Loss of caveolin-3 induces a lactogenic microenvironment that is protective against mammary tumor formation

Federica Sotgia; Mathew C. Casimiro; Gloria Bonuccelli; Manran Liu; Diana Whitaker-Menezes; Ozlem Er; Kristin M. Daumer; Isabelle Mercier; Agnieszka K. Witkiewicz; Carlo Minetti; Franco Capozza; Michael Gormley; Andrew A. Quong; Hallgeir Rui; Philippe G. Frank; Janet N. Milliman; Erik S. Knudsen; Jie Zhou; Chenguang Wang; Richard G. Pestell; Michael P. Lisanti

doi:10.2353/ajpath.2009.080653

Loss of caveolin-3 induces a lactogenic microenvironment that is protective against mammary tumor formation

Federica Sotgia, Mathew C. Casimiro, Gloria Bonuccelli, Manran Liu, Diana Whitaker-Menezes, Ozlem Er, Kristin M. Daumer, Isabelle Mercier, Agnieszka K. Witkiewicz, Carlo Minetti, Franco Capozza, Michael Gormley, Andrew A. Quong, Hallgeir Rui, Philippe G. Frank, Janet N. Milliman, Erik S. Knudsen, Jie Zhou, Chenguang Wang, Richard G. PestellMichael P. Lisanti

Research output: Contribution to journal › Article › peer-review

Abstract

Here, we show that functional loss of a single gene is sufficient to confer constitutive milk protein production and protection against mammary tumor formation. Caveolin-3 (Cav-3), a muscle-specific caveolin-related gene, is highly expressed in muscle cells. We demonstrate that Cav-3 is also expressed in myoepithelial cells within the mammary gland. To determine whether genetic ablation of Cav-3 expression affects adult mammary gland development, we studied the phenotype(s) of Cav-3-/--null mice. Interestingly, Cav-3 -/- virgin mammary glands developed lobuloalveolar hyperplasia, akin to the changes normally observed during pregnancy and lactation. Genome-wide expression profiling revealed up-regulation of gene transcripts associated with pregnancy/lactation, mammary stem cells, and human breast cancers, consistent with a constitutive lactogenic phenotype. Expression levels of three key transcriptional regulators of lactation, namely Elf5, Stat5a, and c-Myc, were also significantly elevated. Experiments with pregnant mice directly showed that Cav-3-/- mice underwent precocious lactation. Finally, using orthotopic tumor cell implantation, we demonstrated that virgin Cav-3 -/- mice were dramatically protected against mammary tumor formation. Thus, Cav-3-/- mice are a novel preclinical model to study the protective effects of a lactogenic microenvironment on mammary tumor onset and progression. Our current studies have broad implications for using the lactogenic microenvironment as a paradigm to discover new therapies for the prevention and/or treatment of human breast cancers. Copyright © American Society for Investigative Pathology.

Original language	English
Pages (from-to)	613-629
Number of pages	16
Journal	American journal of pathology
Volume	174
Issue number	2
DOIs	https://doi.org/10.2353/ajpath.2009.080653
Publication status	Published - Feb 2009

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10.2353/ajpath.2009.080653

http://ajp.amjpathol.org/cgi/reprint/174/2/613

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Sotgia, F., Casimiro, M. C., Bonuccelli, G., Liu, M., Whitaker-Menezes, D., Er, O., Daumer, K. M., Mercier, I., Witkiewicz, A. K., Minetti, C., Capozza, F., Gormley, M., Quong, A. A., Rui, H., Frank, P. G., Milliman, J. N., Knudsen, E. S., Zhou, J., Wang, C., ... Lisanti, M. P. (2009). Loss of caveolin-3 induces a lactogenic microenvironment that is protective against mammary tumor formation. American journal of pathology, 174(2), 613-629. https://doi.org/10.2353/ajpath.2009.080653

@article{434b85627c8341f18e2225bac47c3764,

title = "Loss of caveolin-3 induces a lactogenic microenvironment that is protective against mammary tumor formation",

abstract = "Here, we show that functional loss of a single gene is sufficient to confer constitutive milk protein production and protection against mammary tumor formation. Caveolin-3 (Cav-3), a muscle-specific caveolin-related gene, is highly expressed in muscle cells. We demonstrate that Cav-3 is also expressed in myoepithelial cells within the mammary gland. To determine whether genetic ablation of Cav-3 expression affects adult mammary gland development, we studied the phenotype(s) of Cav-3-/--null mice. Interestingly, Cav-3 -/- virgin mammary glands developed lobuloalveolar hyperplasia, akin to the changes normally observed during pregnancy and lactation. Genome-wide expression profiling revealed up-regulation of gene transcripts associated with pregnancy/lactation, mammary stem cells, and human breast cancers, consistent with a constitutive lactogenic phenotype. Expression levels of three key transcriptional regulators of lactation, namely Elf5, Stat5a, and c-Myc, were also significantly elevated. Experiments with pregnant mice directly showed that Cav-3-/- mice underwent precocious lactation. Finally, using orthotopic tumor cell implantation, we demonstrated that virgin Cav-3 -/- mice were dramatically protected against mammary tumor formation. Thus, Cav-3-/- mice are a novel preclinical model to study the protective effects of a lactogenic microenvironment on mammary tumor onset and progression. Our current studies have broad implications for using the lactogenic microenvironment as a paradigm to discover new therapies for the prevention and/or treatment of human breast cancers. Copyright {\textcopyright} American Society for Investigative Pathology.",

author = "Federica Sotgia and Casimiro, \{Mathew C.\} and Gloria Bonuccelli and Manran Liu and Diana Whitaker-Menezes and Ozlem Er and Daumer, \{Kristin M.\} and Isabelle Mercier and Witkiewicz, \{Agnieszka K.\} and Carlo Minetti and Franco Capozza and Michael Gormley and Quong, \{Andrew A.\} and Hallgeir Rui and Frank, \{Philippe G.\} and Milliman, \{Janet N.\} and Knudsen, \{Erik S.\} and Jie Zhou and Chenguang Wang and Pestell, \{Richard G.\} and Lisanti, \{Michael P.\}",

note = "P30-CA-56036, NCI NIH HHS, United StatesR01-CA-098779, NCI NIH HHS, United StatesR01-CA-107382, NCI NIH HHS, United StatesR01-CA-120876, NCI NIH HHS, United StatesR01-CA-70896, NCI NIH HHS, United StatesR01-CA-75503, NCI NIH HHS, United StatesR01-CA-80250, NCI NIH HHS, United StatesR01-CA-86072, NCI NIH HHS, United States",

year = "2009",

month = feb,

doi = "10.2353/ajpath.2009.080653",

language = "English",

volume = "174",

pages = "613--629",

journal = "American journal of pathology",

issn = "0002-9440",

publisher = "Elsevier BV",

number = "2",

}

Sotgia, F, Casimiro, MC, Bonuccelli, G, Liu, M, Whitaker-Menezes, D, Er, O, Daumer, KM, Mercier, I, Witkiewicz, AK, Minetti, C, Capozza, F, Gormley, M, Quong, AA, Rui, H, Frank, PG, Milliman, JN, Knudsen, ES, Zhou, J, Wang, C, Pestell, RG & Lisanti, MP 2009, 'Loss of caveolin-3 induces a lactogenic microenvironment that is protective against mammary tumor formation', American journal of pathology, vol. 174, no. 2, pp. 613-629. https://doi.org/10.2353/ajpath.2009.080653

TY - JOUR

T1 - Loss of caveolin-3 induces a lactogenic microenvironment that is protective against mammary tumor formation

AU - Sotgia, Federica

AU - Casimiro, Mathew C.

AU - Bonuccelli, Gloria

AU - Liu, Manran

AU - Whitaker-Menezes, Diana

AU - Er, Ozlem

AU - Daumer, Kristin M.

AU - Mercier, Isabelle

AU - Witkiewicz, Agnieszka K.

AU - Minetti, Carlo

AU - Capozza, Franco

AU - Gormley, Michael

AU - Quong, Andrew A.

AU - Rui, Hallgeir

AU - Frank, Philippe G.

AU - Milliman, Janet N.

AU - Knudsen, Erik S.

AU - Zhou, Jie

AU - Wang, Chenguang

AU - Pestell, Richard G.

AU - Lisanti, Michael P.

N1 - P30-CA-56036, NCI NIH HHS, United StatesR01-CA-098779, NCI NIH HHS, United StatesR01-CA-107382, NCI NIH HHS, United StatesR01-CA-120876, NCI NIH HHS, United StatesR01-CA-70896, NCI NIH HHS, United StatesR01-CA-75503, NCI NIH HHS, United StatesR01-CA-80250, NCI NIH HHS, United StatesR01-CA-86072, NCI NIH HHS, United States

PY - 2009/2

Y1 - 2009/2

N2 - Here, we show that functional loss of a single gene is sufficient to confer constitutive milk protein production and protection against mammary tumor formation. Caveolin-3 (Cav-3), a muscle-specific caveolin-related gene, is highly expressed in muscle cells. We demonstrate that Cav-3 is also expressed in myoepithelial cells within the mammary gland. To determine whether genetic ablation of Cav-3 expression affects adult mammary gland development, we studied the phenotype(s) of Cav-3-/--null mice. Interestingly, Cav-3 -/- virgin mammary glands developed lobuloalveolar hyperplasia, akin to the changes normally observed during pregnancy and lactation. Genome-wide expression profiling revealed up-regulation of gene transcripts associated with pregnancy/lactation, mammary stem cells, and human breast cancers, consistent with a constitutive lactogenic phenotype. Expression levels of three key transcriptional regulators of lactation, namely Elf5, Stat5a, and c-Myc, were also significantly elevated. Experiments with pregnant mice directly showed that Cav-3-/- mice underwent precocious lactation. Finally, using orthotopic tumor cell implantation, we demonstrated that virgin Cav-3 -/- mice were dramatically protected against mammary tumor formation. Thus, Cav-3-/- mice are a novel preclinical model to study the protective effects of a lactogenic microenvironment on mammary tumor onset and progression. Our current studies have broad implications for using the lactogenic microenvironment as a paradigm to discover new therapies for the prevention and/or treatment of human breast cancers. Copyright © American Society for Investigative Pathology.

AB - Here, we show that functional loss of a single gene is sufficient to confer constitutive milk protein production and protection against mammary tumor formation. Caveolin-3 (Cav-3), a muscle-specific caveolin-related gene, is highly expressed in muscle cells. We demonstrate that Cav-3 is also expressed in myoepithelial cells within the mammary gland. To determine whether genetic ablation of Cav-3 expression affects adult mammary gland development, we studied the phenotype(s) of Cav-3-/--null mice. Interestingly, Cav-3 -/- virgin mammary glands developed lobuloalveolar hyperplasia, akin to the changes normally observed during pregnancy and lactation. Genome-wide expression profiling revealed up-regulation of gene transcripts associated with pregnancy/lactation, mammary stem cells, and human breast cancers, consistent with a constitutive lactogenic phenotype. Expression levels of three key transcriptional regulators of lactation, namely Elf5, Stat5a, and c-Myc, were also significantly elevated. Experiments with pregnant mice directly showed that Cav-3-/- mice underwent precocious lactation. Finally, using orthotopic tumor cell implantation, we demonstrated that virgin Cav-3 -/- mice were dramatically protected against mammary tumor formation. Thus, Cav-3-/- mice are a novel preclinical model to study the protective effects of a lactogenic microenvironment on mammary tumor onset and progression. Our current studies have broad implications for using the lactogenic microenvironment as a paradigm to discover new therapies for the prevention and/or treatment of human breast cancers. Copyright © American Society for Investigative Pathology.

UR - https://www.scopus.com/pages/publications/59649087892

U2 - 10.2353/ajpath.2009.080653

DO - 10.2353/ajpath.2009.080653

M3 - Article

C2 - 19164602

SN - 0002-9440

VL - 174

SP - 613

EP - 629

JO - American journal of pathology

JF - American journal of pathology

IS - 2

ER -

Loss of caveolin-3 induces a lactogenic microenvironment that is protective against mammary tumor formation

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