Your search keyword '"Yilun Sun"' showing total 344 results

1. Design of a spider-inspired wheeled compliant leg for search mobile robots

Author

Yilin Wang, Felix Pancheri, Tim C. Lueth, and Yilun Sun

Subjects

Compliant leg, Semi-tendon-driven mechanism, Biomimetic design, Search mobile robot, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Electronic computers. Computer science, QA75.5-76.95

Abstract

Earthquake and other disasters nowadays still threat people’s lives and property due to their destructiveness and unpredictability. The past decades have seen the booming development of search and rescue robots due to their potential for increasing rescue capacity as well as reducing personnel safety risk at disaster sites. In this work, we propose a spider-inspired wheeled compliant leg to further improve the environmental adaptability of search mobile robots. Different from the traditional fully-actuated method with independent motor joint control, this leg employs an under-actuated compliant mechanism design with overall semi-tendon-driven control, which enables the passive and active terrain adaptation, system simplification and lightweight of the realized search robot. We have generalized the theoretical model and design methodology for this type of compliant leg, and implement it in a parametric program to improve the design efficiency. In addition, preliminary load capacity and leg-lifting experiments are carried out on a one-leg prototype to evaluate its mechanical performance. A four-legged robot platform is also fabricated for the locomotion tests. The preliminary experimental results have verified the feasibility of the proposed design methodology, and also show possibilities for improvements. In future work, structural optimization and stronger actuation elements should be introduced to further improve the mechanical performance of the fabricated wheeled leg mechanism and robot platform.

Published

2024

2. Direct activation of toll-like receptor 4 signaling in group 2 innate lymphoid cells contributes to inflammatory responses of allergic diseases

Author

Li She, Hamad H. Alanazi, Yimin Xu, Yuxuan Yu, Yuzhang Gao, Shuting Guo, Qingquan Xiong, Hui Jiang, Kexin Mo, Jingwei Wang, Daniel P. Chupp, Hong Zan, Zhenming Xu, Yilun Sun, Na Xiong, Nu Zhang, Zhihai Xie, Weihong Jiang, Xin Zhang, Yong Liu, and Xiao-Dong Li

Subjects

Pathophysiology, Immunology, Cell biology, Science

Abstract

Summary: Group 2 innate lymphoid cells (ILC2s) are key players in type 2 immunity, but whether they can be directly activated by microbial ligands remain uncertain. In this study, we observed a positive correlation between blood endotoxin (LPS) levels and circulating ILC2s in allergic patients. In vitro, LPS robustly induced ILC2 proliferation and production of type 2 effector cytokines. RNA-seq revealed a type 2 immune-responsive profile in LPS-stimulated ILC2s. Notably, ILC2s lost their LPS-mediated growth and activation capacity when treated with TLR4 receptor antagonists and inhibitors of the NF-κB and JAK pathways, though this effect was not observed with IL-33 receptor blocking antibodies. Genetically, ILC2s from TLR4 knockout (KO) mice, but not from ST2 KO mice, were unresponsive to LPS. Collectively, these findings suggest a direct, non-canonical activation mechanism of ILC2s via the LPS-TLR4-NF-κB/JAK signaling axis.

Published

2024

3. Noncovalent Interactions‐Driven Self‐Assembly of Polyanionic Additive for Long Anti‐Calendar Aging and High‐Rate Zinc Metal Batteries

Author

Zimin Yang, Yilun Sun, Jianwei Li, Guanjie He, and Guoliang Chai

Subjects

aqueous Zn‐ion batteries, calendar aging, electrolyte additive, ion transfer, self‐assemble, Science

Abstract

Abstract Zinc anodes of zinc metal batteries suffer from unsatisfactory plating/striping reversibility due to interfacial parasitic reactions and poor Zn2+ mass transfer kinetics. Herein, methoxy polyethylene glycol‐phosphate (mPEG‐P) is introduced as an electrolyte additive to achieve long anti‐calendar aging and high‐rate capabilities. The polyanionic of mPEG‐P self‐assembles via noncovalent‐interactions on electrode surface to form polyether‐based cation channels and in situ organic–inorganic hybrid solid electrolyte interface layer, which ensure rapid Zn2+ mass transfer and suppresses interfacial parasitic reactions, realizing outstanding cycling/calendar aging stability. As a result, the Zn//Zn symmetric cells with mPEG‐P present long lifespans over 9000 and 2500 cycles at ultrahigh current densities of 120 and 200 mA cm−2, respectively. Besides, the coulombic efficiency (CE) of the Zn//Cu cell with mPEG‐P additive (88.21%) is much higher than that of the cell (36.4%) at the initial cycle after the 15‐day calendar aging treatment, presenting excellent anti‐static corrosion performance. Furthermore, after 20‐day aging, the Zn//MnO2 cell exhibits a superior capacity retention of 89% compared with that of the cell without mPEG‐P (28%) after 150 cycles. This study provides a promising avenue for boosting the development of high efficiency and durable metallic zinc based stationary energy storage system.

Published

2024

4. PARP1-driven repair of topoisomerase IIIα DNA-protein crosslinks by FEN1

Author

Liton Kumar Saha, Yilun Sun, Sourav Saha, Xi Yang, and Yves Pommier

Subjects

CP: Molecular biology, Biology (General), QH301-705.5

Abstract

Summary: Persistent DNA-protein crosslinks formed by human topoisomerase IIIα (TOP3A-DPCs) interfere with DNA metabolism and lead to genome damage and cell death. Recently, we demonstrated that such abortive TOP3A-DPCs are ubiquitylated and proteolyzed by Spartan (SPRTN). Here, we identify transient poly(ADP-ribosylation) (PARylation) in addition to ubiquitylation as a signaling mechanism for TOP3A-DPC repair and provide evidence that poly(ADP-ribose) polymerase 1 (PARP1) drives the repair of TOP3A-DPCs by recruiting flap endonuclease 1 (FEN1) to the TOP3A-DPCs. We find that blocking PARylation attenuates the interaction of FEN1 and TOP3A and that TOP3A-DPCs accumulate in cells with compromised PARP1 activity and in FEN1-deficient cells. We also show that PARP1 suppresses TOP3A-DPC ubiquitylation and that inhibiting the ubiquitin-activating enzyme E1 (UBE1) increases TOP3A-DPCs, consistent with ubiquitylation serving as a signaling mechanism for TOP3A-DPC repair mediated by SPRTN and TDP2. We propose that two concerted pathways repair TOP3A-DPCs: PARylation-driven FEN1 excision and ubiquitylation-driven SPRTN-TDP2 excision.

Published

2024

5. Prediction of attributable mortality in pediatric patients with cancer admitted to the intensive care unit for suspected infection: A comprehensive evaluation of risk scores

Author

Zachary Rubnitz, Yilun Sun, Asya Agulnik, Pamela Merritt, Kim Allison, Jose Ferrolino, Ronald Dallas, Li Tang, and Joshua Wolf

Subjects

children, infection, neoplasm, prediction, sepsis, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Objective To evaluate the performance of existing sepsis scores for prediction of adverse outcomes in children with cancer admitted to the ICU with suspected sepsis. Design Retrospective chart review using data available at 1, 6, 12, and 24 h after ICU admission to calculate the Pediatric Risk of Mortality 3 (PRISM‐3), Pediatric Sequential Organ Failure Assessment (pSOFA), Paediatric Logistic Organ Dysfunction 2 (PELOD‐2), and Quick Pediatric Sequential Organ Failure Assessment (qSOFA) scores. Area under the receiver operator characteristic curve (AUROC) was used to evaluate performance for prediction of attributable mortality. Sensitivity analyses included recalculation of scores using worst preceding values for each variable, excluding hematologic parameters, and prediction of alternative outcomes. Setting St. Jude Children's Research Hospital, a pediatric comprehensive cancer center in the USA. Patients Pediatric patients (

Published

2023

6. The TDRD3-USP9X complex and MIB1 regulate TOP3B homeostasis and prevent deleterious TOP3B cleavage complexes

Author

Sourav Saha, Shar-yin Naomi Huang, Xi Yang, Liton Kumar Saha, Yilun Sun, Prashant Khandagale, Lisa M. Jenkins, and Yves Pommier

Subjects

Science

Abstract

Abstract TOP3B is stabilized by TDRD3. Hypothesizing that TDRD3 recruits a deubiquitinase, we find that TOP3B interacts with USP9X via TDRD3. Inactivation of USP9X destabilizes TOP3B, and depletion of both TDRD3 and USP9X does not promote further TOP3B ubiquitylation. Additionally, we observe that MIB1 mediates the ubiquitylation and proteasomal degradation of TOP3B by directly interacting with TOP3B independently of TDRD3. Combined depletion of USP9X, TDRD3 and MIB1 causes no additional increase in TOP3B levels compared to MIB1 knockdown alone indicating that the TDRD3-USP9X complex works downstream of MIB1. To comprehend why cells degrade TOP3B in the absence of TDRD3, we measured TOP3Bccs. Lack of TDRD3 increases TOP3Bccs in DNA and RNA, and induced R-loops, γH2AX and growth defect. Biochemical experiments confirm that TDRD3 increases the turnover of TOP3B. Our work provides molecular insights into the mechanisms by which TDRD3 protect cells from deleterious TOP3Bccs which are otherwise removed by TRIM41.

Published

2023

7. Targeting neddylation sensitizes colorectal cancer to topoisomerase I inhibitors by inactivating the DCAF13-CRL4 ubiquitin ligase complex

Author

Yilun Sun, Simone A. Baechler, Xiaohu Zhang, Suresh Kumar, Valentina M. Factor, Yasuhiro Arakawa, Cindy H. Chau, Kanako Okamoto, Anup Parikh, Bob Walker, Yijun P. Su, Jiji Chen, Tabitha Ting, Shar-yin N. Huang, Erin Beck, Zina Itkin, Crystal McKnight, Changqing Xie, Nitin Roper, Deepak Nijhawan, William Douglas Figg, Paul S. Meltzer, James C. Yang, Craig J. Thomas, and Yves Pommier

Subjects

Science

Abstract

Abstract Colorectal cancers (CRCs) are prevalent worldwide, yet current treatments remain inadequate. Using chemical genetic screens, we identify that co-inhibition of topoisomerase I (TOP1) and NEDD8 is synergistically cytotoxic in human CRC cells. Combination of the TOP1 inhibitor irinotecan or its bioactive metabolite SN38 with the NEDD8-activating enzyme inhibitor pevonedistat exhibits synergy in CRC patient-derived organoids and xenografts. Mechanistically, we show that pevonedistat blocks the ubiquitin/proteasome-dependent repair of TOP1 DNA-protein crosslinks (TOP1-DPCs) induced by TOP1 inhibitors and that the CUL4-RBX1 complex (CRL4) is a prominent ubiquitin ligase acting on TOP1-DPCs for proteasomal degradation upon auto-NEDD8 modification during replication. We identify DCAF13, a DDB1 and Cullin Associated Factor, as the receptor of TOP1-DPCs for CRL4. Our study not only uncovers a replication-coupled ubiquitin-proteasome pathway for the repair of TOP1-DPCs but also provides molecular and translational rationale for combining TOP1 inhibitors and pevonedistat for CRC and other types of cancers.

Published

2023

8. Replication-associated formation and repair of human topoisomerase IIIα cleavage complexes

Author

Liton Kumar Saha, Sourav Saha, Xi Yang, Shar-yin Naomi Huang, Yilun Sun, Ukhyun Jo, and Yves Pommier

Subjects

Science

Abstract

This study provides evidence that human topoisomerase IIIα (TOP3A) is closely associated with active replisomes. The authors uncover TOP3A DNA cleavage complexes (TOP3Accs) repair mechanisms to ensure normal DNA replication and genome integrity.

Published

2023

9. Design of topology optimized compliant legs for bio-inspired quadruped robots

Author

Yilun Sun, Chujun Zong, Felix Pancheri, Tong Chen, and Tim C. Lueth

Subjects

Medicine, Science

Abstract

Abstract Robotic legs are an important component of the quadruped robot for achieving different motion gaits. Although the conventional rigid-link-based legs can generally perform robust motions, they still have the issues with poor sealing when operating in complex and liquid terrains. To cope with this problem, fully compliant legs with monolithic structure have been introduced in recent years to improve the system compactness and structural compliance of quadruped robots. In this article, we present a topology-optimization-based method to achieve efficient design of compliant robotic legs. In order to balance the structural stiffness and bending flexibility of the realized leg, a multi-objective optimization algorithm is utilized. A series of design cases are presented to illustrate the design principle and analytical procedure of the proposed method. In addition, experimental evaluation is also performed, and the results have demonstrated that, a quadruped robot with the optimized legs can successfully achieve stable and continuous straight-line walking motions.

Published

2023

10. PD-L1 induction via the MEK-JNK-AP1 axis by a neddylation inhibitor promotes cancer-associated immunosuppression

Author

Shizhen Zhang, Xiahong You, Tiantian Xu, Qian Chen, Hua Li, Longyu Dou, Yilun Sun, Xiufang Xiong, Morgan A. Meredith, and Yi Sun

Subjects

Cytology, QH573-671

Abstract

Abstract MLN4924 is a first-in-class small molecule inhibitor of NEDD8-activating enzyme (NAE), which is currently in several clinical trials for anti-cancer applications. However, MLN4924 also showed some off-target effects with potential to promote the growth of cancer cells which counteracts its anticancer activity. In this study, we found that MLN4924 increases the levels of PD-L1 mRNA and protein in dose- and time-dependent manners. Mechanistic study showed that this MLN4924 effect is largely independent of neddylation inactivation, but is due to activation of both ERK and JNK signals, leading to AP-1 activation, which is blocked by the small molecule inhibitors of MEK and JNK, respectively. Biologically, MLN4924 attenuates T cell killing in a co-culture model due to PD-L1 upregulation, which can be, at least in part, abrogated by either MEK inhibitor or anti-PD-L1 antibody. In an in vivo BALB/c mouse xenograft tumor model, while MLN4924 alone had no effect, combination with either MEK inhibitor or anti-PD-L1 antibody enhanced the suppression of tumor growth. Taken together, our study provides a sound rationale for effective anticancer therapy in combination of anti-PD-L1 antibody or MEK inhibitor with MLN4924 to overcome the side-effect of immunosuppression by MLN4924 via PD-L1 induction.

Published

2022

11. covidscreen: a web app and R Package for assessing asymptomatic COVID-19 testing strategies

Author

Jesse Smith, Yilun Sun, Diego R. Hijano, James M. Hoffman, Hana Hakim, Richard J. Webby, Randall T Hayden, Aditya H. Gaur, Gregory T. Armstrong, Motomi Mori, and Li Tang

Subjects

COVID-19, PCR test, Infection prevention, Shiny, Probabilistic model, Public aspects of medicine, RA1-1270

Abstract

Abstract Background COVID-19 has caused over 305 million infections and nearly 5.5 million deaths globally. With complete eradication unlikely, organizations will need to evaluate their risk and the benefits of mitigation strategies, including the effects of regular asymptomatic testing. We developed a web application and R package that provides estimates and visualizations to aid the assessment of organizational infection risk and testing benefits to facilitate decision-making, which combines internal and community information with malleable assumptions. Results Our web application, covidscreen, presents estimated values of risk metrics in an intuitive graphical format. It shows the current expected number of active, primarily community-acquired infections among employees in an organization. It calculates and explains the absolute and relative risk reduction of an intervention, relative to the baseline scenario, and shows the value of testing vaccinated and unvaccinated employees. In addition, the web interface allows users to profile risk over a chosen range of input values. The performance and output are illustrated using simulations and a real-world example from the employee testing program of a pediatric oncology specialty hospital. Conclusions As the COVID-19 pandemic continues to evolve, covidscreen can assist organizations in making informed decisions about whether to incorporate covid test based screening as part of their on-campus risk-mitigation strategy. The web application, R package, and source code are freely available online (see “Availability of data and materials”).

Published

2022

12. Editorial: The repair of DNA–protein crosslinks

Author

Yilun Sun, John L. Nitiss, and Yves Pommier

Subjects

DNA-protein crosslink (DPC), topoisomerases (topo), ubiquitin-proteasome degradation, SPRTN protease, sumoylation, endonucleases, Biology (General), QH301-705.5

Published

2023

13. Prostate cancer therapy personalization via multi-modal deep learning on randomized phase III clinical trials

Author

Andre Esteva, Jean Feng, Douwe van der Wal, Shih-Cheng Huang, Jeffry P. Simko, Sandy DeVries, Emmalyn Chen, Edward M. Schaeffer, Todd M. Morgan, Yilun Sun, Amirata Ghorbani, Nikhil Naik, Dhruv Nathawani, Richard Socher, Jeff M. Michalski, Mack Roach, Thomas M. Pisansky, Jedidiah M. Monson, Farah Naz, James Wallace, Michelle J. Ferguson, Jean-Paul Bahary, James Zou, Matthew Lungren, Serena Yeung, Ashley E. Ross, NRG Prostate Cancer AI Consortium, Howard M. Sandler, Phuoc T. Tran, Daniel E. Spratt, Stephanie Pugh, Felix Y. Feng, and Osama Mohamad

Subjects

Computer applications to medicine. Medical informatics, R858-859.7

Abstract

Abstract Prostate cancer is the most frequent cancer in men and a leading cause of cancer death. Determining a patient’s optimal therapy is a challenge, where oncologists must select a therapy with the highest likelihood of success and the lowest likelihood of toxicity. International standards for prognostication rely on non-specific and semi-quantitative tools, commonly leading to over- and under-treatment. Tissue-based molecular biomarkers have attempted to address this, but most have limited validation in prospective randomized trials and expensive processing costs, posing substantial barriers to widespread adoption. There remains a significant need for accurate and scalable tools to support therapy personalization. Here we demonstrate prostate cancer therapy personalization by predicting long-term, clinically relevant outcomes using a multimodal deep learning architecture and train models using clinical data and digital histopathology from prostate biopsies. We train and validate models using five phase III randomized trials conducted across hundreds of clinical centers. Histopathological data was available for 5654 of 7764 randomized patients (71%) with a median follow-up of 11.4 years. Compared to the most common risk-stratification tool—risk groups developed by the National Cancer Center Network (NCCN)—our models have superior discriminatory performance across all endpoints, ranging from 9.2% to 14.6% relative improvement in a held-out validation set. This artificial intelligence-based tool improves prognostication over standard tools and allows oncologists to computationally predict the likeliest outcomes of specific patients to determine optimal treatment. Outfitted with digital scanners and internet access, any clinic could offer such capabilities, enabling global access to therapy personalization.

Published

2022

14. PARylation prevents the proteasomal degradation of topoisomerase I DNA-protein crosslinks and induces their deubiquitylation

Author

Yilun Sun, Jiji Chen, Shar-yin N. Huang, Yijun P. Su, Wenjie Wang, Keli Agama, Sourav Saha, Lisa M. Jenkins, John M. Pascal, and Yves Pommier

Subjects

Science

Abstract

TOP1 resolves DNA supercoils by forming cleavage complexes (TOP1cc) that are trapped by TOP1 inhibitors. Here the authors provide insights into the mechanistic understanding of TOP1cc PARylation, showing that inhibition of PARG results in stabilization of TOP1cc PARylation that blocks the proteasomal degradation of TOP1cc.

Published

2021

15. Author Correction: Prostate cancer therapy personalization via multi-modal deep learning on randomized phase III clinical trials

Author

Andre Esteva, Jean Feng, Douwe van der Wal, Shih-Cheng Huang, Jeffry P. Simko, Sandy DeVries, Emmalyn Chen, Edward M. Schaeffer, Todd M. Morgan, Yilun Sun, Amirata Ghorbani, Nikhil Naik, Dhruv Nathawani, Richard Socher, Jeff M. Michalski, Mack Roach, Thomas M. Pisansky, Jedidiah M. Monson, Farah Naz, James Wallace, Michelle J. Ferguson, Jean-Paul Bahary, James Zou, Matthew Lungren, Serena Yeung, Ashley E. Ross, NRG Prostate Cancer AI Consortium, Howard M. Sandler, Phuoc T. Tran, Daniel E. Spratt, Stephanie Pugh, Felix Y. Feng, and Osama Mohamad

Subjects

Computer applications to medicine. Medical informatics, R858-859.7

Published

2023

16. Requirements for MRN endonuclease processing of topoisomerase II-mediated DNA damage in mammalian cells

Author

Yilun Sun, Eroica Soans, Margarita Mishina, Elena Petricci, Yves Pommier, Karin C. Nitiss, and John L. Nitiss

Subjects

Mre11-Rad50-Nbs1 complex, topoisomerase II (TOP2), proteasome, VCP/p97, DNA-protein crosslink (DPC) repair, Biology (General), QH301-705.5

Abstract

During a normal topoisomerase II (TOP2) reaction, the enzyme forms a covalent enzyme DNA intermediate consisting of a 5′ phosphotyrosyl linkage between the enzyme and DNA. While the enzyme typically rejoins the transient breakage after strand passage, a variety of conditions including drugs targeting TOP2 can inhibit DNA resealing, leading to enzyme-mediated DNA damage. A critical aspect of the repair of TOP2-mediated damage is the removal of the TOP2 protein covalently bound to DNA. While proteolysis plays a role in repairing this damage, nucleolytic enzymes must remove the phosphotyrosyl-linked peptide bound to DNA. The MRN complex has been shown to participate in the removal of TOP2 protein from DNA following cellular treatment with TOP2 poisons. In this report we used an optimized ICE (In vivo Complex of Enzyme) assay to measure covalent TOP2/DNA complexes. In agreement with previous independent reports, we find that the absence or inhibition of the MRE11 endonuclease results in elevated levels of both TOP2α and TOP2β covalent complexes. We also examined levels of TOP2 covalent complexes in cells treated with the proteasome inhibitor MG132. Although MRE11 inhibition plus MG132 was not synergistic in etoposide-treated cells, ectopic overexpression of MRE11 resulted in removal of TOP2 even in the presence of MG132. We also found that VCP/p97 inhibition led to elevated TOP2 covalent complexes and prevented the removal of TOP2 covalent complexes by MRE11 overexpression. Our results demonstrate the existence of multiple pathways for proteolytic processing of TOP2 prior to nucleolytic processing, and that MRE11 can process TOP2 covalent complexes even when the proteasome is inhibited. The interactions between VCP/p97 and proteolytic processing of TOP2 covalent complexes merit additional investigation.

Published

2022

17. Early Response Assessment in Advanced Stage Melanoma Treated with Combination Ipilimumab/Nivolumab

Author

Vincent T. Ma, Alahendra A. Chamila Perera, Yilun Sun, Merna Sitto, Jessica J. Waninger, Govind Warrier, Michael D. Green, Leslie A. Fecher, and Christopher D. Lao

Subjects

melanoma, biomarker, radiological assessment, combination immune checkpoint therapy, ipilimumab and nivolumab, early response assessment, Immunologic diseases. Allergy, RC581-607

Abstract

BackgroundStandard combination ipilimumab/nivolumab (I/N) is given as 4 induction doses for advanced stage melanoma followed by nivolumab single-agent maintenance therapy. While many patients receive less than 4 doses due to immune-related toxicities, it is unclear if fewer doses of I/N may still provide long term clinical benefit. Our aim is to determine if response assessment after 1 or 2 doses of I/N can predict long-term survival and assess if fewer doses of I/N can lead to similar survival outcomes.MethodsWe performed a retrospective analysis on a cohort of patients with advanced melanoma who w0ere treated with standard I/N. Cox regression of progression-free survival (PFS) and overall survival (OS) models were performed to assess the relationship between response after 1 or 2 doses of I/N and risk of progression and/or death. Clinical benefit response (CBR) was assessed, defined as SD (stable disease) + PR (partial response) + CR (complete response) by imaging. Among patients who achieved a CBR after 1 or 2 doses of I/N, a multivariable Cox regression of survival was used to compare 1 or 2 vs 3 or 4 doses of I/N adjusted by known prognostic variables in advanced melanoma.Results199 patients were evaluated. Patients with CBR after 1 dose of I/N had improved PFS (HR: 0.16, 95% CI 0.08-0.33; p

Published

2022

18. Investigating the Incidence of Pulmonary Abnormalities as Identified by Parametric Response Mapping in Patients With Lung Cancer Before Radiation Treatment

Author

Daniel R. Owen, PhD, Yilun Sun, PhD, Jim C. Irrer, BS, Matthew J. Schipper, PhD, Caitlin A. Schonewolf, MD, Stefanie Galbán, PhD, Shruti Jolly, MD, Randall K. Ten Haken, PhD, C.J. Galbán, PhD, and M.M. Matuszak, PhD

Subjects

Medical physics. Medical radiology. Nuclear medicine, R895-920, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Purpose: Parametric response mapping (PRM) of high-resolution, paired inspiration and expiration computed tomography (CT) scans is a promising analytical imaging technique that is currently used in diagnostic applications and offers the ability to characterize and quantify certain pulmonary pathologies on a patient-specific basis. As one of the first studies to implement such a technique in the radiation oncology clinic, the goal of this work was to assess the feasibility for PRM analysis to identify pulmonary abnormalities in patients with lung cancer before radiation therapy (RT). Methods and Materials: High-resolution, paired inspiration and expiration CT scans were acquired from 23 patients with lung cancer as part of routine treatment planning CT acquisition. When applied to the paired CT scans, PRM analysis classifies lung parenchyma, on a voxel-wise basis, as normal, small airways disease (SAD), emphysema, or parenchymal disease (PD). PRM classifications were quantified as a percent of total lung volume and were evaluated globally and regionally within the lung. Results: PRM analysis of pre-RT CT scans was successfully implemented using a workflow that produced patient-specific maps and quantified specific phenotypes of pulmonary abnormalities. Through this study, a large prevalence of SAD and PD was demonstrated in this lung cancer patient population, with global averages of 10% and 17%, respectively. Moreover, PRM-classified normal and SAD in the region with primary tumor involvement were found to be significantly different from global lung values. When present, elevated levels of PD and SAD abnormalities tended to be pervasive in multiple regions of the lung, indicating a large burden of underlying disease. Conclusions: Pulmonary abnormalities, as detected by PRM, were characterized in patients with lung cancer scheduled for RT. Although further study is needed, PRM is a highly accessible CT-based imaging technique that has the potential to identify local lung abnormalities associated with chronic obstructive pulmonary disease and interstitial lung disease. Further investigation in the radiation oncology setting may provide strategies for tailoring RT planning and risk assessment based on pre-existing PRM-based pathology.

Published

2022

19. Improved prediction of radiation pneumonitis by combining biological and radiobiological parameters using a data-driven Bayesian network analysis

Author

Tonaye Hinton, David Karnak, Ming Tang, Ralph Jiang, Yi Luo, Philip Boonstra, Yilun Sun, Derek J. Nancarrow, Erin Sandford, Paramita Ray, Christopher Maurino, Martha Matuszak, Matthew J. Schipper, Michael D. Green, Gregory A. Yanik, Muneesh Tewari, Issam El Naqa, Caitlin A. Schonewolf, Randall Ten Haken, Shruti Jolly, Theodore S. Lawrence, and Dipankar Ray

Subjects

Radiation pneumonitis, Inflammatory cytokines, MicroRNA (miRNA), Tumor necrosis factor alpha (TNFα) signaling, nuclear factor kappa B (NFκB), Data-driven Bayesian network (DD-BN) analysis, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Grade 2 and higher radiation pneumonitis (RP2) is a potentially fatal toxicity that limits efficacy of radiation therapy (RT). We wished to identify a combined biomarker signature of circulating miRNAs and cytokines which, along with radiobiological and clinical parameters, may better predict a targetable RP2 pathway. In a prospective clinical trial of response-adapted RT for patients (n = 39) with locally advanced non-small cell lung cancer, we analyzed patients’ plasma, collected pre- and during RT, for microRNAs (miRNAs) and cytokines using array and multiplex enzyme linked immunosorbent assay (ELISA), respectively. Interactions between candidate biomarkers, radiobiological, and clinical parameters were analyzed using data-driven Bayesian network (DD-BN) analysis. We identified alterations in specific miRNAs (miR-532, -99b and -495, let-7c, -451 and -139-3p) correlating with lung toxicity. High levels of soluble tumor necrosis factor alpha receptor 1 (sTNFR1) were detected in a majority of lung cancer patients. However, among RP patients, within 2 weeks of RT initiation, we noted a trend of temporary decline in sTNFR1 (a physiological scavenger of TNFα) and ADAM17 (a shedding protease that cleaves both membrane-bound TNFα and TNFR1) levels. Cytokine signature identified activation of inflammatory pathway. Using DD-BN we combined miRNA and cytokine data along with generalized equivalent uniform dose (gEUD) to identify pathways with better accuracy of predicting RP2 as compared to either miRNA or cytokines alone. This signature suggests that activation of the TNFα-NFκB inflammatory pathway plays a key role in RP which could be specifically ameliorated by etanercept rather than current therapy of non-specific leukotoxic corticosteroids.

Published

2022

20. SUMO: A Swiss Army Knife for Eukaryotic Topoisomerases

Author

Yilun Sun, John L. Nitiss, and Yves Pommier

Subjects

topoisomerases, DNA repair, SUMO, the ubiquitin–proteasome system, topoisomerase inhibitors, Biology (General), QH301-705.5

Abstract

Topoisomerases play crucial roles in DNA metabolism that include replication, transcription, recombination, and chromatin structure by manipulating DNA structures arising in double-stranded DNA. These proteins play key enzymatic roles in a variety of cellular processes and are also likely to play structural roles. Topoisomerases allow topological transformations by introducing transient breaks in DNA by a transesterification reaction between a tyrosine residue of the enzyme and DNA. The cleavage reaction leads to a unique enzyme intermediate that allows cutting DNA while minimizing the potential for damage-induced genetic changes. Nonetheless, topoisomerase-mediated cleavage has the potential for inducing genome instability if the enzyme-mediated DNA resealing is impaired. Regulation of topoisomerase functions is accomplished by post-translational modifications including phosphorylation, polyADP-ribosylation, ubiquitylation, and SUMOylation. These modifications modulate enzyme activity and likely play key roles in determining sites of enzyme action and enzyme stability. Topoisomerase-mediated DNA cleavage and rejoining are affected by a variety of conditions including the action of small molecules, topoisomerase mutations, and DNA structural forms which permit the conversion of the short-lived cleavage intermediate to persistent topoisomerase DNA–protein crosslink (TOP-DPC). Recognition and processing of TOP-DPCs utilizes many of the same post-translational modifications that regulate enzyme activity. This review focuses on SUMOylation of topoisomerases, which has been demonstrated to be a key modification of both type I and type II topoisomerases. Special emphasis is placed on recent studies that indicate how SUMOylation regulates topoisomerase function in unperturbed cells and the unique roles that SUMOylation plays in repairing damage arising from topoisomerase malfunction.

Published

2022

21. Fluoroquinolone prophylaxis does not increase risk of neuropathy in children with acute lymphoblastic leukemia

Author

Seth E. Karol, Yilun Sun, Li Tang, Ching‐Hon Pui, Jose Ferrolino, Kim J. Allison, Shane J. Cross, William E. Evans, Kristine R. Crews, Sima Jeha, and Joshua Wolf

Subjects

child, ciprofloxacin, leukemia, lymphoid, levofloxacin, polyneuropathy, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Fluoroquinolone antibiotics are frequently utilized in pediatric oncology patients as prophylaxis or step‐down therapy following broad spectrum beta‐lactam therapy for febrile neutropenia. Concerns regarding neurotoxicity limit the use of these agents. No studies have evaluated the association between fluoroquinolone use and neurotoxicity in pediatric oncology patients receiving other neurotoxic agents such as vincristine. Methods An observational cohort study comprising patients aged 0‐18 at diagnosis enrolled on a prospective study for treatment of acute lymphoblastic leukemia (ALL) at a pediatric comprehensive cancer center between October 2007 and November 2018. Data for neuropathic pain and sensory or motor neuropathy were collected prospectively, and a Cox proportional hazards regression model was used to evaluate associations between administration of fluoroquinolone antibiotics during induction therapy and subsequent development of vincristine‐induced peripheral neurotoxicity (VIPN). Results A total of 598 participants were enrolled, including 338 (57%) who received fluoroquinolones during induction therapy; of these 470 (79%) were diagnosed with VIPN and 139 (23%) were diagnosed with high‐grade (Grade 3+) VIPN. On unadjusted analyses, and analyses adjusted for age and race, there was no evidence of an association between fluoroquinolone exposure and subsequent VIPN (hazard ratio [HR] 0.8, 95% CI 0.5‐1.04, P = .08) or high‐grade VIPN (HR 1.1, 95% CI 0.4‐2.2, P = .87). Conclusions The results of this observational study do not show an association between exposure to fluoroquinolone antibiotics during induction therapy for ALL and subsequent development of vincristine‐induced peripheral neuropathies, and suggest that a large increase in VIPN is unlikely.

Published

2020

22. Age, race, insurance type, and digital divide index are associated with video visit completion for patients seen for oncologic care in a large hospital system during the COVID-19 pandemic.

Author

Matthew M Cousins, Monica Van Til, Emma Steppe, Sophia Ng, Chandy Ellimoottil, Yilun Sun, Matthew Schipper, and Joseph R Evans

Subjects

Medicine, Science

Abstract

IntroductionThe COVID-19 pandemic drove rapid adoption of telehealth across oncologic specialties. This revealed barriers to telehealth access and telehealth-related disparities. We explored disparities in telehealth access in patients with cancer accessing oncologic care.Materials/methodsData for all unique patient visits at a large academic medical center were acquired pre- and intra-pandemic (7/1/2019-12/31/2020), including visit type (in-person, video, audio only), age, race, ethnicity, rural/urban (per zip code by Federal Office of Rural Health Policy), distance from medical facility, insurance, and Digital Divide Index (DDI; incorporates technology/internet access, age, disability, and educational attainment metrics by geographic area). Pandemic phases were identified based on visit dynamics. Multivariable logistic regression models were used to examine associations of these variables with successful video visit completion.ResultsData were available for 2,398,633 visits for 516,428 patients across all specialties. Among these, there were 253,880 visits from 62,172 patients seen in any oncology clinic. Dramatic increases in telehealth usage were seen during the pandemic (after 3/16/2020). In multivariable analyses, patient age [OR: 0.964, (95% CI 0.961, 0.966) PConclusionsPatients from older age groups, those with minority backgrounds, and individuals from areas with less access to technology (high DDI) as well as those with Medicare or Medicaid insurance were less likely to use video visits. With greater experience through the pandemic, disparities were not mitigated. Further efforts are required to optimize telehealth to benefit all patients and avoid increasing disparities in care delivery.

Published

2022

23. Functions of the CSB Protein at Topoisomerase 2 Inhibitors-Induced DNA Lesions

Author

Franciele Faccio Busatto, Sofiane Y. Mersaoui, Yilun Sun, Yves Pommier, Jean-Yves Masson, and Jenifer Saffi

Subjects

Topoisomerase 2 inhibitors, Nucleotide Excision Repair (NER), R-loops, DNA repair, CSB, Topoisomerase 2, Biology (General), QH301-705.5

Abstract

Topoisomerase 2 (TOP2) inhibitors are drugs widely used in the treatment of different types of cancer. Processing of their induced-lesions create double-strand breaks (DSBs) in the DNA, which is the main toxic mechanism of topoisomerase inhibitors to kill cancer cells. It was established that the Nucleotide Excision Repair pathway respond to TOP2-induced lesions, mainly through the Cockayne Syndrome B (CSB) protein. In this paper, we further define the mechanism and type of lesions induced by TOP2 inhibitors when CSB is abrogated. In the absence of TOP2, but not during pharmacological inhibition, an increase in R-Loops was detected. We also observed that CSB knockdown provokes the accumulation of DSBs induced by TOP2 inhibitors. Consistent with a functional interplay, interaction between CSB and TOP2 occurred after TOP2 inhibition. This was corroborated with in vitro DNA cleavage assays where CSB stimulated the activity of TOP2. Altogether, our results show that TOP2 is stimulated by the CSB protein and prevents the accumulation of R-loops/DSBs linked to genomic instability.

Published

2021

24. Serum Levels of Hepatocyte Growth Factor and CD40 Ligand Predict Radiation-Induced Liver Injury

Author

Kyle C. Cuneo, Theresa Devasia, Yilun Sun, Matthew J. Schipper, David Karnak, Mary A. Davis, Dawn Owen, Mary Feng, Issam El Naqa, Latifa Bazzi, Randy Ten Haken, and Theodore S. Lawrence

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

BACKGROUND: Declining liver function is a concerning side effect associated with radiation therapy. Biomarkers of liver toxicity would be useful in personalizing therapy. METHODS: As part of two prospective clinical trials examining adaptive radiation therapy, we collected serum samples from patients receiving liver radiation. We performed a screen of 22 cytokines using a multiplex assay then used ELISA to quantify the cytokines of greatest interest. Subjects were split into screening and validation cohorts. Toxicity was defined as an increase in Child-Pugh score of 2 points or greater within 6 months. Logistic regression models were used to estimate the relationship between our toxicity endpoint and serum cytokine concentrations. RESULTS: Our initial screen (46 subjects, 11 events) identified hepatocyte growth factor (HGF), CD40L (CD154), and eotaxin (CCL11) as potentially predictive of toxicity. We then tested these markers in an expanded patient cohort (104 subjects, 18 events) with a batch correction due to varying age of the samples which confirmed that high HGF and low CD40L were associated with a subsequent decline in liver function following radiation therapy. Multivariate analysis factoring in baseline Child-Pugh score and mean liver radiation dose demonstrated that HGF and CD40L were potentially predictive of toxicity (HGF OR 4.3, P = .009; CD40L OR 0.5 P = .06). Additionally, higher than median baseline HGF levels (1.4 ng/ml) were significantly associated with decreased survival following liver radiation (27.1 vs 14.5 months, P = .03). CONCLUSIONS: Our study identifies high HGF and low CD40L as potential markers of liver toxicity following radiation therapy.

Published

2019

25. Investigating the SPECT Dose-Function Metrics Associated With Radiation-Induced Lung Toxicity Risk in Patients With Non-small Cell Lung Cancer Undergoing Radiation Therapy

Author

Daniel R. Owen, BS, Yilun Sun, PhD, Philip S. Boonstra, PhD, Matthew McFarlane, MD, PhD, Benjamin L. Viglianti, MD, PhD, James M. Balter, PhD, Issam El Naqa, PhD, Matthew J. Schipper, PhD, Caitlin A. Schonewolf, MD, Randall K. Ten Haken, PhD, Feng-Ming S. Kong, MD, PhD, Shruti Jolly, MD, and Martha M. Matuszak, PhD

Subjects

Medical physics. Medical radiology. Nuclear medicine, R895-920, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Purpose: Dose to normal lung has commonly been linked with radiation-induced lung toxicity (RILT) risk, but incorporating functional lung metrics in treatment planning may help further optimize dose delivery and reduce RILT incidence. The purpose of this study was to investigate the impact of the dose delivered to functional lung regions by analyzing perfusion (Q), ventilation (V), and combined V/Q single-photon-emission computed tomography (SPECT) dose-function metrics with regard to RILT risk in patients with non-small cell lung cancer (NSCLC) patients who received radiation therapy (RT). Methods and Materials: SPECT images acquired from 88 patients with locally advanced NSCLC before undergoing conventionally fractionated RT were retrospectively analyzed. Dose was converted to the nominal dose equivalent per 2 Gy fraction, and SPECT intensities were normalized. Regional lung segments were defined, and the average dose delivered to each lung region was quantified. Three functional categorizations were defined to represent low-, normal-, and high-functioning lungs. The percent of functional lung category receiving ≥20 Gy and mean functional intensity receiving ≥20 Gy (iV20) were calculated. RILT was defined as grade 2+ radiation pneumonitis and/or clinical radiation fibrosis. A logistic regression was used to evaluate the association between dose-function metrics and risk of RILT. Results: By analyzing V/Q normalized intensities and functional distributions across the population, a wide range in functional capability (especially in the ipsilateral lung) was observed in patients with NSCLC before RT. Through multivariable regression models, global lung average dose to the lower lung was found to be significantly associated with RILT, and Q and V iV20 were correlated with RILT when using ipsilateral lung metrics. Through a receiver operating characteristic analysis, combined V/Q low-function receiving ≥20 Gy (low-functioning V/Q20) in the ipsilateral lung was found to be the best predictor (area under the curce: 0.79) of RILT risk. Conclusions: Irradiation of the inferior lung appears to be a locational sensitivity for RILT risk. The multivariable correlation between ipsilateral lung iV20 and RILT, as well as the association of low-functioning V/Q20 and RILT, suggest that irradiating low-functioning regions in the lung may lead to higher toxicity rates.

Published

2021

26. STING activation in alveolar macrophages and group 2 innate lymphoid cells suppresses IL-33–driven type 2 immunopathology

Author

Li She, Gema D. Barrera, Liping Yan, Hamad H. Alanazi, Edward G. Brooks, Peter H. Dube, Yilun Sun, Hong Zan, Daniel P. Chupp, Nu Zhang, Xin Zhang, Yong Liu, and Xiao-Dong Li

Subjects

Immunology, Inflammation, Medicine

Abstract

2′3′-cGAMP is known as a nonclassical second messenger and small immune modulator that possesses potent antitumor and antiviral activities via inducing the stimulator of IFN genes–mediated (STING-mediated) signaling pathway. However, its function in regulating type 2 immune responses remains unknown. Therefore, we sought to determine a role of STING activation by 2′3′-cGAMP in type 2 inflammatory reactions in multiple mouse models of eosinophilic asthma. We discovered that 2′3′-cGAMP administration strongly attenuated type 2 lung immunopathology and airway hyperreactivity induced by IL-33 and a fungal allergen, Aspergillus flavus. Mechanistically, upon the respiratory delivery, 2′3′-cGAMP was mainly internalized by alveolar macrophages, in which it activated the STING/IFN regulatory factor 3/type I IFN signaling axis to induce the production of inhibitory factors containing IFN-α, which blocked the IL-33–mediated activation of group 2 innate lymphoid (ILC2) cells in vivo. We further demonstrated that 2′3′-cGAMP directly suppressed the proliferation and function of both human and mouse ILC2 cells in vitro. Taken together, our findings suggest that STING activation by 2′3′-cGAMP in alveolar macrophages and ILC2 cells can negatively regulate type 2 immune responses, implying that the respiratory delivery of 2′3′-cGAMP might be further developed as an alternative strategy for treating type 2 immunopathologic diseases such as eosinophilic asthma.

Published

2021

27. Suppressing proteasome mediated processing of topoisomerase II DNA-protein complexes preserves genome integrity

Author

Nicholas Sciascia, Wei Wu, Dali Zong, Yilun Sun, Nancy Wong, Sam John, Darawalee Wangsa, Thomas Ried, Samuel F Bunting, Yves Pommier, and André Nussenzweig

Subjects

topoisomerases, cancer, DNA repair, genome instability, DNA damage, Medicine, Science, Biology (General), QH301-705.5

Abstract

Topoisomerase II (TOP2) relieves topological stress in DNA by introducing double-strand breaks (DSBs) via a transient, covalently linked TOP2 DNA-protein intermediate, termed TOP2 cleavage complex (TOP2cc). TOP2ccs are normally rapidly reversible, but can be stabilized by TOP2 poisons, such as the chemotherapeutic agent etoposide (ETO). TOP2 poisons have shown significant variability in their therapeutic effectiveness across different cancers for reasons that remain to be determined. One potential explanation for the differential cellular response to these drugs is in the manner by which cells process TOP2ccs. Cells are thought to remove TOP2ccs primarily by proteolytic degradation followed by DNA DSB repair. Here, we show that proteasome-mediated repair of TOP2cc is highly error-prone. Pre-treating primary splenic mouse B-cells with proteasome inhibitors prevented the proteolytic processing of trapped TOP2ccs, suppressed the DNA damage response (DDR) and completely protected cells from ETO-induced genome instability, thereby preserving cellular viability. When degradation of TOP2cc was suppressed, the TOP2 enzyme uncoupled itself from the DNA following ETO washout, in an error-free manner. This suggests a potential mechanism of developing resistance to topoisomerase poisons by ensuring rapid TOP2cc reversal.

Published

2020

28. Sensing and signaling of immunogenic extracellular RNAs restrain group 2 innate lymphoid cell-driven acute lung inflammation and airway hyperresponsiveness.

Author

Li She, Hamad H Alanazi, Liping Yan, Edward G Brooks, Peter H Dube, Yan Xiang, Fushun Zhang, Yilun Sun, Yong Liu, Xin Zhang, and Xiao-Dong Li

Subjects

Medicine, Science

Abstract

Repeated exposures to environmental allergens in susceptible individuals drive the development of type 2 inflammatory conditions such as asthma, which have been traditionally considered to be mainly mediated by Th2 cells. However, emerging evidence suggest that a new innate cell type, group 2 innate lymphoid cells (ILC2), plays a central role in initiating and amplifying a type 2 response, even in the absence of adaptive immunity. At present, the regulatory mechanisms for controlling ILC2 activation remain poorly understood. Here we report that respiratory delivery of immunogenic extracellular RNA (exRNAs) derived from RNA- and DNA-virus infected cells, was able to activate a protective response against acute type 2 lung immunopathology and airway hyperresponsiveness (AHR) induced by IL-33 and a fungal allergen, A. flavus, in mice. Mechanistically, we found that the innate immune responses triggered by exRNAs had a potent suppressive effect in vivo on the proliferation and function of ILC2 without the involvement of adaptive immunity. We further provided the loss-of-function genetic evidence that the TLR3- and MAVS-mediated signaling axis is essential for the inhibitory effects of exRNAs in mouse lungs. Thus, our results indicate that the host detection of extracellular immunostimulatory RNAs generated during respiratory viral infections have an important function in the regulation of ILC2-driven acute lung inflammation.

Published

2020

29. Novel Surrogate Neutralizing Assay Supports Parvovirus B19 Vaccine Development for Children with Sickle Cell Disease

Author

Rhiannon R. Penkert, Sumana Chandramouli, Philip R. Dormitzer, Ethan C. Settembre, Robert E. Sealy, Susan Wong, Neal S. Young, Yilun Sun, Li Tang, Alyssa Cotton, Jola Dowdy, Randall T. Hayden, Jane S. Hankins, and Julia L. Hurwitz

Subjects

parvovirus B19, VP1u, neutralization assay, aplastic crisis, sickle cell disease, vaccine, Medicine

Abstract

Children with sickle cell disease (SCD) suffer life-threatening transient aplastic crisis (TAC) when infected with parvovirus B19. In utero, infection of healthy fetuses may result in anemia, hydrops, and death. Unfortunately, although promising vaccine candidates exist, no product has yet been licensed. One barrier to vaccine development has been the lack of a cost-effective, standardized parvovirus B19 neutralization assay. To fill this void, we evaluated the unique region of VP1 (VP1u), which contains prominent targets of neutralizing antibodies. We discovered an antigenic cross-reactivity between VP1 and VP2 that, at first, thwarted the development of a surrogate neutralization assay. We overcame the cross-reactivity by designing a mutated VP1u (VP1uAT) fragment. A new VP1uAT ELISA yielded results well correlated with neutralization (Spearman’s correlation coefficient = 0.581; p = 0.001), superior to results from a standard clinical diagnostic ELISA or an ELISA with virus-like particles. Virus-specific antibodies from children with TAC, measured by the VP1uAT and neutralization assays, but not other assays, gradually increased from days 0 to 120 post-hospitalization. We propose that this novel and technically simple VP1uAT ELISA might now serve as a surrogate for the neutralization assay to support rapid development of a parvovirus B19 vaccine.

Published

2021

30. H5N1 influenza vaccine induces a less robust neutralizing antibody response than seasonal trivalent and H7N9 influenza vaccines

Author

Sook-San Wong, Jennifer DeBeauchamp, Mark Zanin, Yilun Sun, Li Tang, and Richard Webby

Subjects

Immunologic diseases. Allergy, RC581-607, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Avian flu: Vaccines struggle to elicit strong immune response Evidence shows that vaccines for avian flu provoke a poorer immune response than those for seasonal human flu. Avian influenza is an emergent disease that poses a credible threat to public health, yet vaccines to treat avian flu have not performed well in clinical trials. A team of scientists led by Richard Webby of St Jude Children’s Research Hospital, United States, investigated the reasons for this by comparing vaccine’s ability to stimulate the immune system in comparison to a vaccine to treat seasonal human flu. In contrast to previous hypotheses, Webby’s group found that only the avian H5N1 flu vaccine provoked a lesser release of neutralizing antibodies compared to the H7N9 (another avian flu) and seasonal flu vaccine, and hypothesized that differences in viral surface proteins may account for the difference. The authors hope this helps to direct future research into vaccine-induced immunity.

Published

2017

31. Inflammatory molecule reduction with hydroxyurea therapy in children with sickle cell anemia

Author

Rhiannon R. Penkert, Julia L. Hurwitz, Paul Thomas, Jason Rosch, Jola Dowdy, Yilun Sun, Li Tang, and Jane S. Hankins

Subjects

Diseases of the blood and blood-forming organs, RC633-647.5

Published

2018

32. Baseline Serum Vitamin A and D Levels Determine Benefit of Oral Vitamin A&D Supplements to Humoral Immune Responses Following Pediatric Influenza Vaccination

Author

Nehali Patel, Rhiannon R. Penkert, Bart G. Jones, Robert E. Sealy, Sherri L. Surman, Yilun Sun, Li Tang, Jennifer DeBeauchamp, Ashley Webb, Julie Richardson, Ryan Heine, Ronald H. Dallas, A. Catharine Ross, Richard Webby, and Julia L. Hurwitz

Subjects

influenza virus vaccine, pediatric, vitamins a and d, baseline, antibody response, supplement, Microbiology, QR1-502

Abstract

Maximizing vaccine efficacy is critical, but previous research has failed to provide a one-size-fits-all solution. Although vitamin A and vitamin D supplementation studies have been designed to improve vaccine efficacy, experimental results have been inconclusive. Information is urgently needed to explain study discrepancies and to provide guidance for the future use of vitamin supplements at the time of vaccination. We conducted a randomized, blinded, placebo-controlled study of influenza virus vaccination and vitamin supplementation among 2 to 8 (inclusive) year old children over three seasons, including 2015−2016 (n = 9), 2016−2017 (n = 44), and 2017−2018 (n = 26). Baseline measurements of vitamins A and D were obtained from all participants. Measurements were of serum retinol, retinol-binding protein (RBP, a surrogate for retinol), and 25-hydroxyvitamin D (25(OH)D). Participants were stratified into two groups based on high and low incoming levels of RBP. Children received two doses of the seasonal influenza virus vaccine on days 0 and 28, either with an oral vitamin supplement (termed A&D; 20,000 IU retinyl palmitate and 2000 IU cholecalciferol) or a matched placebo. Hemagglutination inhibition (HAI) antibody responses were evaluated toward all four components of the influenza virus vaccines on days 0, 28, and 56. Our primary data were from season 2016−2017, as enrollment was highest in this season and all children exhibited homogeneous and negative HAI responses toward the Phuket vaccine at study entry. Responses among children who entered the study with insufficient or deficient levels of RBP and 25(OH)D benefited from the A&D supplement (p < 0.001 for the day 28 Phuket response), whereas responses among children with replete levels of RBP and 25(OH)D at baseline were unaffected or weakened (p = 0.02 for the day 28 Phuket response). High baseline RBP levels associated with high HAI titers, particularly for children in the placebo group (baseline RBP correlated positively with Phuket HAI titers on day 28, r = 0.6, p = 0.003). In contrast, high baseline 25(OH)D levels associated with weak HAI titers, particularly for children in the A&D group (baseline 25(OH)D correlated negatively with Phuket HAI titers on day 28, r = −0.5, p = 0.02). Overall, our study demonstrates that vitamin A&D supplementation can improve immune responses to vaccines when children are vitamin A and D-insufficient at baseline. Results provide guidance for the appropriate use of vitamins A and D in future clinical vaccine studies.

Published

2019

33. Model Predictive Control of 2-DOF Tendon-Driven Continuum Robot Using Optical Tracking.

Author

Yilun Sun, Yuqing Liu, Ying Su, and Tim C. Lueth

Published

2024

34. Toqro: A Flexible Quadruped Walking Robot With Topology Optimized Soft Legs.

Author

Yilun Sun, Zaiyu Wang, Felix Pancheri, and Tim C. Lueth

Published

2024

35. Monitoring Central Venous Catheter Resistance to Predict Imminent Occlusion: A Prospective Pilot Study.

Author

Joshua Wolf, Li Tang, Jeffrey E Rubnitz, Rachel C Brennan, David R Shook, Dennis C Stokes, Paul Monagle, Nigel Curtis, Leon J Worth, Kim Allison, Yilun Sun, and Patricia M Flynn

Subjects

Medicine, Science

Abstract

Long-term central venous catheters are essential for the management of chronic medical conditions, including childhood cancer. Catheter occlusion is associated with an increased risk of subsequent complications, including bloodstream infection, venous thrombosis, and catheter fracture. Therefore, predicting and pre-emptively treating occlusions should prevent complications, but no method for predicting such occlusions has been developed.We conducted a prospective trial to determine the feasibility, acceptability, and efficacy of catheter-resistance monitoring, a novel approach to predicting central venous catheter occlusion in pediatric patients. Participants who had tunneled catheters and were receiving treatment for cancer or undergoing hematopoietic stem cell transplantation underwent weekly catheter-resistance monitoring for up to 12 weeks. Resistance was assessed by measuring the inline pressure at multiple flow-rates via a syringe pump system fitted with a pressure-sensing transducer. When turbulent flow through the device was evident, resistance was not estimated, and the result was noted as "non-laminar."Ten patients attended 113 catheter-resistance monitoring visits. Elevated catheter resistance (>8.8% increase) was strongly associated with the subsequent development of acute catheter occlusion within 10 days (odds ratio = 6.2; 95% confidence interval, 1.8-21.5; p

Published

2015

36. Oseltamivir Prophylaxis Reduces Inflammation and Facilitates Establishment of Cross-Strain Protective T Cell Memory to Influenza Viruses.

Author

Nicola L Bird, Matthew R Olson, Aeron C Hurt, Christine M Oshansky, Ding Yuan Oh, Patrick C Reading, Brendon Y Chua, Yilun Sun, Li Tang, Andreas Handel, David C Jackson, Stephen J Turner, Paul G Thomas, and Katherine Kedzierska

Subjects

Medicine, Science

Abstract

CD8(+) T cells directed against conserved viral regions elicit broad immunity against distinct influenza viruses, promote rapid virus elimination and enhanced host recovery. The influenza neuraminidase inhibitor, oseltamivir, is prescribed for therapy and prophylaxis, although it remains unclear how the drug impacts disease severity and establishment of effector and memory CD8(+) T cell immunity. We dissected the effects of oseltamivir on viral replication, inflammation, acute CD8(+) T cell responses and the establishment of immunological CD8(+) T cell memory. In mice, ferrets and humans, the effect of osteltamivir on viral titre was relatively modest. However, prophylactic oseltamivir treatment in mice markedly reduced morbidity, innate responses, inflammation and, ultimately, the magnitude of effector CD8(+) T cell responses. Importantly, functional memory CD8(+) T cells established during the drug-reduced effector phase were capable of mounting robust recall responses. Moreover, influenza-specific memory CD4(+) T cells could be also recalled after the secondary challenge, while the antibody levels were unaffected. This provides evidence that long-term memory T cells can be generated during an oseltamivir-interrupted infection. The anti-inflammatory effect of oseltamivir was verified in H1N1-infected patients. Thus, in the case of an unpredicted influenza pandemic, while prophylactic oseltamivir treatment can reduce disease severity, the capacity to generate memory CD8(+) T cells specific for the newly emerged virus is uncompromised. This could prove especially important for any new influenza pandemic which often occurs in separate waves.

Published

2015

37. Towards Wearable and Portable Spine Motion Analysis Through Dynamic Optimization of Smartphone Videos and IMU Data.

Author

Wei Wang, Yinghu Peng, Yilun Sun, Jun Wang, and Guanglin Li 0001

Published

2024

38. Design of an Automated Robotic System for Object Tracking and Targeted Lighting.

Author

Robin Schregle, Felix Pancheri, Yilun Sun, and Tim C. Lueth

Published

2023

39. Design of 3D-Printable Compliant Robotic Grippers Using Solid Geometry Library in MATLAB.

Author

Yilun Sun, Jan N. Rodewald, and Tim C. Lueth

Published

2023

40. Small and Medium Scale Automation in iPS cell Culture utilizing AI Based Learning and Machine Vision.

Author

Lucas Artmann, Yilun Sun, Valentin Ameres, Linus Elbs, and Tim C. Lueth

Published

2023

41. Design of 3D-Printed Continuum Robots Using Topology Optimized Compliant Joints.

Author

Yilun Sun and Tim C. Lueth

Published

2023

42. TeSec: Accurate Server-side Attack Investigation for Web Applications.

Author

Ruihua Wang, Yihao Peng, Yilun Sun, Xuancheng Zhang, Hai Wan, and Xibin Zhao

Published

2023

43. Location-Invariant Radio Frequency Fingerprint for Base Station Recognition.

Author

Yilun Sun, Guyue Li, Hongyi Luo, Yuexiu Xing, Shuping Dang, and Aiqun Hu

Published

2023

44. Kinematic Modeling of Scissor-Mechanism-Based Curvilinear Actuator.

Author

Yilun Sun, Felix Pancheri, and Tim C. Lueth

Published

2022

45. Optimization of Stress Distribution in Tendon-Driven Continuum Robots Using Fish-Tail-Inspired Method.

Author

Yilun Sun, Yuqing Liu, and Tim C. Lueth

Published

2022

46. Automated Digitization of Three-Dimensional Structures Using AprilTag and Solid Geometry-Library in matlab.

Author

Dingzhi Zhang, Felix Pancheri, Christoph Rehekampff, Yilun Sun, and Tim C. Lueth

Published

2023

47. A MATLAB-Based Framework for Designing 3D Topology Optimized Soft Robotic Grippers.

Author

Yilun Sun, Yuqing Liu, Nandi Zhou, and Tim C. Lueth

Published

2021

48. SGCL: A B-Rep-Based Geometry Modeling Language in MATLAB for Designing 3D-Printable Medical Robots.

Author

Yilun Sun and Tim C. Lueth

Published

2021

49. Design of Bionic Prosthetic Fingers Using 3D Topology Optimization.

Author

Yilun Sun and Tim C. Lueth

Published

2021

50. Cruciate-Ligament-Inspired Compliant Joints: Application to 3D-Printed Continuum Surgical Robots.

Author

Yilun Sun and Tim C. Lueth

Published

2021