Your search keyword '"Azar, Francesca N."' showing total 22 results

1. Impact of Telemedicine on Access to Care for Rural Transgender and Gender-Diverse Youth

Author

DeGuzman, Pamela B., Lyons, Genevieve R., Azar, Francesca N., Kimble, April, Huang, Guoping, Rheuban, Karen, and Gray, Susan H.

Published

2024

2. Impact of the microbiome on cancer progression and response to anti-cancer therapies

Author

Buchta Rosean, Claire, primary, Feng, Tzu-Yu, additional, Azar, Francesca N., additional, and Rutkowski, Melanie R., additional

Published

2019

3. Supplementary Figure from Reciprocal Interactions Between the Gut Microbiome and Mammary Tissue Mast Cells Promote Metastatic Dissemination of HR+ Breast Tumors

Author

Feng, Tzu-Yu, primary, Azar, Francesca N., primary, Dreger, Sally A., primary, Rosean, Claire Buchta, primary, McGinty, Mitchell T., primary, Putelo, Audrey M., primary, Kolli, Sree H., primary, Carey, Maureen A., primary, Greenfield, Stephanie, primary, Fowler, Wesley J., primary, Robinson, Stephen D., primary, and Rutkowski, Melanie R., primary

Published

2023

4. Data from Reciprocal Interactions Between the Gut Microbiome and Mammary Tissue Mast Cells Promote Metastatic Dissemination of HR+ Breast Tumors

Author

Feng, Tzu-Yu, primary, Azar, Francesca N., primary, Dreger, Sally A., primary, Rosean, Claire Buchta, primary, McGinty, Mitchell T., primary, Putelo, Audrey M., primary, Kolli, Sree H., primary, Carey, Maureen A., primary, Greenfield, Stephanie, primary, Fowler, Wesley J., primary, Robinson, Stephen D., primary, and Rutkowski, Melanie R., primary

Published

2023

5. Supplementary Data Figure 7 from Preexisting Commensal Dysbiosis Is a Host-Intrinsic Regulator of Tissue Inflammation and Tumor Cell Dissemination in Hormone Receptor–Positive Breast Cancer

Author

Buchta Rosean, Claire, primary, Bostic, Raegan R., primary, Ferey, Joshua C.M., primary, Feng, Tzu-Yu, primary, Azar, Francesca N., primary, Tung, Kenneth S., primary, Dozmorov, Mikhail G., primary, Smirnova, Ekaterina, primary, Bos, Paula D., primary, and Rutkowski, Melanie R., primary

Published

2023

6. Supplementary Data Figure 1 from Preexisting Commensal Dysbiosis Is a Host-Intrinsic Regulator of Tissue Inflammation and Tumor Cell Dissemination in Hormone Receptor–Positive Breast Cancer

Author

Buchta Rosean, Claire, primary, Bostic, Raegan R., primary, Ferey, Joshua C.M., primary, Feng, Tzu-Yu, primary, Azar, Francesca N., primary, Tung, Kenneth S., primary, Dozmorov, Mikhail G., primary, Smirnova, Ekaterina, primary, Bos, Paula D., primary, and Rutkowski, Melanie R., primary

Published

2023

7. Supplementary Data Figure 2 from Preexisting Commensal Dysbiosis Is a Host-Intrinsic Regulator of Tissue Inflammation and Tumor Cell Dissemination in Hormone Receptor–Positive Breast Cancer

Author

Buchta Rosean, Claire, primary, Bostic, Raegan R., primary, Ferey, Joshua C.M., primary, Feng, Tzu-Yu, primary, Azar, Francesca N., primary, Tung, Kenneth S., primary, Dozmorov, Mikhail G., primary, Smirnova, Ekaterina, primary, Bos, Paula D., primary, and Rutkowski, Melanie R., primary

Published

2023

8. Supplementary Data File from Preexisting Commensal Dysbiosis Is a Host-Intrinsic Regulator of Tissue Inflammation and Tumor Cell Dissemination in Hormone Receptor–Positive Breast Cancer

Author

Buchta Rosean, Claire, primary, Bostic, Raegan R., primary, Ferey, Joshua C.M., primary, Feng, Tzu-Yu, primary, Azar, Francesca N., primary, Tung, Kenneth S., primary, Dozmorov, Mikhail G., primary, Smirnova, Ekaterina, primary, Bos, Paula D., primary, and Rutkowski, Melanie R., primary

Published

2023

9. Supplementary Data Figure 6 from Preexisting Commensal Dysbiosis Is a Host-Intrinsic Regulator of Tissue Inflammation and Tumor Cell Dissemination in Hormone Receptor–Positive Breast Cancer

Author

Buchta Rosean, Claire, primary, Bostic, Raegan R., primary, Ferey, Joshua C.M., primary, Feng, Tzu-Yu, primary, Azar, Francesca N., primary, Tung, Kenneth S., primary, Dozmorov, Mikhail G., primary, Smirnova, Ekaterina, primary, Bos, Paula D., primary, and Rutkowski, Melanie R., primary

Published

2023

10. Supplementary Data Figure 3 from Preexisting Commensal Dysbiosis Is a Host-Intrinsic Regulator of Tissue Inflammation and Tumor Cell Dissemination in Hormone Receptor–Positive Breast Cancer

Author

Buchta Rosean, Claire, primary, Bostic, Raegan R., primary, Ferey, Joshua C.M., primary, Feng, Tzu-Yu, primary, Azar, Francesca N., primary, Tung, Kenneth S., primary, Dozmorov, Mikhail G., primary, Smirnova, Ekaterina, primary, Bos, Paula D., primary, and Rutkowski, Melanie R., primary

Published

2023

11. Supplementary Data Figure 4 from Preexisting Commensal Dysbiosis Is a Host-Intrinsic Regulator of Tissue Inflammation and Tumor Cell Dissemination in Hormone Receptor–Positive Breast Cancer

Author

Buchta Rosean, Claire, primary, Bostic, Raegan R., primary, Ferey, Joshua C.M., primary, Feng, Tzu-Yu, primary, Azar, Francesca N., primary, Tung, Kenneth S., primary, Dozmorov, Mikhail G., primary, Smirnova, Ekaterina, primary, Bos, Paula D., primary, and Rutkowski, Melanie R., primary

Published

2023

12. Data from Preexisting Commensal Dysbiosis Is a Host-Intrinsic Regulator of Tissue Inflammation and Tumor Cell Dissemination in Hormone Receptor–Positive Breast Cancer

Author

Buchta Rosean, Claire, primary, Bostic, Raegan R., primary, Ferey, Joshua C.M., primary, Feng, Tzu-Yu, primary, Azar, Francesca N., primary, Tung, Kenneth S., primary, Dozmorov, Mikhail G., primary, Smirnova, Ekaterina, primary, Bos, Paula D., primary, and Rutkowski, Melanie R., primary

Published

2023

13. Supplementary Data Figure 5 from Preexisting Commensal Dysbiosis Is a Host-Intrinsic Regulator of Tissue Inflammation and Tumor Cell Dissemination in Hormone Receptor–Positive Breast Cancer

Author

Buchta Rosean, Claire, primary, Bostic, Raegan R., primary, Ferey, Joshua C.M., primary, Feng, Tzu-Yu, primary, Azar, Francesca N., primary, Tung, Kenneth S., primary, Dozmorov, Mikhail G., primary, Smirnova, Ekaterina, primary, Bos, Paula D., primary, and Rutkowski, Melanie R., primary

Published

2023

14. Reciprocal Interactions Between the Gut Microbiome and Mammary Tissue Mast Cells Promote Metastatic Dissemination of HR+ Breast Tumors

Author

Feng, Tzu-Yu, primary, Azar, Francesca N., additional, Dreger, Sally A., additional, Rosean, Claire Buchta, additional, McGinty, Mitchell T., additional, Putelo, Audrey M., additional, Kolli, Sree H., additional, Carey, Maureen A., additional, Greenfield, Stephanie, additional, Fowler, Wesley J., additional, Robinson, Stephen D., additional, and Rutkowski, Melanie R., additional

Published

2022

15. Platinum Chemotherapy Induces Lymphangiogenesis in Cancerous and Healthy Tissues That Can be Prevented With Adjuvant Anti-VEGFR3 Therapy

Author

Harris, Alexandra R., Esparza, Savieay, Azimi, Mohammad S., Cornelison, Robert, Azar, Francesca N., Llaneza, Danielle C., Belanger, Maura, Mathew, Alexander, Tkachenko, Svyatoslav, Perez, Matthew J., Rosean, Claire Buchta, Bostic, Raegan R., Cornelison, R. Chase, Tate, Kinsley M., Peirce-Cottler, Shayn M., Paquette, Cherie, Mills, Anne, Landen, Charles N., Saucerman, Jeff, Dillon, Patrick M., Pompano, Rebecca R., Rutkowski, Melanie A., Munson, Jennifer M., Harris, Alexandra R., Esparza, Savieay, Azimi, Mohammad S., Cornelison, Robert, Azar, Francesca N., Llaneza, Danielle C., Belanger, Maura, Mathew, Alexander, Tkachenko, Svyatoslav, Perez, Matthew J., Rosean, Claire Buchta, Bostic, Raegan R., Cornelison, R. Chase, Tate, Kinsley M., Peirce-Cottler, Shayn M., Paquette, Cherie, Mills, Anne, Landen, Charles N., Saucerman, Jeff, Dillon, Patrick M., Pompano, Rebecca R., Rutkowski, Melanie A., and Munson, Jennifer M.

Abstract

Chemotherapy has been used to inhibit cancer growth for decades, but emerging evidence shows it can affect the tumor stroma, unintentionally promoting cancer malignancy. After treatment of primary tumors, remaining drugs drain via lymphatics. Though all drugs interact with the lymphatics, we know little of their impact on them. Here, we show a previously unknown effect of platinums, a widely used class of chemotherapeutics, to directly induce systemic lymphangiogenesis and activation. These changes are dose-dependent, long-lasting, and occur in healthy and cancerous tissue in multiple mouse models of breast cancer. We found similar effects in human ovarian and breast cancer patients whose treatment regimens included platinums. Carboplatin treatment of healthy mice prior to mammary tumor inoculation increased cancer metastasis as compared to no pre-treatment. These platinum-induced phenomena could be blocked by VEGFR3 inhibition. These findings have implications for cancer patients receiving platinums and may support the inclusion of anti-VEGFR3 therapy into treatment regimens or differential design of treatment regimens to alter these potential effects.

Published

2022

16. Platinum Chemotherapy Induces Lymphangiogenesis in Cancerous and Healthy Tissues That Can be Prevented With Adjuvant Anti-VEGFR3 Therapy

Author

Harris, Alexandra R., primary, Esparza, Savieay, additional, Azimi, Mohammad S., additional, Cornelison, Robert, additional, Azar, Francesca N., additional, Llaneza, Danielle C., additional, Belanger, Maura, additional, Mathew, Alexander, additional, Tkachenko, Svyatoslav, additional, Perez, Matthew J., additional, Rosean, Claire Buchta, additional, Bostic, Raegan R., additional, Cornelison, R. Chase, additional, Tate, Kinsley M., additional, Peirce-Cottler, Shayn M., additional, Paquette, Cherie, additional, Mills, Anne, additional, Landen, Charles N., additional, Saucerman, Jeff, additional, Dillon, Patrick M., additional, Pompano, Rebecca R., additional, Rutkowski, Melanie A., additional, and Munson, Jennifer M., additional

Published

2022

17. Reciprocal interactions between the gut microbiome and mammary tissue mast cells promote metastatic dissemination of HR+ breast tumors

Author

Feng, Tzu-Yu, primary, Azar, Francesca N., additional, Rosean, Claire Buchta, additional, McGinty, Mitchell T., additional, Putelo, Audrey M., additional, Koli, Sree, additional, Marino, Natascia, additional, German, Rana, additional, Podicheti, Ram, additional, Dreger, Sally A., additional, Fowler, Wesley J., additional, Greenfield, Stephanie, additional, Robinson, Stephen D., additional, and Rutkowski, Melanie R., additional

Published

2021

18. Reciprocal interactions between the gut microbiome and mammary tissue microenvironment promote distant regulation of breast tumor metastasis

Author

Feng, Tzu-Yu, primary, Azar, Francesca N., additional, McGinty, Mitchell T., additional, and Rutkowski, Melanie R., additional

Published

2021

19. Platinum chemotherapy induces lymphangiogenesis to prime tissues for tumor metastasis

Author

Harris, Alexandra R., Azimi, Mohammad S., Cornelison, Robert, Azar, Francesca N., Llaneza, Danielle C., Belanger, Maura, Mathew, Alexander, Tkachenko, Svyatoslav, Esparza, Savieay, Perez, Matthew J., Rosean, Claire Buchta, Bostic, Raegan R., Cornelison, R. Chase, Tate, Kinsley M., Peirce-Cottler, Shayn M., Paquette, Cherie, Mills, Anne, Landen, Charles N., Saucerman, Jeff, Dillon, Patrick M., Pompano, Rebecca R., Rutkowski, Melanie A., and Munson, Jennifer M.

Abstract

Chemotherapy has been used to inhibit cancer growth for decades, but emerging evidence shows it can affect the tumor stroma unintentionally promoting cancer malignancy. After treatment of primary tumors, remaining drug drains via lymphatics. Though all drugs interact with the lymphatics, we know little of their impact on them. Here, we show a previously unknown effect of platinums, a widely used chemotherapeutic, to directly induce systemic VEGFR3-dependent lymphangiogenesis. These changes are dose-dependent, long-lasting, and occur in healthy and cancerous tissue in multiple mouse models of breast cancer. We saw similar effects in human ovarian and breast cancer patients whose treatment regimens included platinums. Carboplatin treatment results in lymphatic hyperplasia and secretion of pro-chemotactic factors in lymph nodes. Carboplatin treatment of healthy mice prior to mammary tumor inoculation increases cancer metastasis. These findings have broad-reaching implications for cancer patients receiving platinums and support the inclusion of anti-VEGFR3 therapy into treatment regimens. Summary Platinum chemotherapy induces lymphangiogenesis priming tissues for metastasis of breast cancer. Inhibition of VEGFR3 via antibody blockade can reverse these effects.

Published

2019

20. Chapter Five - Impact of the microbiome on cancer progression and response to anti-cancer therapies

Author

Buchta Rosean, Claire, Feng, Tzu-Yu, Azar, Francesca N., and Rutkowski, Melanie R.

Published

2019

21. Platinum chemotherapy induces lymphangiogenesis in cancerous and healthy tissues that can be prevented with adjuvant anti-VEGFR3 therapy

Author

Harris, Alexandra R., primary, Esparza, Savieay, additional, Azimi, Mohammad S., additional, Cornelison, Robert, additional, Azar, Francesca N., additional, Llaneza, Danielle C., additional, Belanger, Maura, additional, Mathew, Alexander, additional, Tkachenko, Svyatoslav, additional, Perez, Matthew J., additional, Rosean, Claire Buchta, additional, Bostic, Raegan R., additional, Cornelison, R. Chase, additional, Tate, Kinsley M., additional, Peirce-Cottler, Shayn M., additional, Paquette, Cherie, additional, Mills, Anne, additional, Landen, Charles N., additional, Saucerman, Jeff, additional, Dillon, Patrick M., additional, Pompano, Rebecca R., additional, Rutkowski, Melanie A., additional, and Munson, Jennifer M., additional

Published

2019

22. Preexisting Commensal Dysbiosis Is a Host-Intrinsic Regulator of Tissue Inflammation and Tumor Cell Dissemination in Hormone Receptor–Positive Breast Cancer

Author

Buchta Rosean, Claire, primary, Bostic, Raegan R., additional, Ferey, Joshua C.M., additional, Feng, Tzu-Yu, additional, Azar, Francesca N., additional, Tung, Kenneth S., additional, Dozmorov, Mikhail G., additional, Smirnova, Ekaterina, additional, Bos, Paula D., additional, and Rutkowski, Melanie R., additional

Published

2019