435 cells by 80-89%, but the decrease for MDA-MB-231 was less (13-15% reduction). Also, transfection and re-expression of BRMS1 restored the ability of human breast carcinoma cells to form functional homotypic gap junctions. Collectively, these data suggest that BRMS1 suppresses metastasis of human breast carcinoma by complex, atypical mechanisms.",

author = "Samant, {R. S.} and Seraj, {M. J.} and Saunders, {M. M.} and Sakamaki, {T. S.} and Shevde, {L. A.} and Harms, {J. F.} and Leonard, {T. O.} and Goldberg, {S. F.} and L. Budgeon and Meehan, {W. J.} and Winter, {C. R.} and Christensen, {N. D.} and Verderame, {M. F.} and Donahue, {H. J.} and Welch, {D. R.}",

note = "Funding Information: This research was supported by grants CA 87728 and CA62168 from the National Institutes of Health to DRW. Support was also provided by the US Army Medical Research and Materiel Command DAMD-96-1-6152 (to DRW) and BC995879 (to HJD), the National Foundation for Cancer Research and the Jake Gittlen Memorial Golf Tournament. Dr R. Samant is supported by a postdoctoral fellowship from the US Army Medical Research and Materiel Command DAMD17-01-1-0362. Dr L. Shevde is supported by a postdoctoral fellowship from the Susan G. Komen Breast Cancer Research Foundation (PDF#2000-218). We are indebted to Drs Janet Price (MD Anderson Cancer Center) for providing the MDA-MB-435 and MDA-MB-231 cells; Satvir Tevethia (Penn State College of Medicine) for the anti-901 antibody; Fred Miller (Karmanos Cancer Center) for the MCF10A and MCF7 cells; Lisa Wei (Genvec Corporation) for the T47Dco cells; Stephen Ethier (U. Michigan Cancer Center) for the SUM cell lines; and Robert Clarke and Sandra McLeskey (Lombardi Cancer Center) for the LCC15 and MKL-4 cells.",

year = "2001",

doi = "10.1023/A:1013124725690",

language = "English (US)",

volume = "18",

pages = "683--693",

journal = "Clinical and Experimental Metastasis",

issn = "0262-0898",

publisher = "Springer Science and Business Media B.V.",

number = "8",

}

Samant, RS, Seraj, MJ, Saunders, MM, Sakamaki, TS, Shevde, LA, Harms, JF, Leonard, TO, Goldberg, SF, Budgeon, L, Meehan, WJ, Winter, CR, Christensen, ND , Verderame, MF, Donahue, HJ & Welch, DR 2001, 'Analysis of mechanisms underlying BRMS1 suppression of metastasis', Clinical and Experimental Metastasis, vol. 18, no. 8, pp. 683-693. https://doi.org/10.1023/A:1013124725690

TY - JOUR

T1 - Analysis of mechanisms underlying BRMS1 suppression of metastasis

AU - Samant, R. S.

AU - Seraj, M. J.

AU - Saunders, M. M.

AU - Sakamaki, T. S.

AU - Shevde, L. A.

AU - Harms, J. F.

AU - Leonard, T. O.

AU - Goldberg, S. F.

AU - Budgeon, L.

AU - Meehan, W. J.

AU - Winter, C. R.

AU - Christensen, N. D.

AU - Verderame, M. F.

AU - Donahue, H. J.

AU - Welch, D. R.

N1 - Funding Information: This research was supported by grants CA 87728 and CA62168 from the National Institutes of Health to DRW. Support was also provided by the US Army Medical Research and Materiel Command DAMD-96-1-6152 (to DRW) and BC995879 (to HJD), the National Foundation for Cancer Research and the Jake Gittlen Memorial Golf Tournament. Dr R. Samant is supported by a postdoctoral fellowship from the US Army Medical Research and Materiel Command DAMD17-01-1-0362. Dr L. Shevde is supported by a postdoctoral fellowship from the Susan G. Komen Breast Cancer Research Foundation (PDF#2000-218). We are indebted to Drs Janet Price (MD Anderson Cancer Center) for providing the MDA-MB-435 and MDA-MB-231 cells; Satvir Tevethia (Penn State College of Medicine) for the anti-901 antibody; Fred Miller (Karmanos Cancer Center) for the MCF10A and MCF7 cells; Lisa Wei (Genvec Corporation) for the T47Dco cells; Stephen Ethier (U. Michigan Cancer Center) for the SUM cell lines; and Robert Clarke and Sandra McLeskey (Lombardi Cancer Center) for the LCC15 and MKL-4 cells.

PY - 2001

Y1 - 2001

N2 - Introduction of normal, neomycin-tagged human chromosome 11 (neo11) reduces the metastatic capacity of MDA-MB-435 human breast carcinoma cells by 70-90% without affecting tumorigenicity. Differential display comparing MDA-MB-435 and neo11/435 led to the discovery of a human breast carcinoma metastasis suppressor gene, BRMS1, which maps to chromosome 11q13.1-q13.2. Stable transfectants of MDA-MB-435 and MDA-MB-231 breast carcinoma cells with BRMS1 cDNA still form progressively growing, locally invasive tumors when injected in mammary fat pads of athymic mice but exhibit significantly lower metastatic potential (50-90% inhibition) to lungs and regional lymph nodes. To begin elucidating the mechanism(s) of action, we measured the ability of BRMS1 to perturb individual steps of the metastatic cascade modeled in vitro. Consistent differences were not observed for adhesion to extracellular matrix components (laminin, fibronectin, type IV collagen, type I collagen, Matrigel); growth rates in vitro or in vivo; expression of matrix metalloproteinases, heparanase, or invasion. Likewise, BRMS1 expression did not up regulate expression of other metastasis suppressors, such as NM23, Kail, KiSS1 or E-cadherin. Motility of BRMS1 transfectants was modestly inhibited (30-60%) compared to parental and vector-only transfectants. Ability to grow in soft agar was also decreased in MDA-MB-435 cells by 80-89%, but the decrease for MDA-MB-231 was less (13-15% reduction). Also, transfection and re-expression of BRMS1 restored the ability of human breast carcinoma cells to form functional homotypic gap junctions. Collectively, these data suggest that BRMS1 suppresses metastasis of human breast carcinoma by complex, atypical mechanisms.

AB - Introduction of normal, neomycin-tagged human chromosome 11 (neo11) reduces the metastatic capacity of MDA-MB-435 human breast carcinoma cells by 70-90% without affecting tumorigenicity. Differential display comparing MDA-MB-435 and neo11/435 led to the discovery of a human breast carcinoma metastasis suppressor gene, BRMS1, which maps to chromosome 11q13.1-q13.2. Stable transfectants of MDA-MB-435 and MDA-MB-231 breast carcinoma cells with BRMS1 cDNA still form progressively growing, locally invasive tumors when injected in mammary fat pads of athymic mice but exhibit significantly lower metastatic potential (50-90% inhibition) to lungs and regional lymph nodes. To begin elucidating the mechanism(s) of action, we measured the ability of BRMS1 to perturb individual steps of the metastatic cascade modeled in vitro. Consistent differences were not observed for adhesion to extracellular matrix components (laminin, fibronectin, type IV collagen, type I collagen, Matrigel); growth rates in vitro or in vivo; expression of matrix metalloproteinases, heparanase, or invasion. Likewise, BRMS1 expression did not up regulate expression of other metastasis suppressors, such as NM23, Kail, KiSS1 or E-cadherin. Motility of BRMS1 transfectants was modestly inhibited (30-60%) compared to parental and vector-only transfectants. Ability to grow in soft agar was also decreased in MDA-MB-435 cells by 80-89%, but the decrease for MDA-MB-231 was less (13-15% reduction). Also, transfection and re-expression of BRMS1 restored the ability of human breast carcinoma cells to form functional homotypic gap junctions. Collectively, these data suggest that BRMS1 suppresses metastasis of human breast carcinoma by complex, atypical mechanisms.

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JO - Clinical and Experimental Metastasis

JF - Clinical and Experimental Metastasis

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ER -

Analysis of mechanisms underlying BRMS1 suppression of metastasis

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