Your search keyword '"A. Basu"' showing total 1,494 results

1. CYP5122A1 encodes an essential sterol C4-methyl oxidase in Leishmania donovani and determines the antileishmanial activity of antifungal azoles

Author

Jin, Yiru, Basu, Somrita, Feng, Mei, Ning, Yu, Munasinghe, Indeewara, Joachim, Arline M., Li, Junan, Qin, Lingli, Madden, Robert, Burks, Hannah, Gao, Philip, Wu, Judy Qiju, Sheikh, Salma Waheed, Joice, April C., Perera, Chamani, Werbovetz, Karl A., Zhang, Kai, and Wang, Michael Zhuo

Published

2024

2. NiCo identifies extrinsic drivers of cell state modulation by niche covariation analysis

Author

Agrawal, Ankit, Thomann, Stefan, Basu, Sukanya, and Grün, Dominic

Published

2024

3. Bactericidal antibiotic treatment induces damaging inflammation via TLR9 sensing of bacterial DNA

Author

Gross, Julia L., Basu, Rahul, Bradfield, Clinton J., Sun, Jing, John, Sinu P., Das, Sanchita, Dekker, John P., Weiss, David S., and Fraser, Iain D. C.

Published

2024

4. Loss of HIV candidate vaccine efficacy in male macaques by mucosal nanoparticle immunization rescued by V2-specific response

Author

Rahman, Mohammad Arif, Bissa, Massimiliano, Scinto, Hanna, Howe, Savannah E., Sarkis, Sarkis, Ma, Zhong-Min, Gutowska, Anna, Jiang, Xunqing, Luo, Christina C., Schifanella, Luca, Moles, Ramona, Silva de Castro, Isabela, Basu, Shraddha, N’guessan, Kombo F., Williams, LaTonya D., Becerra-Flores, Manuel, Doster, Melvin N., Hoang, Tanya, Choo-Wosoba, Hyoyoung, Woode, Emmanuel, Sui, Yongjun, Tomaras, Georgia D., Paquin-Proulx, Dominic, Rao, Mangala, Talton, James D., Kong, Xiang-Peng, Zolla-Pazner, Susan, Cardozo, Timothy, Franchini, Genoveffa, and Berzofsky, Jay A.

Published

2024

5. 18F-FDG-PET/MR imaging to monitor disease activity in large vessel vasculitis

Author

Pugh, Dan, Patel, Dilip, Macnaught, Gillian, Czopek, Alicja, Bruce, Lorraine, Donachie, James, Gallacher, Peter J., Tan, Sovira, Ahlman, Mark, Grayson, Peter C., Basu, Neil, and Dhaun, Neeraj

Published

2024

6. Structural basis for VLDLR recognition by eastern equine encephalitis virus

Author

Yang, Pan, Li, Wanyu, Fan, Xiaoyi, Pan, Junhua, Mann, Colin J., Varnum, Haley, Clark, Lars E., Clark, Sarah A., Coscia, Adrian, Basu, Himanish, Smith, Katherine Nabel, Brusic, Vesna, and Abraham, Jonathan

Published

2024

7. Evaluation of FluSight influenza forecasting in the 2021–22 and 2022–23 seasons with a new target laboratory-confirmed influenza hospitalizations

Author

Mathis, Sarabeth M., Webber, Alexander E., León, Tomás M., Murray, Erin L., Sun, Monica, White, Lauren A., Brooks, Logan C., Green, Alden, Hu, Addison J., Rosenfeld, Roni, Shemetov, Dmitry, Tibshirani, Ryan J., McDonald, Daniel J., Kandula, Sasikiran, Pei, Sen, Yaari, Rami, Yamana, Teresa K., Shaman, Jeffrey, Agarwal, Pulak, Balusu, Srikar, Gururajan, Gautham, Kamarthi, Harshavardhan, Prakash, B. Aditya, Raman, Rishi, Zhao, Zhiyuan, Rodríguez, Alexander, Meiyappan, Akilan, Omar, Shalina, Baccam, Prasith, Gurung, Heidi L., Suchoski, Brad T., Stage, Steve A., Ajelli, Marco, Kummer, Allisandra G., Litvinova, Maria, Ventura, Paulo C., Wadsworth, Spencer, Niemi, Jarad, Carcelen, Erica, Hill, Alison L., Loo, Sara L., McKee, Clifton D., Sato, Koji, Smith, Claire, Truelove, Shaun, Jung, Sung-mok, Lemaitre, Joseph C., Lessler, Justin, McAndrew, Thomas, Ye, Wenxuan, Bosse, Nikos, Hlavacek, William S., Lin, Yen Ting, Mallela, Abhishek, Gibson, Graham C., Chen, Ye, Lamm, Shelby M., Lee, Jaechoul, Posner, Richard G., Perofsky, Amanda C., Viboud, Cécile, Clemente, Leonardo, Lu, Fred, Meyer, Austin G., Santillana, Mauricio, Chinazzi, Matteo, Davis, Jessica T., Mu, Kunpeng, Pastore y Piontti, Ana, Vespignani, Alessandro, Xiong, Xinyue, Ben-Nun, Michal, Riley, Pete, Turtle, James, Hulme-Lowe, Chis, Jessa, Shakeel, Nagraj, V. P., Turner, Stephen D., Williams, Desiree, Basu, Avranil, Drake, John M., Fox, Spencer J., Suez, Ehsan, Cojocaru, Monica G., Thommes, Edward W., Cramer, Estee Y., Gerding, Aaron, Stark, Ariane, Ray, Evan L., Reich, Nicholas G., Shandross, Li, Wattanachit, Nutcha, Wang, Yijin, Zorn, Martha W., Aawar, Majd Al, Srivastava, Ajitesh, Meyers, Lauren A., Adiga, Aniruddha, Hurt, Benjamin, Kaur, Gursharn, Lewis, Bryan L., Marathe, Madhav, Venkatramanan, Srinivasan, Butler, Patrick, Farabow, Andrew, Ramakrishnan, Naren, Muralidhar, Nikhil, Reed, Carrie, Biggerstaff, Matthew, and Borchering, Rebecca K.

Published

2024

8. TSG-6+ cancer-associated fibroblasts modulate myeloid cell responses and impair anti-tumor response to immune checkpoint therapy in pancreatic cancer

Author

Anandhan, Swetha, Herbrich, Shelley, Goswami, Sangeeta, Guan, Baoxiang, Chen, Yulong, Macaluso, Marc Daniel, Jindal, Sonali, Natarajan, Seanu Meena, Andrewes, Samuel W., Xiong, Liangwen, Nagarajan, Ashwat, Basu, Sreyashi, Tang, Derek Ng, Liu, Jielin, Min, Jimin, Maitra, Anirban, and Sharma, Padmanee

Published

2024

9. MetaboAnalystR 4.0: a unified LC-MS workflow for global metabolomics

Author

Pang, Zhiqiang, Xu, Lei, Viau, Charles, Lu, Yao, Salavati, Reza, Basu, Niladri, and Xia, Jianguo

Published

2024

10. Design of target specific peptide inhibitors using generative deep learning and molecular dynamics simulations

Author

Chen, Sijie, Lin, Tong, Basu, Ruchira, Ritchey, Jeremy, Wang, Shen, Luo, Yichuan, Li, Xingcan, Pei, Dehua, Kara, Levent Burak, and Cheng, Xiaolin

Published

2024

11. Restoring small water bodies to improve lake and river water quality in China

Author

Wangzheng Shen, Liang Zhang, Emily A. Ury, Sisi Li, Biqing Xia, and Nandita B. Basu

Subjects

Science

Abstract

Abstract Climate change, population growth, and agricultural intensification are increasing nitrogen (N) inputs, while driving the loss of inland water bodies that filter excess N. However, the interplay between N inputs and water body dynamics, and its implications for water quality remain poorly understood. Analyzing data from 1995 to 2015 across China, here, we find a 71% reduction in the area of small (

Published

2025

12. A cell atlas of the human fallopian tube throughout the menstrual cycle and menopause

Author

Melanie Weigert, Yan Li, Lisha Zhu, Heather Eckart, Preety Bajwa, Rahul Krishnan, Sarah Ackroyd, Ricardo Lastra, Agnes Bilecz, Anindita Basu, Ernst Lengyel, and Mengjie Chen

Subjects

Science

Abstract

Abstract The fallopian tube undergoes extensive molecular changes during the menstrual cycle and menopause. We use single-cell RNA and ATAC sequencing to construct a comprehensive cell atlas of healthy human fallopian tubes during the menstrual cycle and menopause. Our scRNA-seq comparison of 85,107 pre- and 46,111 post-menopausal fallopian tube cells reveals substantial shifts in cell type frequencies, gene expression, transcription factor activity, and cell-to-cell communications during menopause and menstrual cycle. Menstrual cycle dependent hormonal changes regulate distinct molecular states in fallopian tube secretory epithelial cells. Postmenopausal fallopian tubes show high chromatin accessibility in transcription factors associated with aging such as Jun, Fos, and BACH1/2, while hormone receptors were generally downregulated, a small proportion of secretory epithelial cells had high expression of ESR2, IGF1R, and LEPR. While a pre-menopausal secretory epithelial gene cluster is enriched in the immunoreactive molecular subtype, a subset of genes expressed in post-menopausal secretory epithelial cells show enrichment in the mesenchymal molecular type of high-grade serous ovarian cancer.

Published

2025

13. NiCo identifies extrinsic drivers of cell state modulation by niche covariation analysis

Author

Ankit Agrawal, Stefan Thomann, Sukanya Basu, and Dominic Grün

Subjects

Science

Abstract

Abstract Cell states are modulated by intrinsic driving forces such as gene expression noise and extrinsic signals from the tissue microenvironment. The distinction between intrinsic and extrinsic cell state determinants is essential for understanding the regulation of cell fate in tissues during development, homeostasis and disease. The rapidly growing availability of single-cell resolution spatial transcriptomics makes it possible to meet this challenge. However, available computational methods to infer topological tissue domains, spatially variable genes, or ligand-receptor interactions are limited in their capacity to capture cell state changes driven by crosstalk between individual cell types within the same niche. We present NiCo, a computational framework for integrating single-cell resolution spatial transcriptomics with matched single-cell RNA-sequencing reference data to infer the influence of the spatial niche on the cell state. By applying NiCo to mouse embryogenesis, adult small intestine and liver data, we demonstrate the ability to predict novel niche interactions that govern cell state variation underlying tissue development and homeostasis. In particular, NiCo predicts a feedback mechanism between Kupffer cells and neighboring stellate cells dampening stellate cell activation in the normal liver. NiCo provides a powerful tool to elucidate tissue architecture and to identify drivers of cellular states in local niches.

Published

2024

14. Bactericidal antibiotic treatment induces damaging inflammation via TLR9 sensing of bacterial DNA

Author

Julia L. Gross, Rahul Basu, Clinton J. Bradfield, Jing Sun, Sinu P. John, Sanchita Das, John P. Dekker, David S. Weiss, and Iain D. C. Fraser

Subjects

Science

Abstract

Abstract The immunologic consequences of using bactericidal versus bacteriostatic antibiotic treatments are unclear. We observed a bacteriostatic (growth halting) treatment was more protective than a bactericidal (bacteria killing) treatment in a murine peritonitis model. To understand this unexpected difference, we compared macrophage responses to bactericidal treated bacteria or bacteriostatic treated bacteria. We found that Gram-negative bacteria treated with bactericidal drugs induced more proinflammatory cytokines than those treated with bacteriostatic agents. Bacterial DNA – released only by bactericidal treatments – exacerbated inflammatory signaling through TLR9. Without TLR9 signaling, the in vivo efficacy of bactericidal drug treatment was rescued. This demonstrates that antibiotics can act in important ways distinct from bacterial inhibition: like causing treatment failure by releasing DNA that induces excessive inflammation. These data establish a novel link between how an antibiotic affects bacterial physiology and subsequent immune system engagement, which may be relevant for optimizing treatments to simultaneously clear bacteria and modulate inflammation.

Published

2024

15. Phosphorylation of tau at a single residue inhibits binding to the E3 ubiquitin ligase, CHIP

Author

Nadel, Cory M, Pokhrel, Saugat, Wucherer, Kristin, Oehler, Abby, Thwin, Aye C, Basu, Koli, Callahan, Matthew D, Southworth, Daniel R, Mordes, Daniel A, Craik, Charles S, and Gestwicki, Jason E

Subjects

Biochemistry and Cell Biology, Biological Sciences, Acquired Cognitive Impairment, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Neurosciences, Dementia, Alzheimer's Disease, Brain Disorders, Neurodegenerative, Aging, 2.1 Biological and endogenous factors, 5.1 Pharmaceuticals, Neurological, tau Proteins, Ubiquitin-Protein Ligases, Phosphorylation, Humans, Protein Binding, Alzheimer Disease, Animals, HEK293 Cells, Crystallography, X-Ray, Protein Processing, Post-Translational

Abstract

Microtubule-associated protein tau (MAPT/tau) accumulates in a family of neurodegenerative diseases, including Alzheimer's disease (AD). In disease, tau is aberrantly modified by post-translational modifications (PTMs), including hyper-phosphorylation. However, it is often unclear which of these PTMs contribute to tau's accumulation or what mechanisms might be involved. To explore these questions, we focus on a cleaved proteoform of tau (tauC3), which selectively accumulates in AD and was recently shown to be degraded by its direct binding to the E3 ubiquitin ligase, CHIP. Here, we find that phosphorylation of tauC3 at a single residue, pS416, is sufficient to weaken its interaction with CHIP. A co-crystal structure of CHIP bound to the C-terminus of tauC3 reveals the mechanism of this clash, allowing design of a mutation (CHIPD134A) that partially restores binding and turnover of pS416 tauC3. We confirm that, in our models, pS416 is produced by the known AD-associated kinase, MARK2/Par-1b, providing a potential link to disease. In further support of this idea, an antibody against pS416 co-localizes with tauC3 in degenerative neurons within the hippocampus of AD patients. Together, these studies suggest a molecular mechanism for how phosphorylation at a discrete site contributes to accumulation of a tau proteoform.

Published

2024

16. Loss of HIV candidate vaccine efficacy in male macaques by mucosal nanoparticle immunization rescued by V2-specific response

Author

Mohammad Arif Rahman, Massimiliano Bissa, Hanna Scinto, Savannah E. Howe, Sarkis Sarkis, Zhong-Min Ma, Anna Gutowska, Xunqing Jiang, Christina C. Luo, Luca Schifanella, Ramona Moles, Isabela Silva de Castro, Shraddha Basu, Kombo F. N’guessan, LaTonya D. Williams, Manuel Becerra-Flores, Melvin N. Doster, Tanya Hoang, Hyoyoung Choo-Wosoba, Emmanuel Woode, Yongjun Sui, Georgia D. Tomaras, Dominic Paquin-Proulx, Mangala Rao, James D. Talton, Xiang-Peng Kong, Susan Zolla-Pazner, Timothy Cardozo, Genoveffa Franchini, and Jay A. Berzofsky

Subjects

Science

Abstract

Abstract Systemic vaccination of macaques with V1-deleted (ΔV1) envelope immunogens reduce the risk of SIVmac251 acquisition by approximately 60%, with protective roles played by V2-specific ADCC and envelope-specific mucosal IL-17+NKp44+ innate lymphoid cells (ILCs). We investigated whether increased mucosal responses to V2 benefit vaccine efficacy by delivering oral nanoparticles (NPs) that release V2-scaffolded on Typhoid Toxin B (TTB) to the large intestine. Strikingly, mucosal immunization of male macaques abrogated vaccine efficacy with control TTB or empty NPs, but vaccine efficacy of up to 47.6% was preserved with V2-TTB NPs. The deleterious effects of NPs were linked to preferential recruitment of mucosal plasmacytoid dendritic cells (pDCs), reduction of protective mucosal NKp44+ ILCs, increased non-protective mucosal PMA/Ionomycin-induced IFN-γ+NKG2A-NKp44-ILCs, and increased levels of mucosal activated Ki67+CD4+ T cells, a potential target for virus infection. V2-TTB NP mucosal boosting rescued vaccine efficacy, likely via high avidity V2-specific antibodies mediating ADCC, and higher frequencies of mucosal NKp44+ ILCs and of ∆V1gp120 binding antibody-secreting B cells in the rectal mucosa. These findings emphasize the central role of systemic immunization and mucosal V2-specific antibodies in the protection afforded by ΔV1 envelope immunogens and encourage careful evaluation of vaccine delivery platforms to avoid inducing immune responses favorable to HIV transmission.

Published

2024

17. CYP5122A1 encodes an essential sterol C4-methyl oxidase in Leishmania donovani and determines the antileishmanial activity of antifungal azoles

Author

Yiru Jin, Somrita Basu, Mei Feng, Yu Ning, Indeewara Munasinghe, Arline M. Joachim, Junan Li, Lingli Qin, Robert Madden, Hannah Burks, Philip Gao, Judy Qiju Wu, Salma Waheed Sheikh, April C. Joice, Chamani Perera, Karl A. Werbovetz, Kai Zhang, and Michael Zhuo Wang

Subjects

Science

Abstract

Abstract Visceral leishmaniasis is a life-threatening parasitic disease, but current antileishmanial drugs have severe drawbacks. Antifungal azoles inhibit the activity of cytochrome P450 (CYP) 51 enzymes which are responsible for removing the C14α-methyl group of lanosterol, a key step in ergosterol biosynthesis in Leishmania. However, they exhibit varying degrees of antileishmanial activities in culture, suggesting the existence of unrecognized molecular targets. Our previous study reveals that, in Leishmania, lanosterol undergoes parallel C4- and C14-demethylation to form 4α,14α-dimethylzymosterol and T-MAS, respectively. In the current study, CYP5122A1 is identified as a sterol C4-methyl oxidase that catalyzes the sequential oxidation of lanosterol to form C4-oxidation metabolites. CYP5122A1 is essential for both L. donovani promastigotes in culture and intracellular amastigotes in infected mice. CYP5122A1 overexpression results in growth delay, increased tolerance to stress, and altered expression of lipophosphoglycan and proteophosphoglycan. CYP5122A1 also helps to determine the antileishmanial effect of antifungal azoles in vitro. Dual inhibitors of CYP51 and CYP5122A1 possess superior antileishmanial activity against L. donovani promastigotes whereas CYP51-selective inhibitors have little effect on promastigote growth. Our findings uncover the critical biochemical and biological role of CYP5122A1 in L. donovani and provide an important foundation for developing new antileishmanial drugs by targeting both CYP enzymes.

Published

2024

18. Phosphorylation of tau at a single residue inhibits binding to the E3 ubiquitin ligase, CHIP

Author

Cory M. Nadel, Saugat Pokhrel, Kristin Wucherer, Abby Oehler, Aye C. Thwin, Koli Basu, Matthew D. Callahan, Daniel R. Southworth, Daniel A. Mordes, Charles S. Craik, and Jason E. Gestwicki

Subjects

Science

Abstract

Abstract Microtubule-associated protein tau (MAPT/tau) accumulates in a family of neurodegenerative diseases, including Alzheimer’s disease (AD). In disease, tau is aberrantly modified by post-translational modifications (PTMs), including hyper-phosphorylation. However, it is often unclear which of these PTMs contribute to tau’s accumulation or what mechanisms might be involved. To explore these questions, we focus on a cleaved proteoform of tau (tauC3), which selectively accumulates in AD and was recently shown to be degraded by its direct binding to the E3 ubiquitin ligase, CHIP. Here, we find that phosphorylation of tauC3 at a single residue, pS416, is sufficient to weaken its interaction with CHIP. A co-crystal structure of CHIP bound to the C-terminus of tauC3 reveals the mechanism of this clash, allowing design of a mutation (CHIPD134A) that partially restores binding and turnover of pS416 tauC3. We confirm that, in our models, pS416 is produced by the known AD-associated kinase, MARK2/Par-1b, providing a potential link to disease. In further support of this idea, an antibody against pS416 co-localizes with tauC3 in degenerative neurons within the hippocampus of AD patients. Together, these studies suggest a molecular mechanism for how phosphorylation at a discrete site contributes to accumulation of a tau proteoform.

Published

2024

19. Structural basis for VLDLR recognition by eastern equine encephalitis virus

Author

Pan Yang, Wanyu Li, Xiaoyi Fan, Junhua Pan, Colin J. Mann, Haley Varnum, Lars E. Clark, Sarah A. Clark, Adrian Coscia, Himanish Basu, Katherine Nabel Smith, Vesna Brusic, and Jonathan Abraham

Subjects

Science

Abstract

Abstract Eastern equine encephalitis virus (EEEV) is the most virulent alphavirus that infects humans, and many survivors develop neurological sequelae, including paralysis and intellectual disability. Alphavirus spike proteins comprise trimers of heterodimers of glycoproteins E2 and E1 that mediate binding to cellular receptors and fusion of virus and host cell membranes during entry. We recently identified very-low density lipoprotein receptor (VLDLR) and apolipoprotein E receptor 2 (ApoER2) as cellular receptors for EEEV and a distantly related alphavirus, Semliki Forest virus (SFV). Here, we use single-particle cryo-electron microscopy (cryo-EM) to determine structures of the EEEV and SFV spike glycoproteins bound to the VLDLR ligand-binding domain and found that EEEV and SFV interact with the same cellular receptor through divergent binding modes. Our studies suggest that the ability of LDLR-related proteins to interact with viral spike proteins through very small footprints with flexible binding modes results in a low evolutionary barrier to the acquisition of LDLR-related proteins as cellular receptors for diverse sets of viruses.

Published

2024

20. 18F-FDG-PET/MR imaging to monitor disease activity in large vessel vasculitis

Author

Dan Pugh, Dilip Patel, Gillian Macnaught, Alicja Czopek, Lorraine Bruce, James Donachie, Peter J. Gallacher, Sovira Tan, Mark Ahlman, Peter C. Grayson, Neil Basu, and Neeraj Dhaun

Subjects

Science

Abstract

Abstract Disease-monitoring in large vessel vasculitis (LVV) is challenging. Simultaneous 18F-fluorodeoxyglucose positron emission tomography with magnetic resonance imaging (PET/MRI) provides functional assessment of vascular inflammation alongside high-definition structural imaging with a relatively low burden of radiation exposure. Here, we investigate the ability of PET/MRI to monitor LVV disease activity longitudinally in a prospective cohort of patients with active LVV. We demonstrate that both the PET and MRI components of the scan can distinguish active from inactive disease using established quantification methods. Using logistic-regression modelling of PET/MRI metrics, we devise a novel PET/MRI-specific Vasculitis Activity using MR PET (VAMP) score which is able to distinguish active from inactive disease with more accuracy than established methods and detects changes in disease activity longitudinally. These findings are evaluated in an independent validation cohort. Finally, PET/MRI improves clinicians’ assessment of LVV disease activity and confidence in disease management, as assessed via clinician survey. In summary, PET/MRI may be useful in tracking disease activity and assessing treatment-response in LVV. Based on our findings, larger, prospective studies assessing PET/MRI in LVV are now warranted.

Published

2024

21. TSG-6+ cancer-associated fibroblasts modulate myeloid cell responses and impair anti-tumor response to immune checkpoint therapy in pancreatic cancer

Author

Swetha Anandhan, Shelley Herbrich, Sangeeta Goswami, Baoxiang Guan, Yulong Chen, Marc Daniel Macaluso, Sonali Jindal, Seanu Meena Natarajan, Samuel W. Andrewes, Liangwen Xiong, Ashwat Nagarajan, Sreyashi Basu, Derek Ng Tang, Jielin Liu, Jimin Min, Anirban Maitra, and Padmanee Sharma

Subjects

Science

Abstract

Abstract Resistance to immune checkpoint therapy (ICT) presents a growing clinical challenge. The tumor microenvironment (TME) and its components, namely tumor-associated macrophages (TAMs) and cancer-associated fibroblasts (CAFs), play a pivotal role in ICT resistance; however, the underlying mechanisms remain under investigation. In this study, we identify expression of TNF-Stimulated Factor 6 (TSG-6) in ICT-resistant pancreatic tumors, compared to ICT-sensitive melanoma tumors, both in mouse and human. TSG-6 is expressed by CAFs within the TME, where suppressive macrophages expressing Arg1, Mafb, and Mrc1, along with TSG-6 ligand Cd44, predominate. Furthermore, TSG-6 expressing CAFs co-localize with the CD44 expressing macrophages in the TME. TSG-6 inhibition in combination with ICT improves therapy response and survival in pancreatic tumor-bearing mice by reducing macrophages expressing immunosuppressive phenotypes and increasing CD8 T cells. Overall, our findings propose TSG-6 as a therapeutic target to enhance ICT response in non-responsive tumors.

Published

2024

22. Evaluation of FluSight influenza forecasting in the 2021–22 and 2022–23 seasons with a new target laboratory-confirmed influenza hospitalizations

Author

Sarabeth M. Mathis, Alexander E. Webber, Tomás M. León, Erin L. Murray, Monica Sun, Lauren A. White, Logan C. Brooks, Alden Green, Addison J. Hu, Roni Rosenfeld, Dmitry Shemetov, Ryan J. Tibshirani, Daniel J. McDonald, Sasikiran Kandula, Sen Pei, Rami Yaari, Teresa K. Yamana, Jeffrey Shaman, Pulak Agarwal, Srikar Balusu, Gautham Gururajan, Harshavardhan Kamarthi, B. Aditya Prakash, Rishi Raman, Zhiyuan Zhao, Alexander Rodríguez, Akilan Meiyappan, Shalina Omar, Prasith Baccam, Heidi L. Gurung, Brad T. Suchoski, Steve A. Stage, Marco Ajelli, Allisandra G. Kummer, Maria Litvinova, Paulo C. Ventura, Spencer Wadsworth, Jarad Niemi, Erica Carcelen, Alison L. Hill, Sara L. Loo, Clifton D. McKee, Koji Sato, Claire Smith, Shaun Truelove, Sung-mok Jung, Joseph C. Lemaitre, Justin Lessler, Thomas McAndrew, Wenxuan Ye, Nikos Bosse, William S. Hlavacek, Yen Ting Lin, Abhishek Mallela, Graham C. Gibson, Ye Chen, Shelby M. Lamm, Jaechoul Lee, Richard G. Posner, Amanda C. Perofsky, Cécile Viboud, Leonardo Clemente, Fred Lu, Austin G. Meyer, Mauricio Santillana, Matteo Chinazzi, Jessica T. Davis, Kunpeng Mu, Ana Pastore y Piontti, Alessandro Vespignani, Xinyue Xiong, Michal Ben-Nun, Pete Riley, James Turtle, Chis Hulme-Lowe, Shakeel Jessa, V. P. Nagraj, Stephen D. Turner, Desiree Williams, Avranil Basu, John M. Drake, Spencer J. Fox, Ehsan Suez, Monica G. Cojocaru, Edward W. Thommes, Estee Y. Cramer, Aaron Gerding, Ariane Stark, Evan L. Ray, Nicholas G. Reich, Li Shandross, Nutcha Wattanachit, Yijin Wang, Martha W. Zorn, Majd Al Aawar, Ajitesh Srivastava, Lauren A. Meyers, Aniruddha Adiga, Benjamin Hurt, Gursharn Kaur, Bryan L. Lewis, Madhav Marathe, Srinivasan Venkatramanan, Patrick Butler, Andrew Farabow, Naren Ramakrishnan, Nikhil Muralidhar, Carrie Reed, Matthew Biggerstaff, and Rebecca K. Borchering

Subjects

Science

Abstract

Abstract Accurate forecasts can enable more effective public health responses during seasonal influenza epidemics. For the 2021–22 and 2022–23 influenza seasons, 26 forecasting teams provided national and jurisdiction-specific probabilistic predictions of weekly confirmed influenza hospital admissions for one-to-four weeks ahead. Forecast skill is evaluated using the Weighted Interval Score (WIS), relative WIS, and coverage. Six out of 23 models outperform the baseline model across forecast weeks and locations in 2021–22 and 12 out of 18 models in 2022–23. Averaging across all forecast targets, the FluSight ensemble is the 2nd most accurate model measured by WIS in 2021–22 and the 5th most accurate in the 2022–23 season. Forecast skill and 95% coverage for the FluSight ensemble and most component models degrade over longer forecast horizons. In this work we demonstrate that while the FluSight ensemble was a robust predictor, even ensembles face challenges during periods of rapid change.

Published

2024

23. MetaboAnalystR 4.0: a unified LC-MS workflow for global metabolomics

Author

Zhiqiang Pang, Lei Xu, Charles Viau, Yao Lu, Reza Salavati, Niladri Basu, and Jianguo Xia

Subjects

Science

Abstract

Abstract The wide applications of liquid chromatography - mass spectrometry (LC-MS) in untargeted metabolomics demand an easy-to-use, comprehensive computational workflow to support efficient and reproducible data analysis. However, current tools were primarily developed to perform specific tasks in LC-MS based metabolomics data analysis. Here we introduce MetaboAnalystR 4.0 as a streamlined pipeline covering raw spectra processing, compound identification, statistical analysis, and functional interpretation. The key features of MetaboAnalystR 4.0 includes an auto-optimized feature detection and quantification algorithm for LC-MS1 spectra processing, efficient MS2 spectra deconvolution and compound identification for data-dependent or data-independent acquisition, and more accurate functional interpretation through integrated spectral annotation. Comprehensive validation studies using LC-MS1 and MS2 spectra obtained from standards mixtures, dilution series and clinical metabolomics samples have shown its excellent performance across a wide range of common tasks such as peak picking, spectral deconvolution, and compound identification with good computing efficiency. Together with its existing statistical analysis utilities, MetaboAnalystR 4.0 represents a significant step toward a unified, end-to-end workflow for LC-MS based global metabolomics in the open-source R environment.

Published

2024

24. Design of target specific peptide inhibitors using generative deep learning and molecular dynamics simulations

Author

Sijie Chen, Tong Lin, Ruchira Basu, Jeremy Ritchey, Shen Wang, Yichuan Luo, Xingcan Li, Dehua Pei, Levent Burak Kara, and Xiaolin Cheng

Subjects

Science

Abstract

Abstract We introduce a computational approach for the design of target-specific peptides. Our method integrates a Gated Recurrent Unit-based Variational Autoencoder with Rosetta FlexPepDock for peptide sequence generation and binding affinity assessment. Subsequently, molecular dynamics simulations are employed to narrow down the selection of peptides for experimental assays. We apply this computational strategy to design peptide inhibitors that specifically target β-catenin and NF-κB essential modulator. Among the twelve β-catenin inhibitors, six exhibit improved binding affinity compared to the parent peptide. Notably, the best C-terminal peptide binds β-catenin with an IC50 of 0.010 ± 0.06 μM, which is 15-fold better than the parent peptide. For NF-κB essential modulator, two of the four tested peptides display substantially enhanced binding compared to the parent peptide. Collectively, this study underscores the successful integration of deep learning and structure-based modeling and simulation for target specific peptide design.

Published

2024

25. Identification of age-specific gene regulators of La Crosse virus neuroinvasion and pathogenesis

Author

Basu, Rahul, Ganesan, Sundar, Winkler, Clayton W., Anzick, Sarah L., Martens, Craig, Peterson, Karin E., and Fraser, Iain D. C.

Published

2023

26. Elucidating mechanisms of genetic cross-disease associations at the PROCR vascular disease locus

Author

Stacey, David, Chen, Lingyan, Stanczyk, Paulina J, Howson, Joanna MM, Mason, Amy M, Burgess, Stephen, MacDonald, Stephen, Langdown, Jonathan, McKinney, Harriett, Downes, Kate, Farahi, Neda, Peters, James E, Basu, Saonli, Pankow, James S, Tang, Weihong, Pankratz, Nathan, Sabater-Lleal, Maria, de Vries, Paul S, Smith, Nicholas L, Gelinas, Amy D, Schneider, Daniel J, Janjic, Nebojsa, Samani, Nilesh J, Ye, Shu, Summers, Charlotte, Chilvers, Edwin R, Danesh, John, and Paul, Dirk S

Subjects

Biological Sciences, Genetics, Prevention, Cardiovascular, Atherosclerosis, Hematology, Heart Disease - Coronary Heart Disease, Heart Disease, Aetiology, 2.1 Biological and endogenous factors, Inflammatory and immune system, Antigens, CD, Crosses, Genetic, Endothelial Cells, Endothelial Protein C Receptor, Humans, Protein C, Receptors, Cell Surface, Thrombosis, Venous Thromboembolism, CHARGE Hemostasis Working Group

Abstract

Many individual genetic risk loci have been associated with multiple common human diseases. However, the molecular basis of this pleiotropy often remains unclear. We present an integrative approach to reveal the molecular mechanism underlying the PROCR locus, associated with lower coronary artery disease (CAD) risk but higher venous thromboembolism (VTE) risk. We identify PROCR-p.Ser219Gly as the likely causal variant at the locus and protein C as a causal factor. Using genetic analyses, human recall-by-genotype and in vitro experimentation, we demonstrate that PROCR-219Gly increases plasma levels of (activated) protein C through endothelial protein C receptor (EPCR) ectodomain shedding in endothelial cells, attenuating leukocyte-endothelial cell adhesion and vascular inflammation. We also associate PROCR-219Gly with an increased pro-thrombotic state via coagulation factor VII, a ligand of EPCR. Our study, which links PROCR-219Gly to CAD through anti-inflammatory mechanisms and to VTE through pro-thrombotic mechanisms, provides a framework to reveal the mechanisms underlying similar cross-phenotype associations.

Published

2022

27. Enterotoxigenic Escherichia coli heat-labile toxin drives enteropathic changes in small intestinal epithelia

Author

Sheikh, Alaullah, Tumala, Brunda, Vickers, Tim J, Martin, John C, Rosa, Bruce A, Sabui, Subrata, Basu, Supratim, Simoes, Rita D, Mitreva, Makedonka, Storer, Chad, Tyksen, Erik, Head, Richard D, Beatty, Wandy, Said, Hamid M, and Fleckenstein, James M

Subjects

Microbiology, Biological Sciences, Biomedical and Clinical Sciences, Clinical Sciences, Infectious Diseases, Vaccine Related, Prevention, Nutrition, Foodborne Illness, Emerging Infectious Diseases, Biodefense, Rare Diseases, Pediatric, Biotechnology, Genetics, Digestive Diseases, Aetiology, 2.1 Biological and endogenous factors, Zero Hunger, Mice, Animals, Enterotoxins, Escherichia coli Proteins, Enterotoxigenic Escherichia coli, Escherichia coli Infections, Diarrhea, Malnutrition

Abstract

Enterotoxigenic E. coli (ETEC) produce heat-labile (LT) and/or heat-stable (ST) enterotoxins, and commonly cause diarrhea in resource-poor regions. ETEC have been linked repeatedly to sequelae in children including enteropathy, malnutrition, and growth impairment. Although cellular actions of ETEC enterotoxins leading to diarrhea are well-established, their contributions to sequelae remain unclear. LT increases cellular cAMP to activate protein kinase A (PKA) that phosphorylates ion channels driving intestinal export of salt and water resulting in diarrhea. As PKA also modulates transcription of many genes, we interrogated transcriptional profiles of LT-treated intestinal epithelia. Here we show that LT significantly alters intestinal epithelial gene expression directing biogenesis of the brush border, the major site for nutrient absorption, suppresses transcription factors HNF4 and SMAD4 critical to enterocyte differentiation, and profoundly disrupts microvillus architecture and essential nutrient transport. In addition, ETEC-challenged neonatal mice exhibit substantial brush border derangement that is prevented by maternal vaccination with LT. Finally, mice repeatedly challenged with toxigenic ETEC exhibit impaired growth recapitulating the multiplicative impact of recurring ETEC infections in children. These findings highlight impacts of ETEC enterotoxins beyond acute diarrheal illness and may inform approaches to prevent major sequelae of these common infections including malnutrition that impact millions of children.

Published

2022

28. Satellite repeat transcripts modulate heterochromatin condensates and safeguard chromosome stability in mouse embryonic stem cells

Author

Novo, Clara Lopes, Wong, Emily V, Hockings, Colin, Poudel, Chetan, Sheekey, Eleanor, Wiese, Meike, Okkenhaug, Hanneke, Boulton, Simon J, Basu, Srinjan, Walker, Simon, Kaminski Schierle, Gabriele S, Narlikar, Geeta J, and Rugg-Gunn, Peter J

Subjects

Stem Cell Research - Embryonic - Non-Human, Genetics, Stem Cell Research, 1.1 Normal biological development and functioning, Underpinning research, Generic health relevance, Animals, Chromosomal Instability, Embryonic Stem Cells, Heterochromatin, Histones, Mice, Mouse Embryonic Stem Cells

Abstract

Heterochromatin maintains genome integrity and function, and is organised into distinct nuclear domains. Some of these domains are proposed to form by phase separation through the accumulation of HP1ɑ. Mouse heterochromatin contains noncoding major satellite repeats (MSR), which are highly transcribed in mouse embryonic stem cells (ESCs). Here, we report that MSR transcripts can drive the formation of HP1ɑ droplets in vitro, and modulate heterochromatin into dynamic condensates in ESCs, contributing to the formation of large nuclear domains that are characteristic of pluripotent cells. Depleting MSR transcripts causes heterochromatin to transition into a more compact and static state. Unexpectedly, changing heterochromatin's biophysical properties has severe consequences for ESCs, including chromosome instability and mitotic defects. These findings uncover an essential role for MSR transcripts in modulating the organisation and properties of heterochromatin to preserve genome stability. They also provide insights into the processes that could regulate phase separation and the functional consequences of disrupting the properties of heterochromatin condensates.

Published

2022

29. Visualizing symmetry-breaking electronic orders in epitaxial Kagome magnet FeSn films

Author

Huimin Zhang, Basu Dev Oli, Qiang Zou, Xu Guo, Zhengfei Wang, and Lian Li

Subjects

Science

Abstract

Abstract Kagome lattice hosts a plethora of quantum states arising from the interplay of topology, spin-orbit coupling, and electron correlations. Here, we report symmetry-breaking electronic orders tunable by an applied magnetic field in a model Kagome magnet FeSn consisting of alternating stacks of two-dimensional Fe3Sn Kagome and Sn2 honeycomb layers. On the Fe3Sn layer terminated FeSn thin films epitaxially grown on SrTiO3(111) substrates, we observe trimerization of the Kagome lattice using scanning tunneling microscopy/spectroscopy, breaking its six-fold rotational symmetry while preserving the translational symmetry. Such a trimerized Kagome lattice shows an energy-dependent contrast reversal in dI/dV maps, which is significantly enhanced by bound states induced by Sn vacancy defects. This trimerized Kagome lattice also exhibits stripe modulations that are energy-dependent and tunable by an applied in-plane magnetic field, indicating symmetry-breaking nematicity from the entangled magnetic and charge degrees of freedom in antiferromagnet FeSn.

Published

2023

30. Single-cell genomics improves the discovery of risk variants and genes of atrial fibrillation

Author

Alan Selewa, Kaixuan Luo, Michael Wasney, Linsin Smith, Xiaotong Sun, Chenwei Tang, Heather Eckart, Ivan P. Moskowitz, Anindita Basu, Xin He, and Sebastian Pott

Subjects

Science

Abstract

Abstract Genome-wide association studies (GWAS) have linked hundreds of loci to cardiac diseases. However, in most loci the causal variants and their target genes remain unknown. We developed a combined experimental and analytical approach that integrates single cell epigenomics with GWAS to prioritize risk variants and genes. We profiled accessible chromatin in single cells obtained from human hearts and leveraged the data to study genetics of Atrial Fibrillation (AF), the most common cardiac arrhythmia. Enrichment analysis of AF risk variants using cell-type-resolved open chromatin regions (OCRs) implicated cardiomyocytes as the main mediator of AF risk. We then performed statistical fine-mapping, leveraging the information in OCRs, and identified putative causal variants in 122 AF-associated loci. Taking advantage of the fine-mapping results, our novel statistical procedure for gene discovery prioritized 46 high-confidence risk genes, highlighting transcription factors and signal transduction pathways important for heart development. In summary, our analysis provides a comprehensive map of AF risk variants and genes, and a general framework to integrate single-cell genomics with genetic studies of complex traits.

Published

2023

31. Single-cell genomics improves the discovery of risk variants and genes of atrial fibrillation

Author

Selewa, Alan, Luo, Kaixuan, Wasney, Michael, Smith, Linsin, Sun, Xiaotong, Tang, Chenwei, Eckart, Heather, Moskowitz, Ivan P., Basu, Anindita, He, Xin, and Pott, Sebastian

Published

2023

32. Visualizing symmetry-breaking electronic orders in epitaxial Kagome magnet FeSn films

Author

Zhang, Huimin, Oli, Basu Dev, Zou, Qiang, Guo, Xu, Wang, Zhengfei, and Li, Lian

Published

2023

33. Safety and anti-tumour activity of the IgE antibody MOv18 in patients with advanced solid tumours expressing folate receptor-alpha: a phase I trial

Author

Spicer, James, Basu, Bristi, Montes, Ana, Banerji, Udai, Kristeleit, Rebecca, Miller, Rowan, Veal, Gareth J., Corrigan, Christopher J., Till, Stephen J., Figini, Mariangela, Canevari, Silvana, Barton, Claire, Jones, Paul, Mellor, Sarah, Carroll, Simon, Selkirk, Chris, Nintos, George, Kwatra, Vineet, Funingana, Ionut-Gabriel, Doherty, Gary, Gould, Hannah J., Pellizzari, Giulia, Nakamura, Mano, Ilieva, Kristina M., Khiabany, Atousa, Stavraka, Chara, Chauhan, Jitesh, Gillett, Cheryl, Pinder, Sarah, Bax, Heather J., Josephs, Debra H., and Karagiannis, Sophia N.

Published

2023

34. Reactive oxygen species affect the potential for mineralization processes in permeable intertidal flats

Author

van Erk, Marit R., Bourceau, Olivia M., Moncada, Chyrene, Basu, Subhajit, Hansel, Colleen M., and de Beer, Dirk

Published

2023

35. ExpressAnalyst: A unified platform for RNA-sequencing analysis in non-model species

Author

Liu, Peng, Ewald, Jessica, Pang, Zhiqiang, Legrand, Elena, Jeon, Yeon Seon, Sangiovanni, Jonathan, Hacariz, Orcun, Zhou, Guangyan, Head, Jessica A., Basu, Niladri, and Xia, Jianguo

Published

2023

36. Endothelial cell CD36 regulates membrane ceramide formation, exosome fatty acid transfer and circulating fatty acid levels

Author

V. S. Peche, T. A. Pietka, M. Jacome-Sosa, D. Samovski, H. Palacios, G. Chatterjee-Basu, A. C. Dudley, W. Beatty, G. A. Meyer, I. J. Goldberg, and N. A. Abumrad

Subjects

Science

Abstract

Abstract Endothelial cell (EC) CD36 controls tissue fatty acid (FA) uptake. Here we examine how ECs transfer FAs. FA interaction with apical membrane CD36 induces Src phosphorylation of caveolin-1 tyrosine-14 (Cav-1Y14) and ceramide generation in caveolae. Ensuing fission of caveolae yields vesicles containing FAs, CD36 and ceramide that are secreted basolaterally as small (80–100 nm) exosome-like extracellular vesicles (sEVs). We visualize in transwells EC transfer of FAs in sEVs to underlying myotubes. In mice with EC-expression of the exosome marker emeraldGFP-CD63, muscle fibers accumulate circulating FAs in emGFP-labeled puncta. The FA-sEV pathway is mapped through its suppression by CD36 depletion, blocking actin-remodeling, Src inhibition, Cav-1Y14 mutation, and neutral sphingomyelinase 2 inhibition. Suppression of sEV formation in mice reduces muscle FA uptake, raises circulating FAs, which remain in blood vessels, and lowers glucose, mimicking prominent Cd36 −/− mice phenotypes. The findings show that FA uptake influences membrane ceramide, endocytosis, and EC communication with parenchymal cells.

Published

2023

37. Safety and anti-tumour activity of the IgE antibody MOv18 in patients with advanced solid tumours expressing folate receptor-alpha: a phase I trial

Author

James Spicer, Bristi Basu, Ana Montes, Udai Banerji, Rebecca Kristeleit, Rowan Miller, Gareth J. Veal, Christopher J. Corrigan, Stephen J. Till, Mariangela Figini, Silvana Canevari, Claire Barton, Paul Jones, Sarah Mellor, Simon Carroll, Chris Selkirk, George Nintos, Vineet Kwatra, Ionut-Gabriel Funingana, Gary Doherty, Hannah J. Gould, Giulia Pellizzari, Mano Nakamura, Kristina M. Ilieva, Atousa Khiabany, Chara Stavraka, Jitesh Chauhan, Cheryl Gillett, Sarah Pinder, Heather J. Bax, Debra H. Josephs, and Sophia N. Karagiannis

Subjects

Science

Abstract

Abstract All antibodies approved for cancer therapy are monoclonal IgGs but the biology of IgE, supported by comparative preclinical data, offers the potential for enhanced effector cell potency. Here we report a Phase I dose escalation trial (NCT02546921) with the primary objective of exploring the safety and tolerability of MOv18 IgE, a chimeric first-in-class IgE antibody, in patients with tumours expressing the relevant antigen, folate receptor-alpha. The trial incorporated skin prick and basophil activation tests (BAT) to select patients at lowest risk of allergic toxicity. Secondary objectives were exploration of anti-tumour activity, recommended Phase II dose, and pharmacokinetics. Dose escalation ranged from 70 μg–12 mg. The most common toxicity of MOv18 IgE is transient urticaria. A single patient experienced anaphylaxis, likely explained by detection of circulating basophils at baseline that could be activated by MOv18 IgE. The BAT assay was used to avoid enrolling further patients with reactive basophils. The safety profile is tolerable and maximum tolerated dose has not been reached, with evidence of anti-tumour activity observed in a patient with ovarian cancer. These results demonstrate the potential of IgE therapy for cancer.

Published

2023

38. Identification of age-specific gene regulators of La Crosse virus neuroinvasion and pathogenesis

Author

Rahul Basu, Sundar Ganesan, Clayton W. Winkler, Sarah L. Anzick, Craig Martens, Karin E. Peterson, and Iain D. C. Fraser

Subjects

Science

Abstract

Abstract One of the key events in viral encephalitis is the ability of virus to enter the central nervous system (CNS). Several encephalitic viruses, including La Crosse Virus (LACV), primarily induce encephalitis in children, but not adults. This phenomenon is also observed in LACV mouse models, where the virus gains access to the CNS of weanling animals through vascular leakage of brain microvessels, likely through brain capillary endothelial cells (BCECs). To examine age and region-specific regulatory factors of vascular leakage, we used genome-wide transcriptomics and targeted siRNA screening to identify genes whose suppression affected viral pathogenesis in BCECs. Further analysis of two of these gene products, Connexin43 (Cx43/Gja1) and EphrinA2 (Efna2), showed a substantial effect on LACV pathogenesis. Induction of Cx43 by 4-phenylbutyric acid (4-PBA) inhibited neurological disease in weanling mice, while Efna2 deficiency increased disease in adult mice. Thus, we show that Efna2 and Cx43 expressed by BCECs are key mediators of LACV-induced neuroinvasion and neurological disease.

Published

2023

39. ExpressAnalyst: A unified platform for RNA-sequencing analysis in non-model species

Author

Peng Liu, Jessica Ewald, Zhiqiang Pang, Elena Legrand, Yeon Seon Jeon, Jonathan Sangiovanni, Orcun Hacariz, Guangyan Zhou, Jessica A. Head, Niladri Basu, and Jianguo Xia

Subjects

Science

Abstract

Abstract The increasing application of RNA sequencing to study non-model species demands easy-to-use and efficient bioinformatics tools to help researchers quickly uncover biological and functional insights. We developed ExpressAnalyst ( www.expressanalyst.ca ), a web-based platform for processing, analyzing, and interpreting RNA-sequencing data from any eukaryotic species. ExpressAnalyst contains a series of modules that cover from processing and annotation of FASTQ files to statistical and functional analysis of count tables or gene lists. All modules are integrated with EcoOmicsDB, an ortholog database that enables comprehensive analysis for species without a reference transcriptome. By coupling ultra-fast read mapping algorithms with high-resolution ortholog databases through a user-friendly web interface, ExpressAnalyst allows researchers to obtain global expression profiles and gene-level insights from raw RNA-sequencing reads within 24 h. Here, we present ExpressAnalyst and demonstrate its utility with a case study of RNA-sequencing data from multiple non-model salamander species, including two that do not have a reference transcriptome.

Published

2023

40. A cell atlas of the human fallopian tube throughout the menstrual cycle and menopause.

Author

Weigert, Melanie, Li, Yan, Zhu, Lisha, Eckart, Heather, Bajwa, Preety, Krishnan, Rahul, Ackroyd, Sarah, Lastra, Ricardo, Bilecz, Agnes, Basu, Anindita, Lengyel, Ernst, and Chen, Mengjie

Subjects

FALLOPIAN tubes, TRANSCRIPTION factors, MENSTRUAL cycle, LIFE sciences, HORMONE receptors

Abstract

The fallopian tube undergoes extensive molecular changes during the menstrual cycle and menopause. We use single-cell RNA and ATAC sequencing to construct a comprehensive cell atlas of healthy human fallopian tubes during the menstrual cycle and menopause. Our scRNA-seq comparison of 85,107 pre- and 46,111 post-menopausal fallopian tube cells reveals substantial shifts in cell type frequencies, gene expression, transcription factor activity, and cell-to-cell communications during menopause and menstrual cycle. Menstrual cycle dependent hormonal changes regulate distinct molecular states in fallopian tube secretory epithelial cells. Postmenopausal fallopian tubes show high chromatin accessibility in transcription factors associated with aging such as Jun, Fos, and BACH1/2, while hormone receptors were generally downregulated, a small proportion of secretory epithelial cells had high expression of ESR2, IGF1R, and LEPR. While a pre-menopausal secretory epithelial gene cluster is enriched in the immunoreactive molecular subtype, a subset of genes expressed in post-menopausal secretory epithelial cells show enrichment in the mesenchymal molecular type of high-grade serous ovarian cancer. The fallopian tube undergoes extensive cellular and molecular changes during the menstrual cycle and aging. Here, Weigert et al. present a single-cell atlas of the normal human fallopian tube revealing the transition of secretory epithelial cells throughout the menstrual cycle and menopause. [ABSTRACT FROM AUTHOR]

Published

2025

41. Restoring small water bodies to improve lake and river water quality in China.

Author

Shen, Wangzheng, Zhang, Liang, Ury, Emily A., Li, Sisi, Xia, Biqing, and Basu, Nandita B.

Subjects

BODIES of water, DEHYDRATION, WATER quality, AGRICULTURAL intensification, BIOGEOCHEMICAL cycles

Abstract

Climate change, population growth, and agricultural intensification are increasing nitrogen (N) inputs, while driving the loss of inland water bodies that filter excess N. However, the interplay between N inputs and water body dynamics, and its implications for water quality remain poorly understood. Analyzing data from 1995 to 2015 across China, here, we find a 71% reduction in the area of small (<104.5 m2) water bodies (SWB), primarily in high-N-input agricultural regions. Preferential loss of SWBs, the most efficient nutrient filters, places 42% of China at high water quality risk due to increasing N inputs and declining SWB density. Currently, N removal by water bodies is 986 kilotonnes year−1, but restoring 2.3 million hectares of SWB could increase removal by 21%, compared to just 5% for equivalent restoration of large water bodies. Targeted SWB restoration is crucial for improving water quality and mitigating N pollution in China. Small water bodies are crucial in global hydrologic and biogeochemical cycles. This study reveals rapid losses of small water bodies in China and highlights their restoration as a cost-effective, sustainable solution to improve water quality. [ABSTRACT FROM AUTHOR]

Published

2025

42. Reactive oxygen species affect the potential for mineralization processes in permeable intertidal flats

Author

Marit R. van Erk, Olivia M. Bourceau, Chyrene Moncada, Subhajit Basu, Colleen M. Hansel, and Dirk de Beer

Subjects

Science

Abstract

Reactive oxygen species (ROS) are present in the pore water of intertidal permeable sediments, even in the anoxic zones. They control aerobic and anaerobic microbial degradation processes and thereby impact carbon turnover.

Published

2023

43. A changing thermal regime revealed from shallow to deep basalt source melting in the Moon

Author

Yash Srivastava, Amit Basu Sarbadhikari, James M. D. Day, Akira Yamaguchi, and Atsushi Takenouchi

Subjects

Science

Abstract

Ancient (~3.9 Ga) KREEP-free basalts were sourced from a relatively cool and shallow pyroxene-rich mantle distinct from later-erupted (

Published

2022

44. Enterotoxigenic Escherichia coli heat-labile toxin drives enteropathic changes in small intestinal epithelia

Author

Alaullah Sheikh, Brunda Tumala, Tim J. Vickers, John C. Martin, Bruce A. Rosa, Subrata Sabui, Supratim Basu, Rita D. Simoes, Makedonka Mitreva, Chad Storer, Erik Tyksen, Richard D. Head, Wandy Beatty, Hamid M. Said, and James M. Fleckenstein

Subjects

Science

Abstract

Enterotoxigenic Escherichia coli infections have been linked to non-diarrheal sequelae however, the reasons for this are unclear. Here, the authors present an additional role of heat-labile toxin in disrupting the structure and function of intestinal epithelial cells.

Published

2022

45. Selective retention of virus-specific tissue-resident T cells in healed skin after recovery from herpes zoster

Author

Kerry J. Laing, Werner J. D. Ouwendijk, Victoria L. Campbell, Christopher L. McClurkan, Shahin Mortazavi, Michael Elder Waters, Maxwell P. Krist, Richard Tu, Nhi Nguyen, Krithi Basu, Congrong Miao, D. Scott Schmid, Christine Johnston, Georges M. G. M. Verjans, and David M. Koelle

Subjects

Science

Abstract

T cells are considered important for controlling skin infections. Here, the authors report that varicella-zoster virus-specific T cells preferentially persist as tissue-resident-memory T cells in rash-involved skin after recovery from zoster.

Published

2022

46. Compact IF2 allows initiator tRNA accommodation into the P site and gates the ribosome to elongation

Author

Basu, Ritwika S., Sherman, Michael B., and Gagnon, Matthieu G.

Published

2022

47. Mammalian N1-adenosine PARylation is a reversible DNA modification

Author

Musheev, Michael U., Schomacher, Lars, Basu, Amitava, Han, Dandan, Krebs, Laura, Scholz, Carola, and Niehrs, Christof

Published

2022

48. In cellulo crystallization of Trypanosoma brucei IMP dehydrogenase enables the identification of genuine co-factors

Author

Nass, Karol, Redecke, Lars, Perbandt, M, Yefanov, O, Klinge, M, Koopmann, R, Stellato, F, Gabdulkhakov, A, Schönherr, R, Rehders, D, Lahey-Rudolph, JM, Aquila, A, Barty, A, Basu, S, Doak, RB, Duden, R, Frank, M, Fromme, R, Kassemeyer, S, Katona, G, Kirian, R, Liu, H, Majoul, I, Martin-Garcia, JM, Messerschmidt, M, Shoeman, RL, Weierstall, U, Westenhoff, S, White, TA, Williams, GJ, Yoon, CH, Zatsepin, N, Fromme, P, Duszenko, M, Chapman, HN, and Betzel, C

Subjects

Biochemistry and Cell Biology, Chemical Sciences, Biological Sciences, Rare Diseases, Infectious Diseases, Vector-Borne Diseases, Infection, Good Health and Well Being, Amino Acid Sequence, Animals, Binding Sites, Catalytic Domain, Cloning, Molecular, Coenzymes, Crystallization, Guanosine Monophosphate, IMP Dehydrogenase, Models, Molecular, Protein Conformation, Sf9 Cells, Trypanosoma brucei brucei

Abstract

Sleeping sickness is a fatal disease caused by the protozoan parasite Trypanosoma brucei (Tb). Inosine-5'-monophosphate dehydrogenase (IMPDH) has been proposed as a potential drug target, since it maintains the balance between guanylate deoxynucleotide and ribonucleotide levels that is pivotal for the parasite. Here we report the structure of TbIMPDH at room temperature utilizing free-electron laser radiation on crystals grown in living insect cells. The 2.80 Å resolution structure reveals the presence of ATP and GMP at the canonical sites of the Bateman domains, the latter in a so far unknown coordination mode. Consistent with previously reported IMPDH complexes harboring guanosine nucleotides at the second canonical site, TbIMPDH forms a compact oligomer structure, supporting a nucleotide-controlled conformational switch that allosterically modulates the catalytic activity. The oligomeric TbIMPDH structure we present here reveals the potential of in cellulo crystallization to identify genuine allosteric co-factors from a natural reservoir of specific compounds.

Published

2020

49. Mammalian N1-adenosine PARylation is a reversible DNA modification

Author

Michael U. Musheev, Lars Schomacher, Amitava Basu, Dandan Han, Laura Krebs, Carola Scholz, and Christof Niehrs

Subjects

Science

Abstract

Poly-ADP-ribosylation (PARylation) is a well-known posttranslational modification of proteins. Here the authors show that beyond proteins also mammalian single-stranded DNA is PARylated in vitro and in vivo.

Published

2022

50. Clonal somatic copy number altered driver events inform drug sensitivity in high-grade serous ovarian cancer

Author

Filipe Correia Martins, Dominique-Laurent Couturier, Ines de Santiago, Carolin Margarethe Sauer, Maria Vias, Mihaela Angelova, Deborah Sanders, Anna Piskorz, James Hall, Karen Hosking, Anumithra Amirthanayagam, Sabina Cosulich, Larissa Carnevalli, Barry Davies, Thomas B. K. Watkins, Ionut G. Funingana, Helen Bolton, Krishnayan Haldar, John Latimer, Peter Baldwin, Robin Crawford, Matthew Eldridge, Bristi Basu, Mercedes Jimenez-Linan, Andrew W. Mcpherson, Nicholas McGranahan, Kevin Litchfield, Sohrab P. Shah, Iain McNeish, Carlos Caldas, Gerard Evan, Charles Swanton, and James D. Brenton

Subjects

Science

Abstract

Chromosomal instability is a major challenge to patient stratification and targeted drug development for high-grade serous ovarian carcinoma. Here we show that identification of clonal somatic copy number alterations in frequently amplified cancer genes could inform therapeutics for precision medicine.

Published

2022