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Corrigendum: Landscape of the mitochondrial Hsp90 metabolome in tumours.

Nature communications

Chae YC, Angelin A, Lisanti S, Kossenkov AV, Speicher KD, Wang H, Powers JF, Tischler AS, Pacak K, Fliedner S, Michalek RD, Karoly ED, Wallace DC, Languino LR, Speicher DW, Altieri DC.
PMID: 26085380
Nat Commun. 2015 Jun 18;6:7605. doi: 10.1038/ncomms8605.

No abstract available.

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Chae YC, Angelin A, Lisanti S, et al. Corrigendum: Landscape of the mitochondrial Hsp90 metabolome in tumours. Nat Commun. 2015;6:7605doi: 10.1038/ncomms8605.
Chae, Y. C., Angelin, A., Lisanti, S., Kossenkov, A. V., Speicher, K. D., Wang, H., Powers, J. F., Tischler, A. S., Pacak, K., Fliedner, S., Michalek, R. D., Karoly, E. D., Wallace, D. C., Languino, L. R., Speicher, D. W., & Altieri, D. C. (2015). Corrigendum: Landscape of the mitochondrial Hsp90 metabolome in tumours. Nature communications, 67605. https://doi.org/10.1038/ncomms8605
Chae, Young Chan, et al. "Corrigendum: Landscape of the mitochondrial Hsp90 metabolome in tumours." Nature communications vol. 6 (2015): 7605. doi: https://doi.org/10.1038/ncomms8605
Chae YC, Angelin A, Lisanti S, Kossenkov AV, Speicher KD, Wang H, Powers JF, Tischler AS, Pacak K, Fliedner S, Michalek RD, Karoly ED, Wallace DC, Languino LR, Speicher DW, Altieri DC. Corrigendum: Landscape of the mitochondrial Hsp90 metabolome in tumours. Nat Commun. 2015 Jun 18;6:7605. doi: 10.1038/ncomms8605. PMID: 26085380; PMCID: PMC4750482.
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α(V)β(6) integrin expression is induced in the POET and Pten(pc-/-) mouse models of prostatic inflammation and prostatic adenocarcinoma.

American journal of translational research

Garlick DS, Li J, Sansoucy B, Wang T, Griffith L, Fitzgerald T, Butterfield J, Charbonneau B, Violette SM, Weinreb PH, Ratliff TL, Liao CP, Roy-Burman P, Vietri M, Lian JB, Stein GS, Altieri DC, Languino LR.
PMID: 22611469
Am J Transl Res. 2012;4(2):165-74. Epub 2012 Apr 10.

Chronic inflammation is proposed to prime the development of prostate cancer. However, the mechanisms of prostate cancer initiation and development are not completely understood. The α(v)β(6) integrin has been shown to play a role in epithelial development, wound healing...

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Garlick DS, Li J, Sansoucy B, et al. α(V)β(6) integrin expression is induced in the POET and Pten(pc-/-) mouse models of prostatic inflammation and prostatic adenocarcinoma. Am J Transl Res. 2012;4(2):165-74
Garlick, D. S., Li, J., Sansoucy, B., Wang, T., Griffith, L., Fitzgerald, T., Butterfield, J., Charbonneau, B., Violette, S. M., Weinreb, P. H., Ratliff, T. L., Liao, C. P., Roy-Burman, P., Vietri, M., Lian, J. B., Stein, G. S., Altieri, D. C., & Languino, L. R. (2012). α(V)β(6) integrin expression is induced in the POET and Pten(pc-/-) mouse models of prostatic inflammation and prostatic adenocarcinoma. American journal of translational research, 4(2), 165-74.
Garlick, David S, et al. "α(V)β(6) integrin expression is induced in the POET and Pten(pc-/-) mouse models of prostatic inflammation and prostatic adenocarcinoma." American journal of translational research vol. 4,2 (2012): 165-74.
Garlick DS, Li J, Sansoucy B, Wang T, Griffith L, Fitzgerald T, Butterfield J, Charbonneau B, Violette SM, Weinreb PH, Ratliff TL, Liao CP, Roy-Burman P, Vietri M, Lian JB, Stein GS, Altieri DC, Languino LR. α(V)β(6) integrin expression is induced in the POET and Pten(pc-/-) mouse models of prostatic inflammation and prostatic adenocarcinoma. Am J Transl Res. 2012;4(2):165-74. Epub 2012 Apr 10. PMID: 22611469; PMCID: PMC3353537.
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Hitting the Bullseye: Are extracellular vesicles on target?.

Journal of extracellular vesicles

Noren Hooten N, Yáñez-Mó M, DeRita R, Russell A, Quesenberry P, Ramratnam B, Robbins PD, Di Vizio D, Wen S, Witwer KW, Languino LR.
PMID: 33708359
J Extracell Vesicles. 2020 Nov;10(1):e12032. doi: 10.1002/jev2.12032. Epub 2020 Nov 29.

No abstract available.

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Noren Hooten N, Yáñez-Mó M, DeRita R, et al. Hitting the Bullseye: Are extracellular vesicles on target?. J Extracell Vesicles. 2020;10(1):e12032doi: 10.1002/jev2.12032.
Noren Hooten, N., Yáñez-Mó, M., DeRita, R., Russell, A., Quesenberry, P., Ramratnam, B., Robbins, P. D., Di Vizio, D., Wen, S., Witwer, K. W., & Languino, L. R. (2020). Hitting the Bullseye: Are extracellular vesicles on target?. Journal of extracellular vesicles, 10(1), e12032. https://doi.org/10.1002/jev2.12032
Noren Hooten, Nicole, et al. "Hitting the Bullseye: Are extracellular vesicles on target?." Journal of extracellular vesicles vol. 10,1 (2020): e12032. doi: https://doi.org/10.1002/jev2.12032
Noren Hooten N, Yáñez-Mó M, DeRita R, Russell A, Quesenberry P, Ramratnam B, Robbins PD, Di Vizio D, Wen S, Witwer KW, Languino LR. Hitting the Bullseye: Are extracellular vesicles on target?. J Extracell Vesicles. 2020 Nov;10(1):e12032. doi: 10.1002/jev2.12032. Epub 2020 Nov 29. PMID: 33708359; PMCID: PMC7890543.
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Tumor-Derived Extracellular Vesicles Require β1 Integrins to Promote Anchorage-Independent Growth.

iScience

DeRita RM, Sayeed A, Garcia V, Krishn SR, Shields CD, Sarker S, Friedman A, McCue P, Molugu SK, Rodeck U, Dicker AP, Languino LR.
PMID: 30981115
iScience. 2019 Apr 26;14:199-209. doi: 10.1016/j.isci.2019.03.022. Epub 2019 Mar 27.

The β1 integrins, known to promote cancer progression, are abundant in extracellular vesicles (EVs). We investigated whether prostate cancer (PrCa) EVs affect anchorage-independent growth and whether β1 integrins are required for this effect. Specifically using a cell-line-based genetic rescue...

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DeRita RM, Sayeed A, Garcia V, et al. Tumor-Derived Extracellular Vesicles Require β1 Integrins to Promote Anchorage-Independent Growth. iScience. 2019;14:199-209doi: 10.1016/j.isci.2019.03.022.
DeRita, R. M., Sayeed, A., Garcia, V., Krishn, S. R., Shields, C. D., Sarker, S., Friedman, A., McCue, P., Molugu, S. K., Rodeck, U., Dicker, A. P., & Languino, L. R. (2019). Tumor-Derived Extracellular Vesicles Require β1 Integrins to Promote Anchorage-Independent Growth. iScience, 14199-209. https://doi.org/10.1016/j.isci.2019.03.022
DeRita, Rachel M, et al. "Tumor-Derived Extracellular Vesicles Require β1 Integrins to Promote Anchorage-Independent Growth." iScience vol. 14 (2019): 199-209. doi: https://doi.org/10.1016/j.isci.2019.03.022
DeRita RM, Sayeed A, Garcia V, Krishn SR, Shields CD, Sarker S, Friedman A, McCue P, Molugu SK, Rodeck U, Dicker AP, Languino LR. Tumor-Derived Extracellular Vesicles Require β1 Integrins to Promote Anchorage-Independent Growth. iScience. 2019 Apr 26;14:199-209. doi: 10.1016/j.isci.2019.03.022. Epub 2019 Mar 27. PMID: 30981115; PMCID: PMC6461598.
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Methods for extracellular vesicle isolation from cancer cells.

Cancer drug resistance (Alhambra, Calif.)

Salem I, Naranjo NM, Singh A, DeRita R, Krishn SR, Sirman LS, Quaglia F, Duffy A, Bowler N, Sayeed A, Languino LR.
PMID: 33062957
Cancer Drug Resist. 2020;3:371-384. doi: 10.20517/cdr.2019.118. Epub 2020 Apr 25.

Cells are known to release different types of vesicles such as small extracellular vesicles (sEVs) and large extracellular vesicles (LEVs). sEVs and LEVs play important roles in intercellular communication, pre-metastatic niche formation, and disease progression; both can be detected...

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Salem I, Naranjo NM, Singh A, et al. Methods for extracellular vesicle isolation from cancer cells. Cancer Drug Resist. 2020;3:371-384doi: 10.20517/cdr.2019.118.
Salem, I., Naranjo, N. M., Singh, A., DeRita, R., Krishn, S. R., Sirman, L. S., Quaglia, F., Duffy, A., Bowler, N., Sayeed, A., & Languino, L. R. (2020). Methods for extracellular vesicle isolation from cancer cells. Cancer drug resistance (Alhambra, Calif.), 3371-384. https://doi.org/10.20517/cdr.2019.118
Salem, Israa, et al. "Methods for extracellular vesicle isolation from cancer cells." Cancer drug resistance (Alhambra, Calif.) vol. 3 (2020): 371-384. doi: https://doi.org/10.20517/cdr.2019.118
Salem I, Naranjo NM, Singh A, DeRita R, Krishn SR, Sirman LS, Quaglia F, Duffy A, Bowler N, Sayeed A, Languino LR. Methods for extracellular vesicle isolation from cancer cells. Cancer Drug Resist. 2020;3:371-384. doi: 10.20517/cdr.2019.118. Epub 2020 Apr 25. PMID: 33062957; PMCID: PMC7556721.
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The αvβ6 integrin in cancer cell-derived small extracellular vesicles enhances angiogenesis.

Journal of extracellular vesicles

Krishn SR, Salem I, Quaglia F, Naranjo NM, Agarwal E, Liu Q, Sarker S, Kopenhaver J, McCue PA, Weinreb PH, Violette SM, Altieri DC, Languino LR.
PMID: 32595914
J Extracell Vesicles. 2020 May 20;9(1):1763594. doi: 10.1080/20013078.2020.1763594. eCollection 2020.

Prostate cancer (PrCa) cells crosstalk with the tumour microenvironment by releasing small extracellular vesicles (sEVs). sEVs, as well as large extracellular vesicles (LEVs), isolated via iodixanol density gradients from PrCa cell culture media, express the epithelial-specific αvβ6 integrin, which...

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Krishn SR, Salem I, Quaglia F, et al. The αvβ6 integrin in cancer cell-derived small extracellular vesicles enhances angiogenesis. J Extracell Vesicles. 2020;9(1):1763594doi: 10.1080/20013078.2020.1763594.
Krishn, S. R., Salem, I., Quaglia, F., Naranjo, N. M., Agarwal, E., Liu, Q., Sarker, S., Kopenhaver, J., McCue, P. A., Weinreb, P. H., Violette, S. M., Altieri, D. C., & Languino, L. R. (2020). The αvβ6 integrin in cancer cell-derived small extracellular vesicles enhances angiogenesis. Journal of extracellular vesicles, 9(1), 1763594. https://doi.org/10.1080/20013078.2020.1763594
Krishn, Shiv Ram, et al. "The αvβ6 integrin in cancer cell-derived small extracellular vesicles enhances angiogenesis." Journal of extracellular vesicles vol. 9,1 (2020): 1763594. doi: https://doi.org/10.1080/20013078.2020.1763594
Krishn SR, Salem I, Quaglia F, Naranjo NM, Agarwal E, Liu Q, Sarker S, Kopenhaver J, McCue PA, Weinreb PH, Violette SM, Altieri DC, Languino LR. The αvβ6 integrin in cancer cell-derived small extracellular vesicles enhances angiogenesis. J Extracell Vesicles. 2020 May 20;9(1):1763594. doi: 10.1080/20013078.2020.1763594. eCollection 2020. PMID: 32595914; PMCID: PMC7301698.
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Molecular targets for radiation oncology in prostate cancer.

Frontiers in oncology

Wang T, Languino LR, Lian J, Stein G, Blute M, Fitzgerald TJ.
PMID: 22645712
Front Oncol. 2011 Jul 13;1:17. doi: 10.3389/fonc.2011.00017. eCollection 2011.

Recent selected developments of the molecular science of prostate cancer (PrCa) biology and radiation oncology are reviewed. We present potential targets for molecular integration treatment strategies with radiation therapy (RT), and highlight potential strategies for molecular treatment in combination...

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Wang T, Languino LR, Lian J, et al. Molecular targets for radiation oncology in prostate cancer. Front Oncol. 2011;1:17doi: 10.3389/fonc.2011.00017.
Wang, T., Languino, L. R., Lian, J., Stein, G., Blute, M., & Fitzgerald, T. J. (2011). Molecular targets for radiation oncology in prostate cancer. Frontiers in oncology, 117. https://doi.org/10.3389/fonc.2011.00017
Wang, Tao, et al. "Molecular targets for radiation oncology in prostate cancer." Frontiers in oncology vol. 1 (2011): 17. doi: https://doi.org/10.3389/fonc.2011.00017
Wang T, Languino LR, Lian J, Stein G, Blute M, Fitzgerald TJ. Molecular targets for radiation oncology in prostate cancer. Front Oncol. 2011 Jul 13;1:17. doi: 10.3389/fonc.2011.00017. eCollection 2011. PMID: 22645712; PMCID: PMC3355820.
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Minimal information for studies of extracellular vesicles 2018 (MISEV2018): a position statement of the International Society for Extracellular Vesicles and update of the MISEV2014 guidelines.

Journal of extracellular vesicles

Théry C, Witwer KW, Aikawa E, Alcaraz MJ, Anderson JD, Andriantsitohaina R, Antoniou A, Arab T, Archer F, Atkin-Smith GK, Ayre DC, Bach JM, Bachurski D, Baharvand H, Balaj L, Baldacchino S, Bauer NN, Baxter AA, Bebawy M, Beckham C, Bedina Zavec A, Benmoussa A, Berardi AC, Bergese P, Bielska E, Blenkiron C, Bobis-Wozowicz S, Boilard E, Boireau W, Bongiovanni A, Borràs FE, Bosch S, Boulanger CM, Breakefield X, Breglio AM, Brennan MÁ, Brigstock DR, Brisson A, Broekman ML, Bromberg JF, Bryl-Górecka P, Buch S, Buck AH, Burger D, Busatto S, Buschmann D, Bussolati B, Buzás EI, Byrd JB, Camussi G, Carter DR, Caruso S, Chamley LW, Chang YT, Chen C, Chen S, Cheng L, Chin AR, Clayton A, Clerici SP, Cocks A, Cocucci E, Coffey RJ, Cordeiro-da-Silva A, Couch Y, Coumans FA, Coyle B, Crescitelli R, Criado MF, D'Souza-Schorey C, Das S, Datta Chaudhuri A, de Candia P, De Santana EF, De Wever O, Del Portillo HA, Demaret T, Deville S, Devitt A, Dhondt B, Di Vizio D, Dieterich LC, Dolo V, Dominguez Rubio AP, Dominici M, Dourado MR, Driedonks TA, Duarte FV, Duncan HM, Eichenberger RM, Ekström K, El Andaloussi S, Elie-Caille C, Erdbrügger U, Falcón-Pérez JM, Fatima F, Fish JE, Flores-Bellver M, Försönits A, Frelet-Barrand A, Fricke F, Fuhrmann G, Gabrielsson S, Gámez-Valero A, Gardiner C, Gärtner K, Gaudin R, Gho YS, Giebel B, Gilbert C, Gimona M, Giusti I, Goberdhan DC, Görgens A, Gorski SM, Greening DW, Gross JC, Gualerzi A, Gupta GN, Gustafson D, Handberg A, Haraszti RA, Harrison P, Hegyesi H, Hendrix A, Hill AF, Hochberg FH, Hoffmann KF, Holder B, Holthofer H, Hosseinkhani B, Hu G, Huang Y, Huber V, Hunt S, Ibrahim AG, Ikezu T, Inal JM, Isin M, Ivanova A, Jackson HK, Jacobsen S, Jay SM, Jayachandran M, Jenster G, Jiang L, Johnson SM, Jones JC, Jong A, Jovanovic-Talisman T, Jung S, Kalluri R, Kano SI, Kaur S, Kawamura Y, Keller ET, Khamari D, Khomyakova E, Khvorova A, Kierulf P, Kim KP, Kislinger T, Klingeborn M, Klinke DJ, Kornek M, Kosanović MM, Kovács ÁF, Krämer-Albers EM, Krasemann S, Krause M, Kurochkin IV, Kusuma GD, Kuypers S, Laitinen S, Langevin SM, Languino LR, Lannigan J, Lässer C, Laurent LC, Lavieu G, Lázaro-Ibáñez E, Le Lay S, Lee MS, Lee YXF, Lemos DS, Lenassi M, Leszczynska A, Li IT, Liao K, Libregts SF, Ligeti E, Lim R, Lim SK, Linē A, Linnemannstöns K, Llorente A, Lombard CA, Lorenowicz MJ, Lörincz ÁM, Lötvall J, Lovett J, Lowry MC, Loyer X, Lu Q, Lukomska B, Lunavat TR, Maas SL, Malhi H, Marcilla A, Mariani J, Mariscal J, Martens-Uzunova ES, Martin-Jaular L, Martinez MC, Martins VR, Mathieu M, Mathivanan S, Maugeri M, McGinnis LK, McVey MJ, Meckes DG, Meehan KL, Mertens I, Minciacchi VR, Möller A, Møller Jørgensen M, Morales-Kastresana A, Morhayim J, Mullier F, Muraca M, Musante L, Mussack V, Muth DC, Myburgh KH, Najrana T, Nawaz M, Nazarenko I, Nejsum P, Neri C, Neri T, Nieuwland R, Nimrichter L, Nolan JP, Nolte-'t Hoen EN, Noren Hooten N, O'Driscoll L, O'Grady T, O'Loghlen A, Ochiya T, Olivier M, Ortiz A, Ortiz LA, Osteikoetxea X, Østergaard O, Ostrowski M, Park J, Pegtel DM, Peinado H, Perut F, Pfaffl MW, Phinney DG, Pieters BC, Pink RC, Pisetsky DS, Pogge von Strandmann E, Polakovicova I, Poon IK, Powell BH, Prada I, Pulliam L, Quesenberry P, Radeghieri A, Raffai RL, Raimondo S, Rak J, Ramirez MI, Raposo G, Rayyan MS, Regev-Rudzki N, Ricklefs FL, Robbins PD, Roberts DD, Rodrigues SC, Rohde E, Rome S, Rouschop KM, Rughetti A, Russell AE, Saá P, Sahoo S, Salas-Huenuleo E, Sánchez C, Saugstad JA, Saul MJ, Schiffelers RM, Schneider R, Schøyen TH, Scott A, Shahaj E, Sharma S, Shatnyeva O, Shekari F, Shelke GV, Shetty AK, Shiba K, Siljander PR, Silva AM, Skowronek A, Snyder OL, Soares RP, Sódar BW, Soekmadji C, Sotillo J, Stahl PD, Stoorvogel W, Stott SL, Strasser EF, Swift S, Tahara H, Tewari M, Timms K, Tiwari S, Tixeira R, Tkach M, Toh WS, Tomasini R, Torrecilhas AC, Tosar JP, Toxavidis V, Urbanelli L, Vader P, van Balkom BW, van der Grein SG, Van Deun J, van Herwijnen MJ, Van Keuren-Jensen K, van Niel G, van Royen ME, van Wijnen AJ, Vasconcelos MH, Vechetti IJ, Veit TD, Vella LJ, Velot É, Verweij FJ, Vestad B, Viñas JL, Visnovitz T, Vukman KV, Wahlgren J, Watson DC, Wauben MH, Weaver A, Webber JP, Weber V, Wehman AM, Weiss DJ, Welsh JA, Wendt S, Wheelock AM, Wiener Z, Witte L, Wolfram J, Xagorari A, Xander P, Xu J, Yan X, Yáñez-Mó M, Yin H, Yuana Y, Zappulli V, Zarubova J, Žėkas V, Zhang JY, Zhao Z, Zheng L, Zheutlin AR, Zickler AM, Zimmermann P, Zivkovic AM, Zocco D, Zuba-Surma EK.
PMID: 30637094
J Extracell Vesicles. 2018 Nov 23;7(1):1535750. doi: 10.1080/20013078.2018.1535750. eCollection 2018.

The last decade has seen a sharp increase in the number of scientific publications describing physiological and pathological functions of extracellular vesicles (EVs), a collective term covering various subtypes of cell-released, membranous structures, called exosomes, microvesicles, microparticles, ectosomes, oncosomes,...

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Théry C, Witwer KW, Aikawa E, et al. Minimal information for studies of extracellular vesicles 2018 (MISEV2018): a position statement of the International Society for Extracellular Vesicles and update of the MISEV2014 guidelines. J Extracell Vesicles. 2018;7(1):1535750doi: 10.1080/20013078.2018.1535750.
Théry, C., Witwer, K. W., Aikawa, E., Alcaraz, M. J., Anderson, J. D., Andriantsitohaina, R., Antoniou, A., Arab, T., Archer, F., Atkin-Smith, G. K., Ayre, D. C., Bach, J. M., Bachurski, D., Baharvand, H., Balaj, L., Baldacchino, S., Bauer, N. N., Baxter, A. A., Bebawy, M., Beckham, C., Bedina Zavec, A., Benmoussa, A., Berardi, A. C., Bergese, P., Bielska, E., Blenkiron, C., Bobis-Wozowicz, S., Boilard, E., Boireau, W., Bongiovanni, A., Borràs, F. E., Bosch, S., Boulanger, C. M., Breakefield, X., Breglio, A. M., Brennan, M. �. �., Brigstock, D. R., Brisson, A., Broekman, M. L., Bromberg, J. F., Bryl-Górecka, P., Buch, S., Buck, A. H., Burger, D., Busatto, S., Buschmann, D., Bussolati, B., Buzás, E. I., Byrd, J. B., Camussi, G., Carter, D. R., Caruso, S., Chamley, L. W., Chang, Y. T., Chen, C., Chen, S., Cheng, L., Chin, A. R., Clayton, A., Clerici, S. P., Cocks, A., Cocucci, E., Coffey, R. J., Cordeiro-da-Silva, A., Couch, Y., Coumans, F. A., Coyle, B., Crescitelli, R., Criado, M. F., D'Souza-Schorey, C., Das, S., Datta Chaudhuri, A., de Candia, P., De Santana, E. F., De Wever, O., Del Portillo, H. A., Demaret, T., Deville, S., Devitt, A., Dhondt, B., Di Vizio, D., Dieterich, L. C., Dolo, V., Dominguez Rubio, A. P., Dominici, M., Dourado, M. R., Driedonks, T. A., Duarte, F. V., Duncan, H. M., Eichenberger, R. M., Ekström, K., El Andaloussi, S., Elie-Caille, C., Erdbrügger, U., Falcón-Pérez, J. M., Fatima, F., Fish, J. E., Flores-Bellver, M., Försönits, A., Frelet-Barrand, A., Fricke, F., Fuhrmann, G., Gabrielsson, S., Gámez-Valero, A., Gardiner, C., Gärtner, K., Gaudin, R., Gho, Y. S., Giebel, B., Gilbert, C., Gimona, M., Giusti, I., Goberdhan, D. C., Görgens, A., Gorski, S. M., Greening, D. W., Gross, J. C., Gualerzi, A., Gupta, G. N., Gustafson, D., Handberg, A., Haraszti, R. A., Harrison, P., Hegyesi, H., Hendrix, A., Hill, A. F., Hochberg, F. H., Hoffmann, K. F., Holder, B., Holthofer, H., Hosseinkhani, B., Hu, G., Huang, Y., Huber, V., Hunt, S., Ibrahim, A. G., Ikezu, T., Inal, J. M., Isin, M., Ivanova, A., Jackson, H. K., Jacobsen, S., Jay, S. M., Jayachandran, M., Jenster, G., Jiang, L., Johnson, S. M., Jones, J. C., Jong, A., Jovanovic-Talisman, T., Jung, S., Kalluri, R., Kano, S. I., Kaur, S., Kawamura, Y., Keller, E. T., Khamari, D., Khomyakova, E., Khvorova, A., Kierulf, P., Kim, K. P., Kislinger, T., Klingeborn, M., Klinke, D. J., Kornek, M., Kosanović, M. M., Kovács, �. �. F., Krämer-Albers, E. M., Krasemann, S., Krause, M., Kurochkin, I. V., Kusuma, G. D., Kuypers, S., Laitinen, S., Langevin, S. M., Languino, L. R., Lannigan, J., Lässer, C., Laurent, L. C., Lavieu, G., Lázaro-Ibáñez, E., Le Lay, S., Lee, M. S., Lee, Y. X. F., Lemos, D. S., Lenassi, M., Leszczynska, A., Li, I. T., Liao, K., Libregts, S. F., Ligeti, E., Lim, R., Lim, S. K., Linē, A., Linnemannstöns, K., Llorente, A., Lombard, C. A., Lorenowicz, M. J., Lörincz, �. �. M., Lötvall, J., Lovett, J., Lowry, M. C., Loyer, X., Lu, Q., Lukomska, B., Lunavat, T. R., Maas, S. L., Malhi, H., Marcilla, A., Mariani, J., Mariscal, J., Martens-Uzunova, E. S., Martin-Jaular, L., Martinez, M. C., Martins, V. R., Mathieu, M., Mathivanan, S., Maugeri, M., McGinnis, L. K., McVey, M. J., Meckes, D. G., Meehan, K. L., Mertens, I., Minciacchi, V. R., Möller, A., Møller Jørgensen, M., Morales-Kastresana, A., Morhayim, J., Mullier, F., Muraca, M., Musante, L., Mussack, V., Muth, D. C., Myburgh, K. H., Najrana, T., Nawaz, M., Nazarenko, I., Nejsum, P., Neri, C., Neri, T., Nieuwland, R., Nimrichter, L., Nolan, J. P., Nolte-'t Hoen, E. N., Noren Hooten, N., O'Driscoll, L., O'Grady, T., O'Loghlen, A., Ochiya, T., Olivier, M., Ortiz, A., Ortiz, L. A., Osteikoetxea, X., Østergaard, O., Ostrowski, M., Park, J., Pegtel, D. M., Peinado, H., Perut, F., Pfaffl, M. W., Phinney, D. G., Pieters, B. C., Pink, R. C., Pisetsky, D. S., Pogge von Strandmann, E., Polakovicova, I., Poon, I. K., Powell, B. H., Prada, I., Pulliam, L., Quesenberry, P., Radeghieri, A., Raffai, R. L., Raimondo, S., Rak, J., Ramirez, M. I., Raposo, G., Rayyan, M. S., Regev-Rudzki, N., Ricklefs, F. L., Robbins, P. D., Roberts, D. D., Rodrigues, S. C., Rohde, E., Rome, S., Rouschop, K. M., Rughetti, A., Russell, A. E., Saá, P., Sahoo, S., Salas-Huenuleo, E., Sánchez, C., Saugstad, J. A., Saul, M. J., Schiffelers, R. M., Schneider, R., Schøyen, T. H., Scott, A., Shahaj, E., Sharma, S., Shatnyeva, O., Shekari, F., Shelke, G. V., Shetty, A. K., Shiba, K., Siljander, P. R., Silva, A. M., Skowronek, A., Snyder, O. L., Soares, R. P., Sódar, B. W., Soekmadji, C., Sotillo, J., Stahl, P. D., Stoorvogel, W., Stott, S. L., Strasser, E. F., Swift, S., Tahara, H., Tewari, M., Timms, K., Tiwari, S., Tixeira, R., Tkach, M., Toh, W. S., Tomasini, R., Torrecilhas, A. C., Tosar, J. P., Toxavidis, V., Urbanelli, L., Vader, P., van Balkom, B. W., van der Grein, S. G., Van Deun, J., van Herwijnen, M. J., Van Keuren-Jensen, K., van Niel, G., van Royen, M. E., van Wijnen, A. J., Vasconcelos, M. H., Vechetti, I. J., Veit, T. D., Vella, L. J., Velot, �. �., Verweij, F. J., Vestad, B., Viñas, J. L., Visnovitz, T., Vukman, K. V., Wahlgren, J., Watson, D. C., Wauben, M. H., Weaver, A., Webber, J. P., Weber, V., Wehman, A. M., Weiss, D. J., Welsh, J. A., Wendt, S., Wheelock, A. M., Wiener, Z., Witte, L., Wolfram, J., Xagorari, A., Xander, P., Xu, J., Yan, X., Yáñez-Mó, M., Yin, H., Yuana, Y., Zappulli, V., Zarubova, J., Žėkas, V., Zhang, J. Y., Zhao, Z., Zheng, L., Zheutlin, A. R., Zickler, A. M., Zimmermann, P., Zivkovic, A. M., Zocco, D., & Zuba-Surma, E. K. (2018). Minimal information for studies of extracellular vesicles 2018 (MISEV2018): a position statement of the International Society for Extracellular Vesicles and update of the MISEV2014 guidelines. Journal of extracellular vesicles, 7(1), 1535750. https://doi.org/10.1080/20013078.2018.1535750
Théry, Clotilde, et al. "Minimal information for studies of extracellular vesicles 2018 (MISEV2018): a position statement of the International Society for Extracellular Vesicles and update of the MISEV2014 guidelines." Journal of extracellular vesicles vol. 7,1 (2018): 1535750. doi: https://doi.org/10.1080/20013078.2018.1535750
Théry C, Witwer KW, Aikawa E, Alcaraz MJ, Anderson JD, Andriantsitohaina R, Antoniou A, Arab T, Archer F, Atkin-Smith GK, Ayre DC, Bach JM, Bachurski D, Baharvand H, Balaj L, Baldacchino S, Bauer NN, Baxter AA, Bebawy M, Beckham C, Bedina Zavec A, Benmoussa A, Berardi AC, Bergese P, Bielska E, Blenkiron C, Bobis-Wozowicz S, Boilard E, Boireau W, Bongiovanni A, Borràs FE, Bosch S, Boulanger CM, Breakefield X, Breglio AM, Brennan MÁ, Brigstock DR, Brisson A, Broekman ML, Bromberg JF, Bryl-Górecka P, Buch S, Buck AH, Burger D, Busatto S, Buschmann D, Bussolati B, Buzás EI, Byrd JB, Camussi G, Carter DR, Caruso S, Chamley LW, Chang YT, Chen C, Chen S, Cheng L, Chin AR, Clayton A, Clerici SP, Cocks A, Cocucci E, Coffey RJ, Cordeiro-da-Silva A, Couch Y, Coumans FA, Coyle B, Crescitelli R, Criado MF, D'Souza-Schorey C, Das S, Datta Chaudhuri A, de Candia P, De Santana EF, De Wever O, Del Portillo HA, Demaret T, Deville S, Devitt A, Dhondt B, Di Vizio D, Dieterich LC, Dolo V, Dominguez Rubio AP, Dominici M, Dourado MR, Driedonks TA, Duarte FV, Duncan HM, Eichenberger RM, Ekström K, El Andaloussi S, Elie-Caille C, Erdbrügger U, Falcón-Pérez JM, Fatima F, Fish JE, Flores-Bellver M, Försönits A, Frelet-Barrand A, Fricke F, Fuhrmann G, Gabrielsson S, Gámez-Valero A, Gardiner C, Gärtner K, Gaudin R, Gho YS, Giebel B, Gilbert C, Gimona M, Giusti I, Goberdhan DC, Görgens A, Gorski SM, Greening DW, Gross JC, Gualerzi A, Gupta GN, Gustafson D, Handberg A, Haraszti RA, Harrison P, Hegyesi H, Hendrix A, Hill AF, Hochberg FH, Hoffmann KF, Holder B, Holthofer H, Hosseinkhani B, Hu G, Huang Y, Huber V, Hunt S, Ibrahim AG, Ikezu T, Inal JM, Isin M, Ivanova A, Jackson HK, Jacobsen S, Jay SM, Jayachandran M, Jenster G, Jiang L, Johnson SM, Jones JC, Jong A, Jovanovic-Talisman T, Jung S, Kalluri R, Kano SI, Kaur S, Kawamura Y, Keller ET, Khamari D, Khomyakova E, Khvorova A, Kierulf P, Kim KP, Kislinger T, Klingeborn M, Klinke DJ, Kornek M, Kosanović MM, Kovács ÁF, Krämer-Albers EM, Krasemann S, Krause M, Kurochkin IV, Kusuma GD, Kuypers S, Laitinen S, Langevin SM, Languino LR, Lannigan J, Lässer C, Laurent LC, Lavieu G, Lázaro-Ibáñez E, Le Lay S, Lee MS, Lee YXF, Lemos DS, Lenassi M, Leszczynska A, Li IT, Liao K, Libregts SF, Ligeti E, Lim R, Lim SK, Linē A, Linnemannstöns K, Llorente A, Lombard CA, Lorenowicz MJ, Lörincz ÁM, Lötvall J, Lovett J, Lowry MC, Loyer X, Lu Q, Lukomska B, Lunavat TR, Maas SL, Malhi H, Marcilla A, Mariani J, Mariscal J, Martens-Uzunova ES, Martin-Jaular L, Martinez MC, Martins VR, Mathieu M, Mathivanan S, Maugeri M, McGinnis LK, McVey MJ, Meckes DG, Meehan KL, Mertens I, Minciacchi VR, Möller A, Møller Jørgensen M, Morales-Kastresana A, Morhayim J, Mullier F, Muraca M, Musante L, Mussack V, Muth DC, Myburgh KH, Najrana T, Nawaz M, Nazarenko I, Nejsum P, Neri C, Neri T, Nieuwland R, Nimrichter L, Nolan JP, Nolte-'t Hoen EN, Noren Hooten N, O'Driscoll L, O'Grady T, O'Loghlen A, Ochiya T, Olivier M, Ortiz A, Ortiz LA, Osteikoetxea X, Østergaard O, Ostrowski M, Park J, Pegtel DM, Peinado H, Perut F, Pfaffl MW, Phinney DG, Pieters BC, Pink RC, Pisetsky DS, Pogge von Strandmann E, Polakovicova I, Poon IK, Powell BH, Prada I, Pulliam L, Quesenberry P, Radeghieri A, Raffai RL, Raimondo S, Rak J, Ramirez MI, Raposo G, Rayyan MS, Regev-Rudzki N, Ricklefs FL, Robbins PD, Roberts DD, Rodrigues SC, Rohde E, Rome S, Rouschop KM, Rughetti A, Russell AE, Saá P, Sahoo S, Salas-Huenuleo E, Sánchez C, Saugstad JA, Saul MJ, Schiffelers RM, Schneider R, Schøyen TH, Scott A, Shahaj E, Sharma S, Shatnyeva O, Shekari F, Shelke GV, Shetty AK, Shiba K, Siljander PR, Silva AM, Skowronek A, Snyder OL, Soares RP, Sódar BW, Soekmadji C, Sotillo J, Stahl PD, Stoorvogel W, Stott SL, Strasser EF, Swift S, Tahara H, Tewari M, Timms K, Tiwari S, Tixeira R, Tkach M, Toh WS, Tomasini R, Torrecilhas AC, Tosar JP, Toxavidis V, Urbanelli L, Vader P, van Balkom BW, van der Grein SG, Van Deun J, van Herwijnen MJ, Van Keuren-Jensen K, van Niel G, van Royen ME, van Wijnen AJ, Vasconcelos MH, Vechetti IJ, Veit TD, Vella LJ, Velot É, Verweij FJ, Vestad B, Viñas JL, Visnovitz T, Vukman KV, Wahlgren J, Watson DC, Wauben MH, Weaver A, Webber JP, Weber V, Wehman AM, Weiss DJ, Welsh JA, Wendt S, Wheelock AM, Wiener Z, Witte L, Wolfram J, Xagorari A, Xander P, Xu J, Yan X, Yáñez-Mó M, Yin H, Yuana Y, Zappulli V, Zarubova J, Žėkas V, Zhang JY, Zhao Z, Zheng L, Zheutlin AR, Zickler AM, Zimmermann P, Zivkovic AM, Zocco D, Zuba-Surma EK. Minimal information for studies of extracellular vesicles 2018 (MISEV2018): a position statement of the International Society for Extracellular Vesicles and update of the MISEV2014 guidelines. J Extracell Vesicles. 2018 Nov 23;7(1):1535750. doi: 10.1080/20013078.2018.1535750. eCollection 2018. PMID: 30637094; PMCID: PMC6322352.
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Evaluation of drug combination effect using a Bliss independence dose-response surface model.

Statistics in biopharmaceutical research

Liu Q, Yin X, Languino LR, Altieri DC.
PMID: 30881603
Stat Biopharm Res. 2018;10(2):112-122. doi: 10.1080/19466315.2018.1437071. Epub 2018 Feb 13.

To test the anticancer effect of combining two drugs targeting different biological pathways, the popular way to show synergistic effect of drug combination is a heat map or surface plot based on the percent excess the Bliss prediction using...

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Liu Q, Yin X, Languino LR, et al. Evaluation of drug combination effect using a Bliss independence dose-response surface model. Stat Biopharm Res. 2018;10(2):112-122doi: 10.1080/19466315.2018.1437071.
Liu, Q., Yin, X., Languino, L. R., & Altieri, D. C. (2018). Evaluation of drug combination effect using a Bliss independence dose-response surface model. Statistics in biopharmaceutical research, 10(2), 112-122. https://doi.org/10.1080/19466315.2018.1437071
Liu, Qin, et al. "Evaluation of drug combination effect using a Bliss independence dose-response surface model." Statistics in biopharmaceutical research vol. 10,2 (2018): 112-122. doi: https://doi.org/10.1080/19466315.2018.1437071
Liu Q, Yin X, Languino LR, Altieri DC. Evaluation of drug combination effect using a Bliss independence dose-response surface model. Stat Biopharm Res. 2018;10(2):112-122. doi: 10.1080/19466315.2018.1437071. Epub 2018 Feb 13. PMID: 30881603; PMCID: PMC6415926.
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A Mitochondrial-targeted purine-based HSP90 antagonist for leukemia therapy.

Oncotarget

Bryant KG, Chae YC, Martinez RL, Gordon JC, Elokely KM, Kossenkov AV, Grant S, Childers WE, Abou-Gharbia M, Altieri DC.
PMID: 29348817
Oncotarget. 2017 Dec 11;8(68):112184-112198. doi: 10.18632/oncotarget.23097. eCollection 2017 Dec 22.

Reprogramming of mitochondrial functions sustains tumor growth and may provide therapeutic opportunities. Here, we targeted the protein folding environment in mitochondria by coupling a purine-based inhibitor of the molecular chaperone Heat Shock Protein-90 (Hsp90), PU-H71 to the mitochondrial-targeting moiety,...

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Bryant KG, Chae YC, Martinez RL, et al. A Mitochondrial-targeted purine-based HSP90 antagonist for leukemia therapy. Oncotarget. 2017;8(68):112184-112198doi: 10.18632/oncotarget.23097.
Bryant, K. G., Chae, Y. C., Martinez, R. L., Gordon, J. C., Elokely, K. M., Kossenkov, A. V., Grant, S., Childers, W. E., Abou-Gharbia, M., & Altieri, D. C. (2017). A Mitochondrial-targeted purine-based HSP90 antagonist for leukemia therapy. Oncotarget, 8(68), 112184-112198. https://doi.org/10.18632/oncotarget.23097
Bryant, Kelly G, et al. "A Mitochondrial-targeted purine-based HSP90 antagonist for leukemia therapy." Oncotarget vol. 8,68 (2017): 112184-112198. doi: https://doi.org/10.18632/oncotarget.23097
Bryant KG, Chae YC, Martinez RL, Gordon JC, Elokely KM, Kossenkov AV, Grant S, Childers WE, Abou-Gharbia M, Altieri DC. A Mitochondrial-targeted purine-based HSP90 antagonist for leukemia therapy. Oncotarget. 2017 Dec 11;8(68):112184-112198. doi: 10.18632/oncotarget.23097. eCollection 2017 Dec 22. PMID: 29348817; PMCID: PMC5762502.
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Small extracellular vesicles modulated by αVβ3 integrin induce neuroendocrine differentiation in recipient cancer cells.

Journal of extracellular vesicles

Quaglia F, Krishn SR, Daaboul GG, Sarker S, Pippa R, Domingo-Domenech J, Kumar G, Fortina P, McCue P, Kelly WK, Beltran H, Liu Q, Languino LR.
PMID: 32922691
J Extracell Vesicles. 2020 May 24;9(1):1761072. doi: 10.1080/20013078.2020.1761072.

The ability of small extracellular vesicles (sEVs) to reprogram cancer cells is well established. However, the specific sEV components able to mediate aberrant effects in cancer cells have not been characterized. Integrins are major players in mediating sEV functions....

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Quaglia F, Krishn SR, Daaboul GG, et al. Small extracellular vesicles modulated by αVβ3 integrin induce neuroendocrine differentiation in recipient cancer cells. J Extracell Vesicles. 2020;9(1):1761072doi: 10.1080/20013078.2020.1761072.
Quaglia, F., Krishn, S. R., Daaboul, G. G., Sarker, S., Pippa, R., Domingo-Domenech, J., Kumar, G., Fortina, P., McCue, P., Kelly, W. K., Beltran, H., Liu, Q., & Languino, L. R. (2020). Small extracellular vesicles modulated by αVβ3 integrin induce neuroendocrine differentiation in recipient cancer cells. Journal of extracellular vesicles, 9(1), 1761072. https://doi.org/10.1080/20013078.2020.1761072
Quaglia, Fabio, et al. "Small extracellular vesicles modulated by αVβ3 integrin induce neuroendocrine differentiation in recipient cancer cells." Journal of extracellular vesicles vol. 9,1 (2020): 1761072. doi: https://doi.org/10.1080/20013078.2020.1761072
Quaglia F, Krishn SR, Daaboul GG, Sarker S, Pippa R, Domingo-Domenech J, Kumar G, Fortina P, McCue P, Kelly WK, Beltran H, Liu Q, Languino LR. Small extracellular vesicles modulated by αVβ3 integrin induce neuroendocrine differentiation in recipient cancer cells. J Extracell Vesicles. 2020 May 24;9(1):1761072. doi: 10.1080/20013078.2020.1761072. PMID: 32922691; PMCID: PMC7448905.
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Exosome-mediated transfer from the tumor microenvironment increases TGFβ signaling in squamous cell carcinoma.

American journal of translational research

Languino LR, Singh A, Prisco M, Inman GJ, Luginbuhl A, Curry JM, South AP.
PMID: 27347352
Am J Transl Res. 2016 May 15;8(5):2432-7. eCollection 2016.

Transforming growth factor-beta (TGFβ) signaling in cancer is context dependent and acts either as a tumor suppressor or a tumor promoter. Loss of function mutation in TGFβ type II receptor (TβRII) is a frequent event in oral cavity squamous...

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Languino LR, Singh A, Prisco M, et al. Exosome-mediated transfer from the tumor microenvironment increases TGFβ signaling in squamous cell carcinoma. Am J Transl Res. 2016;8(5):2432-7
Languino, L. R., Singh, A., Prisco, M., Inman, G. J., Luginbuhl, A., Curry, J. M., & South, A. P. (2016). Exosome-mediated transfer from the tumor microenvironment increases TGFβ signaling in squamous cell carcinoma. American journal of translational research, 8(5), 2432-7.
Languino, Lucia R, et al. "Exosome-mediated transfer from the tumor microenvironment increases TGFβ signaling in squamous cell carcinoma." American journal of translational research vol. 8,5 (2016): 2432-7.
Languino LR, Singh A, Prisco M, Inman GJ, Luginbuhl A, Curry JM, South AP. Exosome-mediated transfer from the tumor microenvironment increases TGFβ signaling in squamous cell carcinoma. Am J Transl Res. 2016 May 15;8(5):2432-7. eCollection 2016. PMID: 27347352; PMCID: PMC4891457.
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