Dannielle Engle is an American biologist and assistant professor of the regulatory biology laboratory at the Salk Institute for Biological Studies. Engle's research aims at improving detection and treatment of pancreatic cancer.

Dannielle Engle
NationalityAmerican
Alma materNorthwestern University, University of California San Diego
Known forAdvancing models of pancreatic cancer
Awards2016 - 2018 NIH NCI Career Transition K99/R00 Award, 2009 -2011 California Breast Cancer Research Program Fellowship, 2005 - 2009 UCSD Chancellor’s Fellowship
Scientific career
FieldsCancer biology
InstitutionsSalk Institute for Biological Studies

Early life and education

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Engle started her undergraduate degree at Northwestern University in music as a violinist.[1] She then changed her path to explore biology and conducted undergraduate research in genetics studying fruit flies.[1] Engle graduated from Northwestern with degrees in both biological sciences and asian studies.[1] After her undergraduate degree, Engle pursued graduate school at the University of California San Diego.[2] During this time, Engle lost her father to pancreatic cancer and decided to dedicate her career to pancreatic cancer research.[3][1] She joined the lab of Dr. Geoffrey M. Walh at the Salk Institute for Biological Studies in order to begin her career in cancer biology studying the mammogenesis in stem cells due to the similarity in cellular processes to cancer progression.[4] After graduate school, Engle moved to the United Kingdom to complete her postdoctoral studies under the mentorship of Dr. David Tuveson at the Cambridge Research Institute[5] but she finished her time in the lab back in the United States after helping move the lab to Cold Spring Harbour Laboratory where she held the title of Senior Research Fellow and became a Lustgarten Foundation Pancreatic Cancer Research Laboratory Ambassador through her community outreach efforts.[5] During her postdoctoral studies, Engle focused her efforts on probing a specific carbohydrate antigen, CA19-9, released by pancreatic tumor cells.[1][6][7] She also pioneered studies of pancreatic cancer in organoid pancreas models.[8]

Career and research

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In 2019, Engle returned to the Salk as an assistant professor.[1] Her lab is focused on improving detection and treatment of pancreatic cancer[2] which has the highest mortality rate of all major cancers.[9] Since starting in 2019, Engle's lab has begun creating transgenic mouse models of pancreatic cancer that have tumors that express the uniquely human CA19-9 tumor antigen.[2] This will allow the lab to better recapitulate the human tumor environment and move towards better diagnostics and treatments for pancreatic cancer.[2]

Awards and honours

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  • 2019 Skip Viragh Pancreatic Cancer Action Network Career Development Award[10]
  • 2016 - 2018 NIH NCI Career Transition K99/R00 Award[11]
  • 2009 -2011 California Breast Cancer Research Program Fellowship[11]
  • 2005 - 2009 UCSD Chancellor's Fellowship[2]
  • Theodore T Puck Award[12]

Select publications

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  • Ponz-Sarvise, M., Corbo, V., Tiriac, H., Engle, D.D., Frese, K.K., Oni, T.E., Hwang, C.I., Öhlund, D., Chio, I.I.C., Baker, L.A., Filippini, D., Wright, K., Bapiro, T.E., Huang, P.S., Smith, P.D., Yu, K.H., Jodrell, D.I., Park, Y., Tuveson, D.A. Identification of Resistance Pathways Specific to Malignancy Using Organoid Models of Pancreatic Cancer. (2019) Clinical Cancer Research. DOI: 10.1158/1078-0432.CCR-19-1398[13]
  • Elyada, E., Bolisetty, M., Laise, P., Flynn, W.F., Courtois, E.T., Burkhart, R.A., Teinor, J.A., Belleau, P., Biffi, G., Lucito, M.S., Sivajothi, S., Armstrong, T.D., Engle, D.D., Yu, K.H., Hao, Y., Wolfgang, C.L., Park, Y., Preall, J., Jaffee, E.M., Califano, A., Robson, P., Tuveson, D.A. Cross-Species Single-Cell Analysis of Pancreatic Ductal Adenocarcinoma Reveals Antigen-Presenting Cancer-Associated Fibroblasts. (2019) Cancer Discovery. 9(8):1102-1123. DOI: 10.1158/2159-8290.CD-19-0094[14]
  • Engle, D.D., Tiriac, H., Rivera, K.D., Pommier, A., Whalen, S., Oni, T.E., Alagesan, B., Lee, E.J., Yao, M.A., Lucito, M.S., Spielman, B., Da Silva, B., Schoepfer, C., Wright, K., Creighton, B., Afinowicz, L., Yu, K.H., Grützmann, R., Aust, D., Gimotty, P.A., Pollard, K.S., Hruban, R.H., Goggins, M.G., Pilarsky, C., Park, Y., Pappin, D.J., Hollingsworth, M.A., Tuveson, D.A. The glycan CA19-9 promotes pancreatitis and pancreatic cancer in mice. (2019) Science. 364(6446):1156-1162. DOI: 10.1126/science.aaw3145[15]
  • Tiriac, H., Belleau, P.*, Engle, D.D.*, Plenker, D., Deschênes, A., Somerville, T.D.D., Froeling, F.E.M., Burkhart, R.A., Denroche, R.E., Jang, G.H., Miyabayashi, K., Young, C.M., Patel, H., Ma, M., LaComb, J.F., Palmaira, R.L.D., Javed, A.A., Huynh, J.C., Johnson, M., Arora, K., Robine, N., Shah, M., Sanghvi, R., Goetz, A.B., Lowder, C.Y., Martello, L., Driehuis, E., LeComte, N., Askan, G., Iacobuzio-Donahue, C.A., Clevers, H., Wood, L.D., Hruban, R.H., Thompson, E., Aguirre, A.J., Wolpin, B.M., Sasson, A., Kim, J., Wu, M., Bucobo, J.C., Allen, P., Sejpal, D.V., Nealon, W., Sullivan, J.D., Winter, J.M., Gimotty, P.A., Grem, J.L., DiMaio, D.J., Buscaglia, J.M., Grandgenett, P.M., Brody, J.R., Hollingsworth, M.A., O'Kane, G.M., Notta, F., Kim, E., Crawford, J.M., Devoe, C., Ocean, A., Wolfgang, C.L., Yu, K.H., Li, E., Vakoc, C.R., Hubert, B., Fischer, S.E., Wilson, J.M., Moffitt, R., Knox, J., Krasnitz, A., Gallinger, S., Tuveson, D.A. Organoid Profiling Identifies Common Responders to Chemotherapy in Pancreatic Cancer. (2018) Cancer Discovery. 8(9):1112-1129. DOI: 10.1158/2159-8290.CD-18-0349[16]
  • Quaranta, V., Rainer, C., Nielsen, S.R., Raymant, M.L., Ahmed, M.S., Engle, D.D., Taylor, A., Murray, T., Campbell, F., Palmer, D.H., Tuveson, D.A., Mielgo, A., Schmid, M.C. Macrophage-Derived Granulin Drives Resistance to Immune Checkpoint Inhibition in Metastatic Pancreatic Cancer. (2018) Cancer Research. 78(15):4253-4269. DOI: 10.1158/0008-5472.CAN-17-3876[17]
  • Wolff, R.A.*, Wang-Gillam, A.*, Alvarez, H.*, Tiriac, H.*, Engle, D.*, Hou, S.*, Groff, A.F., San Lucas, A., Bernard, V., Allenson, K., Castillo, J., Kim, D., Mulu, F., Huang, J., Stephens, B., Wistuba, I.I., Katz, M., Varadhachary, G., Park, Y., Hicks, J., Chinnaiyan, A., Scampavia, L., Spicer, T., Gerhardinger, C., Maitra, A., Tuveson, D., Rinn, J., Lizee, G., Yee, C., Levine, A.J. Dynamic changes during the treatment of pancreatic cancer. (2018) Oncotarget. 9(19):14764-14790. DOI: 10.18632/oncotarget.24483[18]
  • Öhlund, D., Handly-Santana, A., Biffi, G., Elyada, E., Almeida, A.S., Ponz-Sarvise, M., Corbo, V., Oni, T.E., Hearn, S.A., Lee, E.J., Chio, I.I., Hwang, C.I., Tiriac, H., Baker, L.A., Engle, D.D., Feig, C., Kultti, A., Egeblad, M., Fearon, D.T., Crawford, J.M., Clevers, H., Park, Y., Tuveson, D.A. Distinct populations of inflammatory fibroblasts and myofibroblasts in pancreatic cancer. (2017) Journal of Experimental Medicine. 214(3):579-596. DOI: 10.1084/jem.20162024[19]
  • Ireland, L., Santos, A., Ahmed, M.S., Rainer, C., Nielsen, S.R., Quaranta, V., Weyer-Czernilofsky, U., Engle, D.D., Perez-Mancera, P.A., Coupland, S.E., Taktak, A., Bogenrieder, T., Tuveson, D.A., Campbell, F., Schmid, M.C., Mielgo, A. Chemoresistance in Pancreatic Cancer Is Driven by Stroma-Derived Insulin-Like Growth Factors. (2016) Cancer Research. 76(23):6851-6863. DOI: 10.1158/0008-5472.CAN-16-1201[20]
  • Nielsen, S.R., Quaranta, V., Linford, A., Emeagi, P., Rainer, C., Santos, A., Ireland, L., Sakai, T., Sakai, K., Kim, Y.S., Engle, D., Campbell, F., Palmer, D., Ko, J.H., Tuveson, D.A., Hirsch, E., Mielgo, A., Schmid, M.C. Macrophage-secreted granulin supports pancreatic cancer metastasis by inducing liver fibrosis. (2016) Nature Cell Biology. 18(5):549-60. DOI: 10.1038/ncb3340[21]
  • Seifert, L., Werba, G., Tiwari, S., Giao Ly, N.N., Alothman, S., Alqunaibit, D., Avanzi, A., Barilla, R., Daley, D., Greco, S.H., Torres-Hernandez, A., Pergamo, M., Ochi, A., Zambirinis, C.P., Pansari, M., Rendon, M., Tippens, D., Hundeyin, M., Mani, V.R., Hajdu, C., Engle, D., Miller, G. The necrosome promotes pancreatic oncogenesis via CXCL1 and Mincle-induced immune suppression. (2016) Nature. 532(7598):245-9. DOI: 10.1038/nature17403[22]
  • Boj, S.F., Hwang, C.I., Baker, L.A., Engle, D.D., Tuveson, D.A., Clevers, H. Model organoids provide new research opportunities for ductal pancreatic cancer. (2016) Molecular & Cellular Oncology. 3(1):e1014757. DOI: 10.1080/23723556.2015.1014757[23]
  • Zambirinis, C.P., Levie, E., Nguy, S., Avanzi, A., Barilla, R., Xu, Y., Seifert, L., Daley, D., Greco, S.H., Deutsch, M., Jonnadula, S., Torres-Hernandez, A., Tippens, D., Pushalkar, S., Eisenthal, A., Saxena, D., Ahn, J., Hajdu, C., Engle, D.D., Tuveson, D., Miller, G. TLR9 ligation in pancreatic stellate cells promotes tumorigenesis. (2015) J. Exp. Med. 212(12):2077-94. DOI: 10.1084/jem.20142162[24]
  • Roy, I., McAllister, D.M., Gorse, E., Dixon, K., Piper, C.T., Zimmerman, N.P., Getschman, A.E., Tsai, S., Engle, D.D., Evans, D.B., Volkman, B.F., Kalyanaraman, B., Dwinell, M.B. Pancreatic Cancer Cell Migration and Metastasis Is Regulated by Chemokine-Biased Agonism and Bioenergetic Signaling. (2015) Cancer Research. 75(17):3529-42. DOI: 10.1158/0008-5472.CAN-14-2645[25]
  • Boj, S.F.*, Hwang, C.I.*, Baker, L.A.*, Chio, I.I.*, Engle, D.D.*, Corbo, V.*, Jager, M.*, Ponz-Sarvise, M., Tiriac, H., Spector, M.S., Gracanin, A., Oni, T., Yu, K.H., van Boxtel, R., Huch, M., Rivera, K.D., Wilson, J.P., Feigin, M.E., Öhlund, D., Handly-Santana, A., Ardito-Abraham, C.M., Ludwig, M., Elyada, E., Alagesan, B., Biffi, G., Yordanov, G.N., Delcuze, B., Creighton, B., Wright, K., Park, Y., Morsink, F.H., Molenaar, I.Q., Borel Rinkes, I.H., Cuppen, E., Hao, Y., Jin, Y., Nijman, I.J., Iacobuzio-Donahue, C., Leach, S.D., Pappin, D.J., Hammell, M., Klimstra, D.S., Basturk, O., Hruban, R.H., Offerhaus, G.J., Vries, R.G., Clevers, H., Tuveson, D.A. Organoid models of human and mouse ductal pancreatic cancer. (2015) Cell. 160(1-2):324-38. DOI: 10.1016/j.cell.2014.12.021[26]
  • Naguib, A., Bencze, G., Engle, D.D., Chio, I.I., Herzka, T., Watrud, K., Bencze, S., Tuveson, D.A., Pappin, D.J., Trotman, L.C. p53 mutations change phosphatidylinositol acyl chain composition. (2015) Cell Reports. 10(1):8-19. DOI: 10.1016/j.celrep.2014.12.010[27]
  • Sherman, M.H., Yu, R.T., Engle, D.D., Ding, N., Atkins, A.R., Tiriac, H., Collisson, E.A., Connor, F., Van Dyke, T., Kozlov, S., Martin, P., Tseng, T.W., Dawson, D.W., Donahue, T.R., Masamune, A., Shimosegawa, T., Apte, M.V., Wilson, J.S., Ng, B., Lau, S.L., Gunton, J.E., Wahl, G.M., Hunter, T., Drebin, J.A., O'Dwyer, P.J., Liddle, C., Tuveson, D.A., Downes, M., Evans, R.M. Vitamin D receptor-mediated stromal reprogramming suppresses pancreatitis and enhances pancreatic cancer therapy. (2014) Cell. 159(1):80-93. DOI: 10.1016/j.cell.2014.08.007[28]
  • Spike, B.T.*, Engle, D.D.*, Lin, J.C., Cheung, S.K., La, J., Wahl, G.M. A mammary stem cell population identified and characterized in late embryogenesis reveals similarities to human breast cancer. (2012) Cell Stem Cell. 10(2):183-97. DOI: 10.1016/j.stem.2011.12.018[29]
  • Wang, Y.V., Leblanc, M., Fox, N., Mao, J.H., Tinkum, K.L., Krummel, K., Engle, D., Piwnica-Worms, D., Piwnica-Worms, H., Balmain, A., Kaushansky, K., Wahl, G.M. Fine-tuning p53 activity through C-terminal modification significantly contributes to HSC homeostasis and mouse radiosensitivity. (2011) Genes & Development. 25(13):1426-38. DOI: 10.1101/gad.2024411[30]

References

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  1. ^ a b c d e f "Research Grantee Studies Link Between Pancreatic Cancer and CA19-9 — Pancreatic Cancer Action NetworkResearch Grantee Studies Link Between Pancreatic Cancer and CA19-9". Pancreatic Cancer Action Network. 2019-07-17. Retrieved 2020-03-24.
  2. ^ a b c d e "Dannielle Engle". Salk Institute for Biological Studies. Retrieved 2020-03-24.
  3. ^ "Dannielle Engle". biology.ucsd.edu. Retrieved 2020-03-24.
  4. ^ Spike, Benjamin T.; Engle, Dannielle D.; Lin, Jennifer C.; Cheung, Samantha K.; La, Justin; Wahl, Geoffrey M. (2012-02-03). "A mammary stem cell population identified and characterized in late embryogenesis reveals similarities to human breast cancer". Cell Stem Cell. 10 (2): 183–197. doi:10.1016/j.stem.2011.12.018. ISSN 1875-9777. PMC 3277444. PMID 22305568.
  5. ^ a b "Dannielle Engle". biology.ucsd.edu. Retrieved 2020-03-24.
  6. ^ "CA 19-9". Pancreatic Cancer Action Network. Retrieved 2020-03-24.
  7. ^ Engle, Dannielle D.; Tiriac, Hervé; Rivera, Keith D.; Pommier, Arnaud; Whalen, Sean; Oni, Tobiloba E.; Alagesan, Brinda; Lee, Eun Jung; Yao, Melissa A.; Lucito, Matthew S.; Spielman, Benjamin (21 June 2019). "The glycan CA19-9 promotes pancreatitis and pancreatic cancer in mice". Science. 364 (6446): 1156–1162. Bibcode:2019Sci...364.1156E. doi:10.1126/science.aaw3145. ISSN 1095-9203. PMC 6705393. PMID 31221853.
  8. ^ Ponz-Sarvise, Mariano; Corbo, Vincenzo; Tiriac, Hervé; Engle, Dannielle D.; Frese, Kristopher K.; Oni, Tobiloba E.; Hwang, Chang-Il; Öhlund, Daniel; Chio, Iok In Christine; Baker, Lindsey A.; Filippini, Dea (2019-11-15). "Identification of Resistance Pathways Specific to Malignancy Using Organoid Models of Pancreatic Cancer". Clinical Cancer Research. 25 (22): 6742–6755. doi:10.1158/1078-0432.CCR-19-1398. ISSN 1078-0432. PMC 6858952. PMID 31492749.
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  10. ^ "Career Development Award - Pancreatic Cancer Action Network/". Pancreatic Cancer Action Network. Retrieved 2020-03-24.
  11. ^ a b "Dannielle Engle, rising star in pancreatic cancer research, to join Salk Institute". Salk Institute for Biological Studies. Retrieved 2020-03-24.
  12. ^ "2019 Grant Recipient Dannielle Engle, PhD - Pancreatic Cancer Action Network/". Pancreatic Cancer Action Network. Retrieved 2020-03-24.
  13. ^ Ponz-Sarvise, Mariano; Corbo, Vincenzo; Tiriac, Hervé; Engle, Dannielle D.; Frese, Kristopher K.; Oni, Tobiloba E.; Hwang, Chang-Il; Öhlund, Daniel; Chio, Iok In Christine; Baker, Lindsey A.; Filippini, Dea (2019-01-01). "Identification of Resistance Pathways Specific to Malignancy Using Organoid Models of Pancreatic Cancer". Clinical Cancer Research. 25 (22): 6742–6755. doi:10.1158/1078-0432.CCR-19-1398. ISSN 1078-0432. PMC 6858952. PMID 31492749.
  14. ^ Elyada, Ela; Bolisetty, Mohan; Laise, Pasquale; Flynn, William F.; Courtois, Elise T.; Burkhart, Richard A.; Teinor, Jonathan A.; Belleau, Pascal; Biffi, Giulia; Lucito, Matthew S.; Sivajothi, Santhosh (August 2019). "Cross-Species Single-Cell Analysis of Pancreatic Ductal Adenocarcinoma Reveals Antigen-Presenting Cancer-Associated Fibroblasts". Cancer Discovery. 9 (8): 1102–1123. doi:10.1158/2159-8290.CD-19-0094. ISSN 2159-8290. PMC 6727976. PMID 31197017.
  15. ^ Engle, Dannielle D.; Tiriac, Hervé; Rivera, Keith D.; Pommier, Arnaud; Whalen, Sean; Oni, Tobiloba E.; Alagesan, Brinda; Lee, Eun Jung; Yao, Melissa A.; Lucito, Matthew S.; Spielman, Benjamin (2019-06-21). "The glycan CA19-9 promotes pancreatitis and pancreatic cancer in mice". Science. 364 (6446): 1156–1162. Bibcode:2019Sci...364.1156E. doi:10.1126/science.aaw3145. ISSN 0036-8075. PMC 6705393. PMID 31221853.
  16. ^ Tiriac, Hervé; Belleau, Pascal; Engle, Dannielle D.; Plenker, Dennis; Deschênes, Astrid; Somerville, Tim D. D.; Froeling, Fieke E. M.; Burkhart, Richard A.; Denroche, Robert E.; Jang, Gun-Ho; Miyabayashi, Koji (September 2018). "Organoid Profiling Identifies Common Responders to Chemotherapy in Pancreatic Cancer". Cancer Discovery. 8 (9): 1112–1129. doi:10.1158/2159-8290.CD-18-0349. ISSN 2159-8290. PMC 6125219. PMID 29853643.
  17. ^ Quaranta, Valeria; Rainer, Carolyn; Nielsen, Sebastian R.; Raymant, Meirion L.; Ahmed, Muhammad S.; Engle, Dannielle D.; Taylor, Arthur; Murray, Trish; Campbell, Fiona; Palmer, Daniel H.; Tuveson, David A. (1 August 2018). "Macrophage-Derived Granulin Drives Resistance to Immune Checkpoint Inhibition in Metastatic Pancreatic Cancer". Cancer Research. 78 (15): 4253–4269. doi:10.1158/0008-5472.CAN-17-3876. ISSN 1538-7445. PMC 6076440. PMID 29789416.
  18. ^ Wolff, Robert A.; Wang-Gillam, Andrea; Alvarez, Hector; Tiriac, Hervé; Engle, Dannielle; Hou, Shurong; Groff, Abigail F.; San Lucas, Anthony; Bernard, Vincent; Allenson, Kelvin; Castillo, Jonathan (2018-03-13). "Dynamic changes during the treatment of pancreatic cancer". Oncotarget. 9 (19): 14764–14790. doi:10.18632/oncotarget.24483. ISSN 1949-2553. PMC 5871077. PMID 29599906.
  19. ^ Öhlund, Daniel; Handly-Santana, Abram; Biffi, Giulia; Elyada, Ela; Almeida, Ana S.; Ponz-Sarvise, Mariano; Corbo, Vincenzo; Oni, Tobiloba E.; Hearn, Stephen A.; Lee, Eun Jung; Chio, Iok In Christine (6 March 2017). "Distinct populations of inflammatory fibroblasts and myofibroblasts in pancreatic cancer". The Journal of Experimental Medicine. 214 (3): 579–596. doi:10.1084/jem.20162024. ISSN 1540-9538. PMC 5339682. PMID 28232471.
  20. ^ Ireland, Lucy; Santos, Almudena; Ahmed, Muhammad S.; Rainer, Carolyn; Nielsen, Sebastian R.; Quaranta, Valeria; Weyer-Czernilofsky, Ulrike; Engle, Danielle D.; Perez-Mancera, Pedro A.; Coupland, Sarah E.; Taktak, Azzam (1 December 2016). "Chemoresistance in Pancreatic Cancer Is Driven by Stroma-Derived Insulin-Like Growth Factors". Cancer Research. 76 (23): 6851–6863. doi:10.1158/0008-5472.CAN-16-1201. ISSN 1538-7445. PMC 5321488. PMID 27742686.
  21. ^ Nielsen, Sebastian R.; Quaranta, Valeria; Linford, Andrea; Emeagi, Perpetua; Rainer, Carolyn; Santos, Almudena; Ireland, Lucy; Sakai, Takao; Sakai, Keiko; Kim, Yong-Sam; Engle, Dannielle (May 2016). "Macrophage-secreted granulin supports pancreatic cancer metastasis by inducing liver fibrosis". Nature Cell Biology. 18 (5): 549–560. doi:10.1038/ncb3340. ISSN 1476-4679. PMC 4894551. PMID 27088855.
  22. ^ Seifert, Lena; Werba, Gregor; Tiwari, Shaun; Giao Ly, Nancy Ngoc; Alothman, Sara; Alqunaibit, Dalia; Avanzi, Antonina; Barilla, Rocky; Daley, Donnele; Greco, Stephanie H.; Torres-Hernandez, Alejandro (2016-04-14). "The necrosome promotes pancreatic oncogenesis via CXCL1 and Mincle-induced immune suppression". Nature. 532 (7598): 245–249. Bibcode:2016Natur.532..245S. doi:10.1038/nature17403. ISSN 1476-4687. PMC 4833566. PMID 27049944.
  23. ^ Boj, Sylvia F; Hwang, Chang-Il; Baker, Lindsey A; Engle, Dannielle D; Tuveson, David A; Clevers, Hans (2015-02-23). "Model organoids provide new research opportunities for ductal pancreatic cancer". Molecular & Cellular Oncology. 3 (1): e1014757. doi:10.1080/23723556.2015.1014757. ISSN 2372-3556. PMC 4845167. PMID 27308531.
  24. ^ Zambirinis, Constantinos P.; Levie, Elliot; Nguy, Susanna; Avanzi, Antonina; Barilla, Rocky; Xu, Yijie; Seifert, Lena; Daley, Donnele; Greco, Stephanie H.; Deutsch, Michael; Jonnadula, Saikiran (2015-11-16). "TLR9 ligation in pancreatic stellate cells promotes tumorigenesis". The Journal of Experimental Medicine. 212 (12): 2077–2094. doi:10.1084/jem.20142162. ISSN 1540-9538. PMC 4647258. PMID 26481685.
  25. ^ Roy, Ishan; McAllister, Donna M.; Gorse, Egal; Dixon, Kate; Piper, Clinton T.; Zimmerman, Noah P.; Getschman, Anthony E.; Tsai, Susan; Engle, Dannielle D.; Evans, Douglas B.; Volkman, Brian F. (2015-09-01). "Pancreatic Cancer Cell Migration and Metastasis Is Regulated by Chemokine-Biased Agonism and Bioenergetic Signaling". Cancer Research. 75 (17): 3529–3542. doi:10.1158/0008-5472.CAN-14-2645. ISSN 0008-5472. PMC 4560104. PMID 26330165.
  26. ^ Boj, Sylvia F.; Hwang, Chang-Il; Baker, Lindsey A.; Chio, Iok In Christine; Engle, Dannielle D.; Corbo, Vincenzo; Jager, Myrthe; Ponz-Sarvise, Mariano; Tiriac, Hervé; Spector, Mona S.; Gracanin, Ana (2015-01-15). "Organoid models of human and mouse ductal pancreatic cancer". Cell. 160 (1–2): 324–338. doi:10.1016/j.cell.2014.12.021. ISSN 1097-4172. PMC 4334572. PMID 25557080.
  27. ^ Naguib, Adam; Bencze, Gyula; Engle, Dannielle D.; Chio, Iok I. C.; Herzka, Tali; Watrud, Kaitlin; Bencze, Szilvia; Tuveson, David A.; Pappin, Darryl J.; Trotman, Lloyd C. (2015-01-06). "p53 mutations change phosphatidylinositol acyl chain composition". Cell Reports. 10 (1): 8–19. doi:10.1016/j.celrep.2014.12.010. ISSN 2211-1247. PMC 4287966. PMID 25543136.
  28. ^ Sherman, Mara H.; Yu, Ruth T.; Engle, Dannielle D.; Ding, Ning; Atkins, Annette R.; Tiriac, Herve; Collisson, Eric A.; Connor, Frances; Van Dyke, Terry; Kozlov, Serguei; Martin, Philip (2014-09-25). "Vitamin D receptor-mediated stromal reprogramming suppresses pancreatitis and enhances pancreatic cancer therapy". Cell. 159 (1): 80–93. doi:10.1016/j.cell.2014.08.007. ISSN 1097-4172. PMC 4177038. PMID 25259922.
  29. ^ Spike, Benjamin T.; Engle, Dannielle D.; Lin, Jennifer C.; Cheung, Samantha K.; La, Justin; Wahl, Geoffrey M. (2012-02-03). "A mammary stem cell population identified and characterized in late embryogenesis reveals similarities to human breast cancer". Cell Stem Cell. 10 (2): 183–197. doi:10.1016/j.stem.2011.12.018. ISSN 1875-9777. PMC 3277444. PMID 22305568.
  30. ^ Wang, Yunyuan V.; Leblanc, Mathias; Fox, Norma; Mao, Jian-Hua; Tinkum, Kelsey L.; Krummel, Kurt; Engle, Dannielle; Piwnica-Worms, David; Piwnica-Worms, Helen; Balmain, Allan; Kaushansky, Kenneth (2011-07-01). "Fine-tuning p53 activity through C-terminal modification significantly contributes to HSC homeostasis and mouse radiosensitivity". Genes & Development. 25 (13): 1426–1438. doi:10.1101/gad.2024411. ISSN 0890-9369. PMC 3134085. PMID 21724834.