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6. Striated preferentially expressed gene deficiency leads to mitochondrial dysfunction in developing cardiomyocytes

Author

Li, Gu, primary, Huang, He, additional, Wu, Yanshuang, additional, Shu, Chang, additional, Hwang, Narae, additional, Li, Qifei, additional, Zhao, Rose, additional, Lam, Hilaire C., additional, Oldham, William M., additional, EI-Chemaly, Souheil, additional, Agrawal, Pankaj B., additional, Tian, Jie, additional, Liu, Xiaoli, additional, and Perrella, Mark A., additional

Published
2023
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14. Supplementary Table S1 from p62/SQSTM1 Cooperates with Hyperactive mTORC1 to Regulate Glutathione Production, Maintain Mitochondrial Integrity, and Promote Tumorigenesis

Author

Lam, Hilaire C., primary, Baglini, Christian V., primary, Lope, Alicia Llorente, primary, Parkhitko, Andrey A., primary, Liu, Heng-Jia, primary, Alesi, Nicola, primary, Malinowska, Izabela A., primary, Ebrahimi-Fakhari, Darius, primary, Saffari, Afshin, primary, Yu, Jane J., primary, Pereira, Ana, primary, Khabibullin, Damir, primary, Ogorek, Barbara, primary, Nijmeh, Julie, primary, Kavanagh, Taylor, primary, Handen, Adam, primary, Chan, Stephen Y., primary, Asara, John M., primary, Oldham, William M., primary, Diaz-Meco, Maria T., primary, Moscat, Jorge, primary, Sahin, Mustafa, primary, Priolo, Carmen, primary, and Henske, Elizabeth P., primary

Published
2023
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15. Raw data for Supplementary Table 1 and 2 from p62/SQSTM1 Cooperates with Hyperactive mTORC1 to Regulate Glutathione Production, Maintain Mitochondrial Integrity, and Promote Tumorigenesis

Author

Lam, Hilaire C., primary, Baglini, Christian V., primary, Lope, Alicia Llorente, primary, Parkhitko, Andrey A., primary, Liu, Heng-Jia, primary, Alesi, Nicola, primary, Malinowska, Izabela A., primary, Ebrahimi-Fakhari, Darius, primary, Saffari, Afshin, primary, Yu, Jane J., primary, Pereira, Ana, primary, Khabibullin, Damir, primary, Ogorek, Barbara, primary, Nijmeh, Julie, primary, Kavanagh, Taylor, primary, Handen, Adam, primary, Chan, Stephen Y., primary, Asara, John M., primary, Oldham, William M., primary, Diaz-Meco, Maria T., primary, Moscat, Jorge, primary, Sahin, Mustafa, primary, Priolo, Carmen, primary, and Henske, Elizabeth P., primary

Published
2023
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16. Figure S4 from p62/SQSTM1 Cooperates with Hyperactive mTORC1 to Regulate Glutathione Production, Maintain Mitochondrial Integrity, and Promote Tumorigenesis

Author

Lam, Hilaire C., primary, Baglini, Christian V., primary, Lope, Alicia Llorente, primary, Parkhitko, Andrey A., primary, Liu, Heng-Jia, primary, Alesi, Nicola, primary, Malinowska, Izabela A., primary, Ebrahimi-Fakhari, Darius, primary, Saffari, Afshin, primary, Yu, Jane J., primary, Pereira, Ana, primary, Khabibullin, Damir, primary, Ogorek, Barbara, primary, Nijmeh, Julie, primary, Kavanagh, Taylor, primary, Handen, Adam, primary, Chan, Stephen Y., primary, Asara, John M., primary, Oldham, William M., primary, Diaz-Meco, Maria T., primary, Moscat, Jorge, primary, Sahin, Mustafa, primary, Priolo, Carmen, primary, and Henske, Elizabeth P., primary

Published
2023
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17. Supplementary Materials and Methods from p62/SQSTM1 Cooperates with Hyperactive mTORC1 to Regulate Glutathione Production, Maintain Mitochondrial Integrity, and Promote Tumorigenesis

Author

Lam, Hilaire C., primary, Baglini, Christian V., primary, Lope, Alicia Llorente, primary, Parkhitko, Andrey A., primary, Liu, Heng-Jia, primary, Alesi, Nicola, primary, Malinowska, Izabela A., primary, Ebrahimi-Fakhari, Darius, primary, Saffari, Afshin, primary, Yu, Jane J., primary, Pereira, Ana, primary, Khabibullin, Damir, primary, Ogorek, Barbara, primary, Nijmeh, Julie, primary, Kavanagh, Taylor, primary, Handen, Adam, primary, Chan, Stephen Y., primary, Asara, John M., primary, Oldham, William M., primary, Diaz-Meco, Maria T., primary, Moscat, Jorge, primary, Sahin, Mustafa, primary, Priolo, Carmen, primary, and Henske, Elizabeth P., primary

Published
2023
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18. Data from p62/SQSTM1 Cooperates with Hyperactive mTORC1 to Regulate Glutathione Production, Maintain Mitochondrial Integrity, and Promote Tumorigenesis

Author

Lam, Hilaire C., primary, Baglini, Christian V., primary, Lope, Alicia Llorente, primary, Parkhitko, Andrey A., primary, Liu, Heng-Jia, primary, Alesi, Nicola, primary, Malinowska, Izabela A., primary, Ebrahimi-Fakhari, Darius, primary, Saffari, Afshin, primary, Yu, Jane J., primary, Pereira, Ana, primary, Khabibullin, Damir, primary, Ogorek, Barbara, primary, Nijmeh, Julie, primary, Kavanagh, Taylor, primary, Handen, Adam, primary, Chan, Stephen Y., primary, Asara, John M., primary, Oldham, William M., primary, Diaz-Meco, Maria T., primary, Moscat, Jorge, primary, Sahin, Mustafa, primary, Priolo, Carmen, primary, and Henske, Elizabeth P., primary

Published
2023
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19. Figure S2 from Therapeutic Targeting of DGKA-Mediated Macropinocytosis Leads to Phospholipid Reprogramming in Tuberous Sclerosis Complex

Author

Kovalenko, Andrii, primary, Sanin, Andres, primary, Kosmas, Kosmas, primary, Zhang, Long, primary, Wang, Ji, primary, Akl, Elie W., primary, Giannikou, Krinio, primary, Probst, Clemens K., primary, Hougard, Thomas R., primary, Rue, Ryan W., primary, Krymskaya, Vera P., primary, Asara, John M., primary, Lam, Hilaire C., primary, Kwiatkowski, David J., primary, Henske, Elizabeth P., primary, and Filippakis, Harilaos, primary

Published
2023
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22. Drug Inhibition of Redox Factor-1 Restores Hypoxia-Driven Changes in Tuberous Sclerosis Complex 2 Deficient Cells

Author

Champion, Jesse D., primary, Dodd, Kayleigh M., additional, Lam, Hilaire C., additional, Alzahrani, Mohammad A. M., additional, Seifan, Sara, additional, Rad, Ellie, additional, Scourfield, David Oliver, additional, Fishel, Melissa L., additional, Calver, Brian L., additional, Ager, Ann, additional, Henske, Elizabeth P., additional, Davies, David Mark, additional, Kelley, Mark R., additional, and Tee, Andrew R., additional

Published
2022
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24. Protease activity sensors enable real-time treatment response monitoring in lymphangioleiomyomatosis

Author

Koch Institute for Integrative Cancer Research at MIT, Harvard University--MIT Division of Health Sciences and Technology, Massachusetts Institute of Technology. Institute for Medical Engineering & Science, Massachusetts Institute of Technology. Department of Biological Engineering, Howard Hughes Medical Institute, Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science, Kirkpatrick, Jesse D, Soleimany, Ava P, Dudani, Jaideep S, Liu, Heng-Jia, Lam, Hilaire C, Priolo, Carmen, Henske, Elizabeth P, Bhatia, Sangeeta N, Koch Institute for Integrative Cancer Research at MIT, Harvard University--MIT Division of Health Sciences and Technology, Massachusetts Institute of Technology. Institute for Medical Engineering & Science, Massachusetts Institute of Technology. Department of Biological Engineering, Howard Hughes Medical Institute, Massachusetts Institute of Technology. Department of Electrical Engineering and Computer Science, Kirkpatrick, Jesse D, Soleimany, Ava P, Dudani, Jaideep S, Liu, Heng-Jia, Lam, Hilaire C, Priolo, Carmen, Henske, Elizabeth P, and Bhatia, Sangeeta N

Abstract

BackgroundBiomarkers of disease progression and treatment response are urgently needed for patients with lymphangioleiomyomatosis (LAM). Activity-based nanosensors, an emerging biosensor class, detect dysregulated proteases in vivo and release a reporter to provide a urinary readout of disease. Because proteases are dysregulated in LAM and may directly contribute to lung function decline, activity-based nanosensors may enable quantitative, real-time monitoring of LAM progression and treatment response. We aimed to assess the diagnostic utility of activity-based nanosensors in a pre-clinical model of pulmonary LAM.MethodsTsc2-null cells were injected intravenously into female nude mice to establish a mouse model of pulmonary LAM. A library of 14 activity-based nanosensors, designed to detect proteases across multiple catalytic classes, was administered into the lungs of LAM mice and healthy controls, urine was collected, and mass spectrometry was performed to measure nanosensor cleavage products. Mice were then treated with rapamycin and monitored with activity-based nanosensors. Machine learning was performed to distinguish diseased from healthy and treated from untreated mice.ResultsMultiple activity-based nanosensors (PP03 (cleaved by metallo, aspartic and cysteine proteases), padjusted<0.0001; PP10 (cleaved by serine, aspartic and cysteine proteases), padjusted=0.017)) were differentially cleaved in diseased and healthy lungs, enabling strong classification with a machine learning model (area under the curve (AUC) 0.95 from healthy). Within 2 days after rapamycin initiation, we observed normalisation of PP03 and PP10 cleavage, and machine learning enabled accurate classification of treatment response

Published
2022

26. Histone deacetylase 6-mediated selective autophagy regulates COPD-associated cilia dysfunction

Author

Lam, Hilaire C., Cloonan, Suzanne M., Bhashyam, Abhiram R., Haspel, Jeffery A., Singh, Anju, Sathirapongsasuti, J. Fah, Cervo, Morgan, Yao, Hongwei, Chung, Anna L., Mizumura, Kenji, An, Chang Hyeok, Shan, Bin, Franks, Jonathan M., Haley, Kathleen J., Owen, Caroline A., Tesfaigzi, Yohannes, Washko, George R., Quackenbush, John, Silverman, Edwin K., Rahman, Irfan, Kim, Hong Pyo, Mahmood, Ashfaq, Biswal, Shyam S., Ryter, Stefan W., and Choi, Augustine M.K.

Subjects
Physiological aspects, Research, Health aspects, Smoking -- Health aspects, Chronic obstructive lung disease -- Research, Epithelial cells -- Physiological aspects, Lung diseases, Obstructive -- Research
Abstract

doi:10.1172/JCI69636. Introduction Chronic obstructive pulmonary disease (COPD) contributes substantially to the global burden of disease as the fourth leading cause of morbidity and mortality worldwide (1). The pathogenesis of COPD [...], Chronic obstructive pulmonary disease (COPD) involves aberrant airway inflammatory responses to cigarette smoke (CS) that are associated with epithelial cell dysfunction, cilia shortening, and mucociliary clearance disruption. Exposure to CS reduced cilia length and induced autophagy in vivo and in differentiated mouse tracheal epithelial cells (MTECs). Autophagy-impaired ([Becn1.sup.+/-] or [Map1lc3B.sup.-/-]) mice and MTECs resisted CS-induced cilia shortening. Furthermore, CS increased the autophagic turnover of ciliary proteins, indicating that autophagy may regulate cilia homeostasis. We identified cytosolic deacetylase HDAC6 as a critical regulator of autophagy-mediated cilia shortening during CS exposure. Mice bearing an X chromosome deletion of Hdac6 ([Hdac6.sup.-/Y]) and MTECs from these mice had reduced autophagy and were protected from CS-induced cilia shortening. Autophagy-impaired [Becn1.sup.+/-], [Map1lc3B.sup.-/-], and [Hdac6.sup.-/Y] mice or mice injected with an HDAC6 inhibitor were protected from CS-induced mucociliary clearance (MCC) disruption. MCC was preserved in mice given the chemical chaperone 4-phenylbutyric acid, but was disrupted in mice lacking the transcription factor NRF2, suggesting that oxidative stress and altered proteostasis contribute to the disruption of MCC. Analysis of human COPD specimens revealed epigenetic deregulation of HDAC6 by hypomethylation and increased protein expression in the airways. We conclude that an autophagy-dependent pathway regulates cilia length during CS exposure and has potential as a therapeutic target for COPD.

Published
2013

30. mTORC1 is a mechanosensor that regulates surfactant function and lung compliance during ventilator-induced lung injury

Author

Lee, Hyunwook, primary, Fei, Qinqin, additional, Streicher, Adam, additional, Zhang, Wenjuan, additional, Isabelle, Colleen, additional, Patel, Pragi, additional, Lam, Hilaire C., additional, Arciniegas-Rubio, Antonio, additional, Pinilla-Vera, Miguel, additional, Amador-Munoz, Diana P., additional, Barragan-Bradford, Diana, additional, Higuera-Moreno, Angelica, additional, Putman, Rachel K., additional, Sholl, Lynette M., additional, Henske, Elizabeth P., additional, Bobba, Christopher M., additional, Higuita-Castro, Natalia, additional, Shalosky, Emily M., additional, Hite, R. Duncan, additional, Christman, John W., additional, Ghadiali, Samir N., additional, Baron, Rebecca M., additional, and Englert, Joshua A., additional

Published
2021
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31. Interleukin-6 mediates PSAT1 expression and serine metabolism in TSC2-deficient cells

Author

Wang, Ji, primary, Filippakis, Harilaos, additional, Hougard, Thomas, additional, Du, Heng, additional, Ye, Chenyang, additional, Liu, Heng-Jia, additional, Zhang, Long, additional, Hindi, Khadijah, additional, Bagwe, Shefali, additional, Nijmeh, Julie, additional, Asara, John M., additional, Shi, Wei, additional, El-Chemaly, Souheil, additional, Henske, Elizabeth P., additional, and Lam, Hilaire C., additional

Published
2021
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33. Hypersensitivity to ferroptosis in chromophobe RCC is mediated by a glutathione metabolic dependency and cystine import via solute carrier family 7 member 11.

Author

Long Zhang, Hobeika, Charbel S., Khabibullin, Damir, Deyang Yu, Filippakis, Harilaos, Alchoueiry, Michel, Yan Tang, Lam, Hilaire C., Tsvetkov, Peter, Georgiou, George, Lamb, Candice, Stone, Everett, Puigserver, Pere, Priolo, Carmen, and Henskea, Elizabeth P.

Subjects
CYSTINE, GLUTATHIONE, RENAL cell carcinoma, INHIBITION of cellular proliferation, ALLERGIES
Abstract

Chromophobe (Ch) renal cell carcinoma (RCC) arises from the intercalated cell in the distal nephron. There are no proven treatments for metastatic ChRCC. A distinguishing characteristic of ChRCC is strikingly high levels of reduced (GSH) and oxidized (GSSG) glutathione. Here, we demonstrate that ChRCC-derived cells exhibit higher sensitivity to ferroptotic inducers compared with clear-cell RCC. ChRCC-derived cells are critically dependent on cystine via the cystine/glutamate antiporter xCT to maintain high levels of glutathione, making them sensitive to inhibitors of cystine uptake and cyst(e)inase. Gamma-glutamyl transferase 1 (GGT1), a key enzyme in glutathione homeostasis, is markedly suppressed in ChRCC relative to normal kidney. Importantly, GGT1 overexpression inhibits the proliferation of ChRCC cells in vitro and in vivo, suppresses cystine uptake, and decreases levels of GSH and GSSG. Collectively, these data identify ferroptosis as a metabolic vulnerability in ChRCC, providing a potential avenue for targeted therapy for these distinctive tumors. [ABSTRACT FROM AUTHOR]

Published
2022
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34. Therapeutic Targeting of DGKA-Mediated Macropinocytosis Leads to Phospholipid Reprogramming in Tuberous Sclerosis Complex

Author

Kovalenko, Andrii, primary, Sanin, Andres, additional, Kosmas, Kosmas, additional, Zhang, Long, additional, Wang, Ji, additional, Akl, Elie W., additional, Giannikou, Krinio, additional, Probst, Clemens K., additional, Hougard, Thomas R., additional, Rue, Ryan W., additional, Krymskaya, Vera P., additional, Asara, John M., additional, Lam, Hilaire C., additional, Kwiatkowski, David J., additional, Henske, Elizabeth P., additional, and Filippakis, Harilaos, additional

Published
2021
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35. Correction: p62/SQSTM1 Cooperates with Hyperactive mTORC1 to Regulate Glutathione Production, Maintain Mitochondrial Integrity, and Promote Tumorigenesis

Author

Lam, Hilaire C., primary, Baglini, Christian V., additional, Lope, Alicia Llorente, additional, Parkhitko, Andrey A., additional, Liu, Heng-Jia, additional, Alesi, Nicola, additional, Malinowska, Izabela A., additional, Ebrahimi-Fakhari, Darius, additional, Saffari, Afshin, additional, Yu, Jane J., additional, Pereira, Ana, additional, Khabibullin, Damir, additional, Ogorek, Barbara, additional, Nijmeh, Julie, additional, Kavanagh, Taylor, additional, Handen, Adam, additional, Chan, Stephen Y., additional, Asara, John M., additional, Oldham, William M., additional, Diaz-Meco, Maria T., additional, Moscat, Jorge, additional, Sahin, Mustafa, additional, Priolo, Carmen, additional, and Henske, Elizabeth P., additional

Published
2020
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36. Histone deacetylase 6–mediated selective autophagy regulates COPD-associated cilia dysfunction

Author

Lam, Hilaire C., primary, Cloonan, Suzanne M., additional, Bhashyam, Abhiram R., additional, Haspel, Jeffery A., additional, Singh, Anju, additional, Sathirapongsasuti, J. Fah, additional, Cervo, Morgan, additional, Yao, Hongwei, additional, Chung, Anna L., additional, Mizumura, Kenji, additional, An, Chang Hyeok, additional, Shan, Bin, additional, Franks, Jonathan M., additional, Haley, Kathleen J., additional, Owen, Caroline A., additional, Tesfaigzi, Yohannes, additional, Washko, George R., additional, Quackenbush, John, additional, Silverman, Edwin K., additional, Rahman, Irfan, additional, Kim, Hong Pyo, additional, Mahmood, Ashfaq, additional, Biswal, Shyam S., additional, Ryter, Stefan W., additional, and Choi, Augustine M.K., additional

Published
2020
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39. Interleukin-6 mediates PSAT1 expression and serine metabolism in TSC2-deficient cells.

Author

Ji Wang, Filippakis, Harilaos, Hougard, Thomas, Heng Du, Chenyang Ye, Heng-Jia Liu, Long Zhang, Hindi, Khadijah, Bagwe, Shefali, Nijmeh, Julie, Asara, John M., Wei Shi, El-Chemaly, Souheil, Henske, Elizabeth P., and Lam, Hilaire C.

Subjects
CELL metabolism, COMMERCIAL products, TUBEROUS sclerosis, HEMOPHILIACS, INTERLEUKIN-6, SERINE, CELL migration, CURCUMIN
Abstract

Tuberous sclerosis complex (TSC) and lymphangioleiomyomatosis (LAM) are caused by aberrant mechanistic Target of Rapamycin Complex 1 (mTORC1) activation due to loss of either TSC1 or TSC2. Cytokine profiling of TSC2-deficient LAM patient-derived cells revealed striking up-regulation of Interleukin-6 (IL-6). LAM patient plasma contained increased circulating IL-6 compared with healthy controls, and TSC2-deficient cells showed up-regulation of IL-6 transcription and secretion compared to wild-type cells. IL-6 blockade repressed the proliferation and migration of TSC2-deficient cells and reduced oxygen consumption and extracellular acidification. U-13C glucose tracing revealed that IL-6 knockout reduced 3-phosphoserine and serine production in TSC2-deficient cells, implicating IL-6 in de novo serine metabolism. IL-6 knockout reduced expression of phosphoserine aminotransferase 1 (PSAT1), an essential enzyme in serine biosynthesis. Importantly, recombinant IL-6 treatment rescued PSAT1 expression in the TSC2-deficient, IL-6 knockout clones selectively and had no effect on wild-type cells. Treatment with anti-IL-6 (αIL-6) antibody similarly reduced cell proliferation and migration and reduced renal tumors in Tsc2+/- mice while reducing PSAT1 expression. These data reveal a mechanism through which IL-6 regulates serine biosynthesis, with potential relevance to the therapy of tumors with mTORC1 hyperactivity. [ABSTRACT FROM AUTHOR]

Published
2021
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41. TSC2 regulates microRNA biogenesis via mTORC1 and GSK3β

Author

Ogórek, Barbara, primary, Lam, Hilaire C, additional, Khabibullin, Damir, additional, Liu, Heng-Jia, additional, Nijmeh, Julie, additional, Triboulet, Robinson, additional, Kwiatkowski, David J, additional, Gregory, Richard I, additional, and Henske, Elizabeth P, additional

Published
2018
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42. Rapamycin-induced miR-21 promotes mitochondrial homeostasis and adaptation in mTORC1 activated cells

Author

Lam, Hilaire C., primary, Liu, Heng-Jia, additional, Baglini, Christian V., additional, Filippakis, Harilaos, additional, Alesi, Nicola, additional, Nijmeh, Julie, additional, Du, Heng, additional, Lope, Alicia Llorente, additional, Cottrill, Katherine A., additional, Handen, Adam, additional, Asara, John M., additional, Kwiatkowski, David J., additional, Ben-Sahra, Issam, additional, Oldham, William M., additional, Chan, Stephen Y., additional, and Henske, Elizabeth P., additional

Published
2017
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43. p62/SQSTM1 Cooperates with Hyperactive mTORC1 to Regulate Glutathione Production, Maintain Mitochondrial Integrity, and Promote Tumorigenesis

Author

Lam, Hilaire C., primary, Baglini, Christian V., additional, Lope, Alicia Llorente, additional, Parkhitko, Andrey A., additional, Liu, Heng-Jia, additional, Alesi, Nicola, additional, Malinowska, Izabela A., additional, Ebrahimi-Fakhari, Darius, additional, Saffari, Afshin, additional, Yu, Jane J., additional, Pereira, Ana, additional, Khabibullin, Damir, additional, Ogorek, Barbara, additional, Nijmeh, Julie, additional, Kavanagh, Taylor, additional, Handen, Adam, additional, Chan, Stephen Y., additional, Asara, John M., additional, Oldham, William M., additional, Diaz-Meco, Maria T., additional, Moscat, Jorge, additional, Sahin, Mustafa, additional, Priolo, Carmen, additional, and Henske, Elizabeth P., additional

Published
2017
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45. Abstract A35: Regulation of the tumor microenvironment by oncogenic p62 in mTORC1-hyperactive diseases: Tuberous sclerosis complex (TSC) and lymphangioleiomyomatosis (LAM)

Author

Lam, Hilaire C., primary, Parkhitko, Andrey, additional, Lope, Alicia Llorente, additional, Alesi, Nicola, additional, Khabibullin, Damir, additional, Filippakis, Harilaos, additional, Pereira, Ana, additional, Ogorek, Barbara, additional, Zhang, Erik, additional, Yu, Jane, additional, Priolo, Carmen, additional, and Henske, Elizabeth P., additional

Published
2016
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46. Cecal Ligation and Puncture-induced Sepsis as a Model To Study Autophagy in Mice

Author

Siempos, Ilias I. Lam, Hilaire C. Ding, Yan Choi, Mary E. and Choi, Augustine M. K. Ryter, Stefan W.

Abstract

Experimental sepsis can be induced in mice using the cecal ligation and puncture (CLP) method, which causes polymicrobial sepsis. Here, a protocol is provided to induce sepsis of varying severity in mice using the CLP technique. Autophagy is a fundamental tissue response to stress and pathogen invasion. Two current protocols to assess autophagy in vivo in the context of experimental sepsis are also presented here. (I) Transgenic mice expressing green fluorescence protein (GFP)-LC3 fusion protein are subjected to CLP. Localized enhancement of GFP signal (puncta), as assayed either by immunohistochemical or confocal assays, can be used to detect enhanced autophagosome formation and, thus, altered activation of the autophagy pathway. (II) Enhanced autophagic vacuole (autophagosome) formation per unit tissue area (as a marker of autophagy stimulation) can be quantified using electron microscopy. The study of autophagic responses to sepsis is a critical component of understanding the mechanisms by which tissues respond to infection. Research findings in this area may ultimately contribute towards understanding the pathogenesis of sepsis, which represents a major problem in critical care medicine.

Published
2014

49. “Ciliophagy”

Author

Cloonan, Suzanne M, primary, Lam, Hilaire C, additional, Ryter, Stefan W, additional, and Choi, Augustine M, additional

Published
2014
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