Your search keyword '"Wei, Xunbin"' showing total 33 results

1. Progress and challenges of in vivo flow cytometry and its applications in circulating cells of eyes.

Author

Lin, Wei, Wang, Peng, Qi, Yingxin, Zhao, Yanlong, and Wei, Xunbin

Abstract

Circulating inflammatory cells in eyes have emerged as early indicators of numerous major diseases, yet the monitoring of these cells remains an underdeveloped field. In vivo flow cytometry (IVFC), a noninvasive technique, offers the promise of real‐time, dynamic quantification of circulating cells. However, IVFC has not seen extensive applications in the detection of circulating cells in eyes, possibly due to the eye's unique physiological structure and fundus imaging limitations. This study reviews the current research progress in retinal flow cytometry and other fundus examination techniques, such as adaptive optics, ultra‐widefield retinal imaging, multispectral imaging, and optical coherence tomography, to propose novel ideas for circulating cell monitoring. [ABSTRACT FROM AUTHOR]

Published

2024

2. In vivo photoacoustic flow cytometry‐based study of the effect of melanin content on melanoma metastasis.

Author

Pang, Kai, Liu, Qi, Zhu, Yuxi, and Wei, Xunbin

Abstract

A major cause of death in cancer patients is distant metastasis of tumors, in which circulating tumor cells (CTCs) are an important marker. Photoacoustic flow cytometry (PAFC) can monitor CTCs in real time, non‐invasively, and label‐free; we built a PAFC system and validated the feasibility of PAFC for monitoring CTCs using in vivo animal experiments. By cultivating heavily‐pigmented and moderately‐pigmented melanoma cells, more CTCs were detected in mice inoculated with moderately‐pigmented tumor cells, resulting in more distant metastases and poorer survival status. Tumor cells with lower melanin content may produce more CTCs, increasing the risk of metastasis. CTC melanin content may be down‐regulated during the metastatic which may be a potential indicator for assessing the risk of melanoma metastasis. In conclusion, PAFC can be used to assess the risk of melanoma metastasis by dynamically monitoring the number of CTCs and the CTC melanin content in future clinical diagnoses. [ABSTRACT FROM AUTHOR]

Published

2024

3. Spatiotemporally‐Programmed Dual‐Acid‐Sensitive Nanoworms of Albumin‐Poly(tertiary amine)‐Doxorubicin Conjugates for Enhanced Cancer Chemotherapy.

Author

Huang, Wenchao, Zhang, Longshuai, Sun, Jiawei, Sun, Yuanzi, Gong, Like, Ge, Sisi, Wei, Xunbin, and Gao, Weiping

Published

2023

4. Deep‐learning visualization enhancement method for optical coherence tomography angiography in dermatology.

Author

Xu, Jingjiang, Yuan, Xing, Huang, Yanping, Qin, Jia, Lan, Gongpu, Qiu, Haixia, Yu, Bo, Jia, Haibo, Tan, Haishu, Zhao, Shiyong, Feng, Zhongwu, An, Lin, and Wei, Xunbin

Abstract

Optical coherence tomography angiography (OCTA) in dermatology usually suffers from low image quality due to the highly scattering property of the skin, the complexity of cutaneous vasculature, and limited acquisition time. Deep‐learning methods have achieved great success in many applications. However, the deep learning approach to improve dermatological OCTA images has not been investigated due to the requirement of high‐performance OCTA systems and difficulty of obtaining high‐quality images as ground truth. This study aims to generate proper datasets and develop a robust deep learning method to enhance the skin OCTA images. A swept‐source skin OCTA system was employed to create low‐quality and high‐quality OCTA images with different scanning protocols. We propose a model named vascular visualization enhancement generative adversarial network and adopt an optimized data augmentation strategy and perceptual content loss function to achieve better image enhancement effect with small amount of training data. We demonstrate the superiority of the proposed method in skin OCTA image enhancement by quantitative and qualitative comparisons. [ABSTRACT FROM AUTHOR]

Published

2023

5. In vivo flow cytometry reveals an anti‐metastatic effect of Rujifang in triple‐negative breast cancer.

Author

Zhang, Fuli, Li, Hongliang, Lin, Xuan, Zhu, Xi, Chen, Xuezhang, Wang, Bin, Zhu, Zhixia, Chen, Xikang, Liang, Guiwen, Zhang, Jingtao, Wei, Xunbin, and Tian, Huaqin

Abstract

Breast cancer is the most common cancer, and triple‐negative breast cancer (TNBC) has the highest metastasis and mortality rate among all breast cancer subtypes. Rujifang is a traditional Chinese medicine formula with many years of clinical application in breast cancer treatment. Here, we aim to investigate the effects of Rujifang on circulating tumor cell (CTC) dynamics and the tumor microenvironment in a ZsGreen/luciferase double‐labeled TNBC orthotopic model. We report that the number of CTCs monitored by in vivo flow cytometry (IVFC) strongly correlates with disease progression. Rujifang treatment decreased the number of CTCs and suppressed the distant metastasis of TNBC. Moreover, immunofluorescence analysis revealed that Rujifang treatment could affect the tumor microenvironment by downregulating Kindlin‐1, which has been reported to promote metastasis of TNBC. Our study provides evidence of the anti‐metastatic effect of Rujifang against TNBC in an animal model using fluorescent cell lines. The results suggest the potential therapeutic value of Rujifang as an anti‐metastatic drug, however, further clinical trials are needed to validate these findings in humans. [ABSTRACT FROM AUTHOR]

Published

2023

6. CD83+ B cells alleviate uveitis through inhibiting DCs by sCD83.

Author

Feng, Meng, Wang, Xin, Zhou, Shuping, Li, Minghao, Liu, Tingting, Wei, Xunbin, and Lin, Wei

Subjects

B cells, REGULATORY B cells, UVEITIS, T cells

Abstract

Soluble CD83 (sCD83) exerts immunosuppressive functions in many autoimmune diseases, including experimental autoimmune uveitis (EAU), but the cells and mechanisms involved are unclear. This study showed that CD83+ B cells were the main sources of sCD83. They alleviated the symptoms of EAU and decreased the percentage of T cells and DCs in the eyes and lymph nodes. These CD83+ B cells decreased IL‐1β, IL‐18 and IFN‐γ secretion by DCs through sCD83. sCD83 interacted with GTPase Ras‐related protein (Rab1a) in DCs to promote Rab1a accumulation in autolysosomes and inhibit mTORC1 phosphorylation and NLRP3 expression. Hence, CD83+ B cells play a regulatory role in EAU by secreting sCD83. The lack of regulation of CD83+ B cells might be an important factor leading to hyperimmune activation in patients with autoimmune uveitis. CD83+ B cells suppress activated DCs in uveitis, indicating the potential therapeutic role of CD83+ B cells in uveitis. [ABSTRACT FROM AUTHOR]

Published

2023

7. Advanced flow cytometry for biomedical applications.

Author

Pang, Kai, Dong, Sihan, Zhu, Yuxi, Zhu, Xi, Zhou, Quanyu, Gu, Bobo, Jin, Wei, Zhang, Rui, Fu, Yuting, Yu, Bingchen, Sun, Da, Duanmu, Zheng, and Wei, Xunbin

Abstract

Flow cytometry (FC) is a versatile tool with excellent capabilities to detect and measure multiple characteristics of a population of cells or particles. Notable advancements in in vivo photoacoustic FC, coherent Raman FC, microfluidic FC, and so on, have been achieved in the last two decades, which endows FC with new functions and expands its applications in basic research and clinical practice. Advanced FC broadens the tools available to researchers to conduct research involving cancer detection, microbiology (COVID‐19, HIV, bacteria, etc.), and nucleic acid analysis. This review presents an overall picture of advanced flow cytometers and provides not only a clear understanding of their mechanisms but also new insights into their practical applications. We identify the latest trends in this area and aim to raise awareness of advanced techniques of FC. We hope this review expands the applications of FC and accelerates its clinical translation. [ABSTRACT FROM AUTHOR]

Published

2023

8. Recent Advances in the Development of Materials for Terahertz Metamaterial Sensing.

Author

Shen, Suling, Liu, Xudong, Shen, Yaochun, Qu, Junle, Pickwell‐MacPherson, Emma, Wei, Xunbin, and Sun, Yiwen

Subjects

TERAHERTZ materials, METAMATERIALS, SUBMILLIMETER waves, MOLECULAR rotation, MOLECULAR vibration, TECHNICAL textiles

Abstract

Terahertz metamaterial sensing (TMS) is a new interdisciplinary technology. A TMS system employs terahertz waves as the pumping source, these then interact with the sample and carry the substance information, e.g., refractive index, absorption spectra. These properties are relevant to the molecular rotation and vibration states produced by a surface‐plasmon‐polariton‐like effect. TMS technology is usually characterized by large penetration depth and high sensitivity. Owing to these advantages, TMS may be used for ultratrace detection and consequently has a wide range of practical applications in biomedicine, food safety, environmental monitoring, industry and agriculture, material characterization, and safety inspection. Furthermore, TMS performance is determined not only by the structural topology of metamaterials, but also by their compositions and substrates. This paper reviews the essential fundamentals, relevant applications, and recent advances in TMS technology with a focus on the influence of material selection on TMS performance. This review is envisaged to be used as a key reference for developing TMS‐based functional devices with enhanced characteristics. [ABSTRACT FROM AUTHOR]

Published

2022

9. Real‐time monitoring of single circulating tumor cells with a fluorescently labeled deoxy‐glucose by in vivo flow cytometry.

Author

Weng, Xiaofu, Wei, Dan, Zhu, Xi, Tao, Lechan, Guo, Jun, Pang, Kai, Yang, Zhangru, and Wei, Xunbin

Abstract

Circulating tumor cells (CTCs) play an essential role in metastasis and serve as an important prognostic biomarker. The technology of CTC labeling and detection in vivo can greatly improve the research of cancer metastasis and therapy. However, there is no in vivo technology to detect CTCs in clinic. In this study, we demonstrate that 2‐[N‐(7‐nitrobenz‐2‐oxa‐1,3‐diazol‐4‐yl) amino]‐2‐deoxy‐d‐glucose (2‐NBDG), a 2‐deoxy‐glucose analog, can work in vivo to indicate CTCs and metastases fluorescently by direct intravenous injection. During the development of an implanted tumor in mice, the spontaneous CTCs released from the primary tumor into blood vessels can be labeled by 2‐NBDG due to the abnormal metabolism of CTCs. The green fluorescence of 2‐NBDG from CTCs is then noninvasively detected by an in vivo flow cytometry system. Due to the high uptake of glucose by tumor cells, the CTCs in mice can maintain a high 2‐NBDG level and thus be distinguished by 2‐NBDG fluorescence in vivo efficiently, enabling tumor detection in vivo like positron emission tomography (PET) but at the single‐cell resolution. Our results suggest 2‐NBDG, a glucose analog with high biosafety, holds promising potential in clinical applications, similar to the widely‐used contrast medium 2‐F18‐fluorodeoxyglucose in PET. [ABSTRACT FROM AUTHOR]

Published

2021

10. Monitoring radiofrequency therapy‐induced tumor cell dissemination by in vivo flow cytometry.

Author

Zhu, Xi, Wei, Cong, Zhang, Yang, Meng, Zheying, Hu, Bing, Zhang, Fuli, Wei, Xunbin, and Ying, Tao

Abstract

Clinical and experimental findings have disclosed a high recurrence rate after radiofrequency ablation (RFA), which might be due to the dissemination of malignant cells into the vasculature during ablation. Here, we apply in vivo flow cytometry (IVFC) to monitor circulating tumor cells (CTCs) while performing ablation in a real‐time and noninvasive way in an orthotopic model of prostate cancer. We report that CTCs are dramatically increased during RFA. The CTCs induced by ablation eventually translate into enhanced distant metastasis and reduced survival as compared to resection. Immunofluorescence analysis reveals that RFA significantly increases the infiltration of tumor‐associated macrophages (TAMs) in the lung. Our study thus suggests that the ablative procedure of prostate tumors causes immediate tumor cell dissemination and increases distant metastasis. [ABSTRACT FROM AUTHOR]

Published

2021

11. Patient‐derived organoids in cellulosic sponge model chemotherapy response of metastatic colorectal cancer.

Author

Xu, Yanjie, Chen, Jianjun, Huang, Yizhou, Luo, Yang, Hsieh, An‐Chih, Chen, Jianyi, Li, Han, Wei, Xunbin, Gao, Wei‐Qiang, Zhong, Ming, and Zhang, Yan

Subjects

METASTASIS, COLORECTAL cancer, ORGANOIDS, CANCER chemotherapy, EPITHELIAL-mesenchymal transition

Abstract

Patient-derived organoids (PDOs) closely recapitulate human colorectal cancer biology and have recently emerged as preclinical models for personalized therapy design.1 However, PDOs cultured in Matrigel (PDOs SP Matrigel sp ) failed to predict outcome for treatment with the first-line FO chemotherapeutic regimen (5-fluorouracil plus oxaliplatin) for metastatic colorectal cancer (mCRC) patients.2 In this study, we establish in vitro culture conditions of mCRC-PDOs in a hydroxypropyl cellulose allyl conjugated with collagen (HA-Coll sponge),3 and utilized this system to examine the drug sensitivity of FO regimen (Figure 1A). PDOs in HA-Coll sponge (PDOs SP Sponge sp ) proliferated at the same level as PDOs SP Matrigel sp in the next generation (Figure 2B and C, Figure S1C and D). Conclusively, our results indicated that PDOs SP Sponge sp remained the original epithelial state of parental tumor tissues, which is important for the drug-sensitivity of FO, but not for irinotecan. To further confirm these results, we knocked out I LMNA i in PDOs SP Sponge sp and overexpressed I LMNA i in PDOs SP Matrigel sp to perform the drug response assay. [Extracted from the article]

Published

2021

12. In Vivo Flow Cytometric Evaluation of Circulating Metastatic Pancreatic Tumor Cells after High‐Intensity Focused Ultrasound Therapy.

Author

Yu, Qian, Yao, Yijing, Zhu, Xi, Gao, Yihui, Chen, Yini, Wang, Rui, Xu, Pingping, Wei, Xunbin, and Jiang, Lixin

Abstract

We examined our hypothesis that high‐intensity focused ultrasound (HIFU) treatment of pancreatic ductal adenocarcinoma (PDAC) in nude mice models may lead to an increased occurrence of hematogenous metastasis. The human PDAC cell line BxPC‐3 transfected with mCherry was implanted into nude mice to establish orthotopic and subcutaneous xenograft (OX and SX) tumor models. Mice were exposed to HIFU when tumor sizes reached approximately 200–300 mm3. The OX and SX tumor models were monitored continuously for tumor growth characteristics and hematogenous metastasis using in vivo flow cytometric (IVFC) detection of circulating tumor cells (CTCs) from the pancreas. We chose an appropriate mouse model to further examine whether or not HIFU increases the potential risk of hematogenous metastasis, using IVFC detection. Our results showed that the CTC number was greater in the OX model than in the SX model. The CTC number in the OX model increased gradually over time, whereas the CTC number in the SX model remained low. Therefore, the OX model was better for studying tumor metastasis by IVFC detection. We found significantly decreased CTC numbers and tumor volume after HIFU ablation. Our results showed the applicability of the PDAC OX tumor model for studying the occurrence of tumor metastasis due to the generation of CTCs. HIFU ablation substantially restricted PDAC hematogenous metastasis and provided effective tumor control locally. © 2020 The Authors. Cytometry Part A published by Wiley Periodicals Inc., on behalf of International Society for Advancement of Cytometry. [ABSTRACT FROM AUTHOR]

Published

2020

13. Nucleolus‐Targeted Photodynamic Anticancer Therapy Using Renal‐Clearable Carbon Dots.

Author

Pang, Wen, Jiang, Pengfei, Ding, Shihui, Bao, Zhouzhou, Wang, Ningtao, Wang, Hongxia, Qu, Junle, Wang, Dan, Gu, Bobo, and Wei, Xunbin

Published

2020

14. Cytometry and Prevalent Cancers in Asia.

Author

Su, Xuantao and Wei, Xunbin

Published

2020

15. Advances of In Vivo Flow Cytometry on Cancer Studies.

Author

Suo, Yuanzhen, Gu, Zhenqin, and Wei, Xunbin

Abstract

Cancer is a big threat to human life. Asia has about 60% of the global population and accounts for half of global cancer incidence and mortality. Circulating tumor cells (CTCs) have been a good biomarker for cancer diagnosis, staging, and prognosis. Conventional detection methods of CTCs require drawing blood. It may disturb the biological environment and limited real‐time monitoring. in vivo flow cytometry (IVFC) is a burgeoning technique that allows noninvasive detection of CTCs in vivo. Here, we review the technical development of IVFC based on various contrast principles, including fluorescence IVFC, photoacoustic IVFC, imaging IVFC, and label‐free IVFC. This powerful tool has been applied widely in many areas of cancer‐related studies, especially the CTC studies. We review applications of IVFC in preclinical studies on prevalent cancers in Asia, including liver cancer, blood cancer, and so forth. Other cancer‐related studies in breast cancer, prostate cancer, cancer‐related stem cell research and drug studies are also reviewed. © 2019 International Society for Advancement of Cytometry [ABSTRACT FROM AUTHOR]

Published

2020

16. Single‐Cell Detection and Photostimulation on a Microfluidic Chip Aided with Gold Nanorods.

Author

Zhu, Yujie, Xu, Hui, Wei, Xunbin, and He, Hao

Abstract

Gold nanorods (GNRs) can be easily designed and synthesized to respond to photons in the near infrared (NIR) band. The photostimulation by laser irradiation can be mediated and enhanced by GNRs to introduce localized damage to cells for photodynamic/photothermal therapy (PDT or PTT). In this study, we show that cells stained with GNRs can be detected and stimulated simultaneously by short flashes of femtosecond‐laser irradiation on a microfluidic system effectively. In the relatively high‐throughput cell flow, the two‐photon luminescence from GNRs can be excited and detected. The GNRs also mediate and enhance the transient photostimulation of the cells. After photostimulation, cells can remain alive, go to apoptosis, or necrosis, respectively. The stimulation effect is strongly dependent on the photon density and stimulation duration. We found the cells remain alive, go to apoptosis or necrosis, dependent on the GNR staining, the laser illumination pattern and duration. Hence, our system provides a simple and effective method for high‐throughput cell stimulation and analysis on chip. © 2019 International Society for Advancement of Cytometry [ABSTRACT FROM AUTHOR]

Published

2020

17. Monitoring circulating tumor cells in vivo by a confocal microscopy system.

Author

Hu, Yuhao, Tang, Wanyi, Cheng, Pan, Zhou, Quanyu, Tian, Xiaoying, Wei, Xunbin, and He, Hao

Abstract

Circulating tumor cells (CTCs) play a key role in cancer metastasis but are very difficult to detect. in vivo monitoring CTCs has been recognized as an important technique for cancer research and clinical diagnosis. Recently, a noninvasive method, in vivo flow cytometry (IVFC) has been developed to enable continuous, real‐time, and long‐duration detection of CTCs in animal models by detecting CTC fluorescence in blood vessels excited by lasers. In this study, we present a simple optical scheme for direct noninvasive CTC detection using confocal microscopes. We demonstrate that line scanning of confocal microscopy can provide effective and quantitative CTC detection in live mice during cancer development. Rare CTC signals can be acquired at the early stage of the tumor development after implantation of subcutaneous tumor and monitored continuously to the end. Signals from CTC clusters can also be acquired and distinguished from single CTCs. Our results suggest confocal microscopy is a simple and reliable method for biologists and doctors to use for cancer research. © 2018 International Society for Advancement of Cytometry [ABSTRACT FROM AUTHOR]

Published

2019

18. Monitoring circulating prostate cancer cells by in vivo flow cytometry assesses androgen deprivation therapy on metastasis.

Author

Pang, Kai, Xie, Chengying, Yang, Zhangru, Suo, Yuanzhen, Zhu, Xi, Wei, Dan, Weng, Xiaofu, Wei, Xunbin, and Gu, Zhengqin

Abstract

Abstract: It remains controversial whether surgical castration prolongs survival rate and improves therapy prospects in patients suffering from prostate cancer. We used PC3 cell line to establish prostate tumor models. In vivo flow cytometry and ultrasonic imaging were used to monitor the process of prostate cancer growth, development and metastasis. We found out that the number of circulating tumor cells (CTCs) in orthotopic tumor model was higher than that in subcutaneous tumor model. The CTC number in orthotopic tumor model was due to burst growth, while CTC number in subcutaneous tumor model showed a gradual increase with tumor size. After androgen deprivation therapy (ADT) through testicular extraction, we constructed GFP‐PC3 subcutaneous tumor models and orthotopic tumor models. We found dramatically decreased CTC number, relieved symptoms caused by the tumor, and significantly prolonged survival time after testicular extraction in orthotopically transplanted prostate tumor model, while the carcinogenesis process and metastases were little influenced by ADT in subcutaneous tumor model. ADT treatment can restrict tumor growth, decrease the CTC number significantly and inhibit distant invasion through inhibition of tumor proliferation and tumor angiogenesis in orthotopical prostate tumor model. © 2018 International Society for Advancement of Cytometry [ABSTRACT FROM AUTHOR]

Published

2018

19. Proportion of circulating tumor cell clusters increases during cancer metastasis.

Author

Suo, Yuanzhen, Xie, Chengying, Zhu, Xi, Fan, Zhichao, Yang, Zhangru, He, Hao, and Wei, Xunbin

Abstract

Circulating tumor cell (CTC) clusters are found among CTCs and show significantly greater potential for an important role in cancer metastasis than single CTCs, which have been traditionally believed as the majority of CTCs. The accurate proportion and dynamics of CTC clusters remain unclear due to the fact that CTCs in blood flow are very difficult to detect in vivo and in vitro. CTC clusters are even more difficult to be distinguished from CTCs without perturbation by state-of-the-art detection methods. Here, we demonstrate that by using in vivo flow cytometry (IVFC), we can reliably measure the proportion and dynamics of CTC clusters in two murine tumor models. CTC clusters are easily identified by their unique fluorescent pattern with multiple peaks and wider time duration. We find that the proportion of CTC clusters increases significantly during cancer metastasis in both mouse models, the orthotopic liver cancer and the subcutaneous prostate cancer models. Our results suggest that CTC clusters account for a much larger proportion of CTCs than previously anticipated. Hence this report might provide a new-level of understanding of CTCs during cancer development and progression. © 2016 International Society for Advancement of Cytometry [ABSTRACT FROM AUTHOR]

Published

2017

20. Photostimulation by femtosecond laser triggers restorable fragmentation in single mitochondrion.

Author

Wang, Yintao, He, Hao, Wang, Shaoyang, Liu, Yaohui, Hu, Minglie, Cao, Youjia, Kong, Siukai, Wei, Xunbin, and Wang, Chingyue

Abstract

Mitochondrial research is important to the study of ageing, apoptosis, and metabolic diseases. Over the years, mitochondria have been studied with stimulation by chemical agents in a global manner for basic and applied research. This approach lacks of precision and accuracy in terms of spatial and temporal resolution. Here we demonstrate a direct and well-defined photostimulation targeting on single mitochondrial tubular structure using a tightly-focused femtosecond (fs) laser that could precisely activate mitochondria at single tubule level to show restorable fragmentation and subsequent recovery after tens of seconds. In these two processes, a series of mitochondrial reactive oxygen species (mROS) flashes was observed and found critical to the mitochondrial fragmentation. Meanwhile, transient openings of mitochondrial permeability transition pores (mPTP) were seen with oscillations of mitochondrial membrane potential. These activities were crucial for the recovery through scavenging the mROS. Without the feedback mechanisms, the fragmented mitochondria could not return back to their original tubular structure. These interesting observations show that photostimulation by fs laser is an active, precise, clean and well-defined approach to dissect the role of mitochondria in normal physiology and different kinds of diseases. [ABSTRACT FROM AUTHOR]

Published

2017

21. SIRT2 mediates NADH-induced increases in Nrf2, GCL, and glutathione by modulating Akt phosphorylation in PC12 cells.

Author

Cao, Wei, Hong, Yunyi, Chen, Heyu, Wu, Fan, Wei, Xunbin, and Ying, Weihai

Subjects

SIRTUINS, NADH dehydrogenase, LEUCINE zippers, GLUTATHIONE, PROTEIN kinase B, PHOSPHORYLATION, RNA

Abstract

SIRT2 plays important roles in multiple biological processes. It is unclear whether SIRT2 affects antioxidant capacity by modulating Nrf2, a key transcription factor for multiple antioxidant genes. By studying NADH-treated differentiated PC12 cells, we found that NADH induced a significant increase in the nuclear Nrf2, which was prevented by both SIRT2 si RNA and SIRT2 inhibitor, AGK2. SIRT2 si RNA also blocked the NADH-induced increases in glutamate cysteine ligase ( GCL) and glutathione. Moreover, SIRT2 si RNA and AGK2 blocked NADH-induced Akt phosphorylation, and inhibition of Akt phosphorylation prevented NADH-induced increases in the nuclear Nrf2 and glutathione. Collectively, our study shows that SIRT2 regulates nuclear Nrf2 levels by modulating Akt phosphorylation, thus modulating the levels of GCL and total glutathione. [ABSTRACT FROM AUTHOR]

Published

2016

22. Circulating tumor cells are correlated with disease progression and treatment response in an orthotopic hepatocellular carcinoma model.

Author

Yan, Jun, Fan, Zhichao, Wu, Xiufeng, Xu, Min, Jiang, Jiahao, Tan, Changjun, Wu, Weizhong, Wei, Xunbin, and Zhou, Jian

Abstract

Hepatocellular carcinoma (HCC) is a highly malignant tumor characterized by rapid progression, poor prognosis, and frequent hematogenous metastasis. A minimally invasive diagnostic biomarker that can predict disease progression and treatment response would be of extraordinary benefit. Therefore, we have investigated whether the number of circulating tumor cells (CTCs) is correlated with disease progression and treatment response in HCC. Here we report that the number of CTCs, monitored by in vivo flow cytometry (IVFC), is strongly correlated with disease progression and treatment response in a highly metastatic orthotopic nude mouse model of green fluorescent protein (GFP)-labeled HCC. Sorafenib treatment reduces the number of CTCs significantly. The decreased number of CTCs is consistent with low lung metastasis. This study has demonstrated a considerable clinical value of CTCs as a biomarker in predicting disease progression and monitoring therapeutic efficacy in patients with HCC. © 2015 International Society for Advancement of Cytometry [ABSTRACT FROM AUTHOR]

Published

2015

23. Near infrared in vivo flow cytometry for tracking fluorescent circulating cells.

Author

Suo, Yuanzhen, Liu, Tao, Xie, Chengying, Wei, Dan, Tan, Xu, Wu, Liao, Wang, Xiaoling, He, Hao, Shi, Guohua, Wei, Xunbin, and Shi, Chunmeng

Abstract

The in vivo flow cytometry (IVFC) is now a powerful technique in biomedical research, especially for tracking specific cells in circulatory system. The current fluorescence-based IVFC is limited to visible spectrum, while near infrared (NIR) dyes have their advantages, such as deeper penetration, less absorption and less scattering for NIR fluorescence. Here, using an NIR in vivo flow cytometer with a 785 nm laser excitation, the measurement of fluorescent dye IR-780 labeled circulating cells is demonstrated. Representative peaks corresponding to NIR fluorescent circulating cells are detected and quantified. In addition, blood flow information, including the blood flow velocity and flow volume per unit time, is obtained. By simultaneous detection of IR-780 and enhanced green fluorescent protein (EGFP) signals from dual labeled cells, the IR-780 is shown to be a suitable fluorescent dye for multicolor detection by IVFC, including NIR. Thus, the IVFC is extended to the NIR range and shows potential application in biomedical research. © 2015 International Society for Advancement of Cytometry [ABSTRACT FROM AUTHOR]

Published

2015

24. Evaluating tumor metastatic potential by imaging intratumoral acidosis via p H-activatable near-infrared fluorescent probe.

Author

Wang, Lu, Fan, Zhichao, Zhang, Jingye, Changyi, Yinzhi, Huang, Cuiyun, Gu, Yanjuan, Xu, Ziyao, Tang, Zhijia, Lu, Weiyue, Wei, Xunbin, and Li, Cong

Abstract

Metastasis accounts for the vast majority of cancer deaths. To minimize metastasis-associated mortality, it is crucially important to evaluate the metastatic potential (M.P.), that is, defined as a tendency of a primary tumor to colonize a distant organ. Dysregulated pH in solid tumors, especially the acidification of extracellular pH (pHe) promotes dormant metastasis by driving protease-mediated digestion, disrupting cell-matrix interaction and increasing migration of cancer cells. Therefore, imaging intratumoral acidosis creates a unique opportunity to evaluate the M.P. In this work, a novel pH activatable probe was developed, in which two near-infrared (NIR) fluorophores were conjugated via a flexible and acid liable linkage. While the fluorescence of this probe is quenched due to intramolecular dimeric aggregate under neutral environment, the cleavage of pH liable linkage with the concomitant disruption of aggregates in acidic tumor microenvironment results in a remarkable fluorescence enhancement. This probe not only visualized the primary tumors with high target to background (T/B) signal ratio in vivo, but also revealed the correlation between the M.P. and acidosis distribution pattern in tumor. While the acidosis locate dispersedly at tumor periphery in highly metastatic tumor, it distribute more widely in lowly metastatic tumor and the acidification degree increases substantially from the margin to core areas. This pH activatable NIR fluorescent probe holds the potential to evaluate the M.P., monitor the therapeutic response and predict the prognosis by delineating acidosis in tumors. [ABSTRACT FROM AUTHOR]

Published

2015

25. The bullseye synapse formed between CD4+ T-cell and staphylococcal enterotoxin B-pulsed dendritic cell is a suppressive synapse in T-cell response.

Author

Lin, Wei, Fan, Zhichao, Suo, Yuanzhen, Deng, Yuting, Zhang, Min, Wang, Jiyang, Wei, Xunbin, and Chu, Yiwei

Subjects

T cells, DENDRITIC cells, T cell receptors, LYMPHOCYTE function-associated antigen-1, CD54 antigen, ENTEROTOXINS

Abstract

The immunological synapse (IS) is a supermolecular activation cluster formed between T cells and antigen-presenting cells. Although diverse IS structures have been reported, the function of the IS in T-cell activation remains unclear. Here, we found that the bullseye IS, one of IS types at the interface of CD4+ T cells and staphylococcal enterotoxin B-pulsed dendritic cells, suppressed CD4+ T-cell activation, whereas multifocal IS, another synapse type, stimulated CD4+ T-cell activation. Consistent with these results, bullseye IS formation was accompanied by a low-level calcium response in T cells and a loss of T-cell receptor signalling molecules from the synapse, whereas multifocal IS exhibited the opposite. Furthermore, we found that CD4+ CD25+ regulatory T cells (Tregs) more efficiently formed bullseye IS and promoted bullseye IS formation in CD4+ CD25- T cells. Cytotoxic T-lymphocyte antigen-4 (CTLA-4), an inhibitory molecule expressed continuously on Tregs, was localised in bullseye IS. Moreover, blocking CTLA-4 reduced the percentage of bullseye IS formation and promoted T-cell activation. Our data thus indicate that bullseye IS formation is mediated by CTLA-4, and may negatively control T-cell activation as a suppressive synapse. [ABSTRACT FROM AUTHOR]

Published

2015

26. Basal CD38/cyclic ADP-ribose-dependent signaling mediates ATP release and survival of microglia by modulating connexin 43 hemichannels.

Author

Ma, Yingxin, Cao, Wei, Wang, Lu, Jiang, Jingwen, Nie, Hui, Wang, Ban, Wei, Xunbin, and Ying, Weihai

Published

2014

27. An optical platform for cell tracking in adult zebrafish.

Author

Zhang, Li, Alt, Clemens, Li, Pulin, White, Richard M., Zon, Leonard I., Wei, Xunbin, and Lin, Charles P.

Abstract

Adult zebrafish are being increasingly used as a model in cancer and stem cell research. Here we describe an integrated optical system that combines a laser scanning confocal microscope (LSCM) and an in vivo flow cytometer (IVFC) for simultaneous visualization and cell quantification. The system is set up specifically for non-invasive tracking of both stationary and circulating cells in adult zebrafish (casper) that have been engineered to be optically transparent. Confocal imaging in this instrument serves the dual purpose of visualizing fish tissue microstructure and an imaging-based guide to locate a suitable vessel for quantitative analysis of circulating cells by IVFC. We demonstrate initial testing of this novel instrument by imaging the transparent adult zebrafish casper vasculature and tracking circulating cells in CD41-GFP/Gata1-DsRed transgenic fish whose thrombocytes/erythrocytes express the green and red fluorescent proteins. In vivo measurements allow cells to be tracked under physiological conditions in the same fish over time, without drawing blood samples or sacrificing animals. We also discuss the potential applications of this instrument in biomedical research. © 2011 International Society for Advancement of Cytometry [ABSTRACT FROM AUTHOR]

Published

2012

28. Circulation times of prostate cancer and hepatocellular carcinoma cells by in vivo flow cytometry.

Author

Li, Yan, Guo, Jin, Wang, Chaofeng, Fan, Zhichao, Liu, Guangda, Wang, Cheng, Gu, Zhengqin, Damm, David, Mosig, Axel, and Wei, Xunbin

Abstract

In metastasis, the cancer cells that travel through the body are capable of establishing new tumors in locations remote from the site of the original disease. To metastasize, a cancer cell must break away from its tumor and invade either the circulatory or lymphatic system, which will carry it to a new location, and establish itself in the new site. Once in the blood stream, the cancer cells now have access to every portion of the body. Here, we have used the 'in vivo flow cytometer' to study if there is any relationship between metastatic potential and depletion kinetics of circulating tumor cells. The in vivo flow cytometer has the capability to detect and quantify continuously the number and flow characteristics of fluorescently labelled cells in vivo. We have improved the counting algorithm and measured the depletion kinetics of cancer cells with different metastatic potential. Interestingly, more invasive PC-3 prostate cancer cells are depleted faster from the circulation than LNCaP cells. In addition, we have measured the depletion kinetics of two related human hepatocellular carcinoma (liver cancer) cell lines, high-metastatic HCCLM3 cells, and low-metastatic HepG2 cells. More than 60% HCCLM3 cells are depleted within the first hour. Interestingly, the low-metastatic HepG2 cells possess noticeably slower depletion kinetics. In comparison, <40% HepG2 cells are depleted within the first hour. The differences in depletion kinetics might provide insights into early metastasis processes. © 2011 International Society for Advancement of Cytometry [ABSTRACT FROM AUTHOR]

Published

2011

29. pH-Activated Near-Infrared Fluorescence Nanoprobe Imaging Tumors by Sensing the Acidic Microenvironment.

Author

Li, Cong, Xia, Jinsong, Wei, Xunbin, Yan, Huihui, Si, Zhan, and Ju, Shenghong

Published

2010

30. Highly Efficient Two‐Photon Photodynamic Therapy Using Light‐Sheet Excitation.

Author

Pang, Wen, Wang, Chen, Wu, Wenbo, Wei, Xunbin, and Gu, Bobo

Abstract

Two‐photon photodynamic therapy (TP‐PDT), which utilizes near‐infrared light to excite photosensitizer via two‐photon excitation (TPE), is a promising modality in the treatment of deeply seated tumors or thick tumors. However, the TPE domain is much smaller than the tumor volume, significantly limiting the therapeutical outcomes of TP‐PDT. Here, a light‐sheet TPE system is designed and constructed using a cylindrical lens for highly efficient TP‐PDT. The light‐sheet TPE performance is characterized and optimized via theoretical analysis and experimental studies in solution, phantom, and tumor. The optimized excitation system can reach a large TPE domain of 2.6 × 2.7 × 0.09 mm in the tumor, which is not achievable using conventional TPE methods, enabling TPE and subsequently generated reactive oxygen species to cover the whole tumor under line‐scanning. Outstanding TP‐PDT therapeutic performance of 70% tumor growth inhibition rate is achieved under line‐scanned light‐sheet TPE, making the proposed light‐sheet excited TP‐PDT a potential therapeutic tool for future translational research. [ABSTRACT FROM AUTHOR]

Published

2024

31. Nanoscale imaging and sensing for biomedical applications.

Author

Fixler, Dror, Leary, James F., and Wei, Xunbin

Published

2017

32. Drug Delivery: Activated Platelets‐Targeting Micelles with Controlled Drug Release for Effective Treatment of Primary and Metastatic Triple Negative Breast Cancer (Adv. Funct. Mater. 13/2019).

Author

Zhang, Yujie, Zhu, Xi, Chen, Xinli, Chen, Qinjun, Zhou, Wenxi, Guo, Qin, Lu, Yifei, Li, Chao, Zhang, Yu, Liang, Donghui, Sun, Tao, Wei, Xunbin, and Jiang, Chen

Subjects

TRIPLE-negative breast cancer, CONTROLLED release drugs, MICELLES, METASTASIS

Abstract

In article number 1806620, Chen Jiang and co‐workers, inspired by the ability of activated platelets to track tumor metastasis, develop a novel activated plateletstargeting micelle for efficient anticancer drug delivery to primary and metastatic tumors. After specifically binding to activated platelets in circulation, the micelles capture circulating tumor cells (CTCs) through the "platelet bridge" and eliminate CTCs to prevent metastasis. [ABSTRACT FROM AUTHOR]

Published

2019

33. Activated Platelets‐Targeting Micelles with Controlled Drug Release for Effective Treatment of Primary and Metastatic Triple Negative Breast Cancer.

Author

Zhang, Yujie, Zhu, Xi, Chen, Xinli, Chen, Qinjun, Zhou, Wenxi, Guo, Qin, Lu, Yifei, Li, Chao, Zhang, Yu, Liang, Donghui, Sun, Tao, Wei, Xunbin, and Jiang, Chen

Subjects

TRIPLE-negative breast cancer, CONTROLLED release drugs, CELL adhesion molecules, DRUG delivery devices, LIVER metastasis

Abstract

The frequent relapse and metastasis characteristics of triple negative breast cancer (TNBC) make it a fraught issue with very poor prognosis in clinic. An effective treatment for TNBC should prevent and even eliminate metastasis as well as suppress primary lesion expansion. Recent progress reveals that platelets can be recruited and activated by tumor cells through intercellular adhesion molecules (ICAM), and help aggressive circulating tumor cells (CTCs) form metastasis. Therefore, activated platelets are considered with possession of tumor‐homing, CTC‐capturing, and metastasis‐targeting abilities. In this work, a P‐selectin (expressed on activated platelet surface) targeting peptide (PSN) is modified on a redox‐responsive paclitaxel‐loaded micelle (PSN‐PEG‐SS‐PTX4 micelle) to utilize activated platelets as a "bridge" for interaction with cancer cells. The PSN‐modified micelle can easily adhere to the surface of activated platelets and subsequently capture CTCs in blood circulation. Compared to Taxol and PEG‐SS‐PTX4 micelle, PSN‐PEG‐SS‐PTX4 micelle also exhibits enhanced primary TNBC/metastasis targeting and penetrating effect through binding with tumor infiltrating platelets and thus significantly improves treatment outcome. More importantly, PSN‐PEG‐SS‐PTX4 micelle potently suppressed lung metastasis of TNBC and reduced incidence of distant liver metastasis. The activated platelet‐targeting redox‐responsive micelle system provides a promising prospect for the omnidirectional treatment of metastatic cancer. A novel P‐selectin targeting micelle with controlled drug release is designed to utilize activated platelets as an endogenous device for efficient drug delivery to metastatic tumors. The micelle captures and eliminates circulating tumor cells via binding with activated platelets to prevent metastasis as well as penetrates and accumulates at primary tumors or metastasis via tumor‐infiltrating activated platelets. [ABSTRACT FROM AUTHOR]

Published

2019