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1. Fusion of cell-penetrating peptides to thermally responsive biopolymer improves tumor accumulation of p21 peptide in a mouse model of pancreatic cancer

Author

Walker LR, Ryu JS, Perkins E, McNally LR, and Raucher D

Subjects
Therapeutics. Pharmacology, RM1-950
Abstract

Leslie R Walker,1 Jung Su Ryu,1 Eddie Perkins,2 Lacey R McNally,3 Drazen Raucher1 1Department of Biochemistry, 2Department of Neurosurgery, University of Mississippi Medical Center, Jackson, MS, USA; 3Division of Hematology and Oncology, University of Louisville, Louisville, KY, USAAbstract: Current therapies for the treatment of pancreatic cancer are limited. The limitations of this type of treatment are abundant. The majority of chemotherapeutic agents used in clinics are highly toxic to both tumor cells and normal tissues due to the lack of specificity. Resistance can develop due to overexposure of these agents. To address these issues, these agents must be made more exclusive toward the tumor site. We have developed a macromolecular carrier based on the sequence of the biopolymer elastin-like polypeptide (ELP) that is able to aggregate upon reaching the externally heated tumor environment. This carrier is specific to the tumor as it only aggregates at the heated tumor site. ELP is soluble below its transition temperature but will aggregate when the temperature is raised above its transition temperature. ELP was modified by p21, a cell cycle inhibitory peptide, and the addition of Bac, a cell-penetrating peptide with nuclear localization capabilities. In this study, p21-ELP-Bac and its control, ELP-p21, were used in cell proliferation studies using the pancreatic cancer cell lines Panc-1, MiaPaca-2, and S2013. ELP-p21 had little effect on proliferation, while the half maximal inhibitory concentration of p21-ELP-Bac was ~30 µM. As translocation across the plasma membrane is a limiting step for delivery of macromolecules, these polypeptides were utilized in a pancreatic xenograft model to study the plasma clearance, biodistribution, tumor accumulation, and tumor reduction capabilities of the polypeptide with and without a cell-penetrating peptide.Keywords: elastin-like polypeptide, peptide, targeted drug delivery, macromolecule

Published
2014

2. Enhanced penetration into 3D cell culture using two and three layered gold nanoparticles

Author

Engl, CG, Priest T, Zhang G, Sun X, Patel DN, McNally LR, van Berkel V, Gobin AM, and Frieboes HB

Subjects
Medicine (General), R5-920
Abstract

Christopher G England,1 Thomas Priest,2 Guandong Zhang,2 Xinghua Sun,2 Dhruvinkumar N Patel,2 Lacey R McNally,3,4 Victor van Berkel,4,5 André M Gobin,2 Hermann B Frieboes1,2,41Department of Pharmacology and Toxicology, 2Department of Bioengineering, 3Department of Medicine, 4James Graham Brown Cancer Center, 5Department of Surgery, University of Louisville, KY, USAAbstract: Nano-scale particles sized 10–400 nm administered systemically preferentially extravasate from tumor vasculature due to the enhanced permeability and retention effect. Therapeutic success remains elusive, however, because of inhomogeneous particle distribution within tumor tissue. Insufficient tumor vascularization limits particle transport and also results in avascular hypoxic regions with non-proliferating cells, which can regenerate tissue after nanoparticle-delivered cytotoxicity or thermal ablation. Nanoparticle surface modifications provide for increasing tumor targeting and uptake while decreasing immunogenicity and toxicity. Herein, we created novel two layer gold-nanoshell particles coated with alkanethiol and phosphatidylcholine, and three layer nanoshells additionally coated with high-density-lipoprotein. We hypothesize that these particles have enhanced penetration into 3-dimensional cell cultures modeling avascular tissue when compared to standard poly(ethylene glycol) (PEG)-coated nanoshells. Particle uptake and distribution in liver, lung, and pancreatic tumor cell cultures were evaluated using silver-enhancement staining and hyperspectral imaging with dark field microscopy. Two layer nanoshells exhibited significantly higher uptake compared to PEGylated nanoshells. This multilayer formulation may help overcome transport barriers presented by tumor vasculature, and could be further investigated in vivo as a platform for targeted cancer therapies.Keywords: cancer nanotherapy, tumor hypoxia, nanovector transport

Published
2013

3. Publisher Correction: On the issue of transparency and reproducibility in nanomedicine

Author

Leong, HS, Butler, KS, Brinker, CJ, Azzawi, M, Conlan, S, Dufès, C, Owen, A, Rannard, S, Scott, C, Chen, C, Dobrovolskaia, MA, Kozlov, SV, Prina-Mello, A, Schmid, R, Wick, P, Caputo, F, Boisseau, P, Crist, RM, McNeil, SE, Fadeel, B, Tran, L, Hansen, SF, Hartmann, NB, Clausen, LPW, Skjolding, LM, Baun, A, Ågerstrand, M, Gu, Z, Lamprou, DA, Hoskins, C, Huang, L, Song, W, Cao, H, Liu, X, Jandt, KD, Jiang, W, Kim, BYS, Wheeler, KE, Chetwynd, AJ, Lynch, I, Moghimi, SM, Nel, A, Xia, T, Weiss, PS, Sarmento, B, Neves, JD, Santos, HA, Santos, L, Mitragotri, S, Little, S, Peer, D, Amiji, MM, Alonso, MJ, Petri-Fink, A, Balog, S, Lee, A, Drasler, B, Rothen-Rutishauser, B, Wilhelm, S, Acar, H, Harrison, RG, Mao, C, Mukherjee, P, Ramesh, R, McNally, LR, Busatto, S, Wolfram, J, Bergese, P, Ferrari, M, Fang, RH, Zhang, L, Zheng, J, Peng, C, Du, B, Yu, M, Charron, DM, Zheng, G, Pastore, C, Leong, HS, Butler, KS, Brinker, CJ, Azzawi, M, Conlan, S, Dufès, C, Owen, A, Rannard, S, Scott, C, Chen, C, Dobrovolskaia, MA, Kozlov, SV, Prina-Mello, A, Schmid, R, Wick, P, Caputo, F, Boisseau, P, Crist, RM, McNeil, SE, Fadeel, B, Tran, L, Hansen, SF, Hartmann, NB, Clausen, LPW, Skjolding, LM, Baun, A, Ågerstrand, M, Gu, Z, Lamprou, DA, Hoskins, C, Huang, L, Song, W, Cao, H, Liu, X, Jandt, KD, Jiang, W, Kim, BYS, Wheeler, KE, Chetwynd, AJ, Lynch, I, Moghimi, SM, Nel, A, Xia, T, Weiss, PS, Sarmento, B, Neves, JD, Santos, HA, Santos, L, Mitragotri, S, Little, S, Peer, D, Amiji, MM, Alonso, MJ, Petri-Fink, A, Balog, S, Lee, A, Drasler, B, Rothen-Rutishauser, B, Wilhelm, S, Acar, H, Harrison, RG, Mao, C, Mukherjee, P, Ramesh, R, McNally, LR, Busatto, S, Wolfram, J, Bergese, P, Ferrari, M, Fang, RH, Zhang, L, Zheng, J, Peng, C, Du, B, Yu, M, Charron, DM, Zheng, G, and Pastore, C

Abstract

© 2019, Springer Nature Limited. In the version of this Correspondence originally published, Christine Dufès was incorrectly written as Christine Dufés. This has been corrected in the online versions of the Correspondence.

Published
2019

7. Development of Lactococcus lactis encoding fluorescent proteins, GFP, mCherry and iRFP regulated by the nisin-controlled gene expression system.

Author

Martinez-Jaramillo, E, Garza-Morales, R, Loera-Arias, MJ, Saucedo-Cardenas, O, Montes-de-Oca-Luna, R, McNally, LR, and Gomez-Gutierrez, JG

Subjects
LACTOCOCCUS lactis, FLUORESCENT proteins, PROTEOMICS, BIOMOLECULES, BIOSYNTHESIS
Abstract

Fluorescent proteins are useful reporter molecules for a variety of biological systems. We present an alternative strategy for cloning reporter genes that are regulated by the nisin-controlled gene expression (NICE) system.Lactoccocus lactiswas genetically engineered to express green fluorescent protein (GFP), mCherry or near-infrared fluorescent protein (iRFP). The reporter gene sequences were optimized to be expressed byL. lactisusing inducible promoter pNis within the pNZ8048 vector. Expression of constructions that carry mCherry or GFP was observed by fluorescence microscopy 2 h after induction with nisin. Expression of iRFP was evaluated at 700 nm using an infrared scanner; cultures induced for 6 h showed greater iRFP expression than non-induced cultures or those expressing GFP. We demonstrated thatL. lactiscan express efficiently GFP, mCherry and iRFP fluorescent proteins using an inducible expression system. These strains will be useful for live cell imaging studies in vitro or for imaging studies in vivo in the case of iRFP. [ABSTRACT FROM PUBLISHER]

Published
2017
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11. Theranostic nanoparticles for detection and treatment of pancreatic cancer.

Author

Agarwal H, Bynum RC, Saleh N, Harris D, MacCuaig WM, Kim V, Sanderson EJ, Dennahy IS, Singh R, Behkam B, Gomez-Gutierrez JG, Jain A, Edil BH, and McNally LR

Subjects
Humans, Animals, Tumor Microenvironment, Drug Delivery Systems, Mice, Carcinoma, Pancreatic Ductal diagnosis, Carcinoma, Pancreatic Ductal drug therapy, Carcinoma, Pancreatic Ductal therapy, Carcinoma, Pancreatic Ductal diagnostic imaging, Pancreatic Neoplasms diagnosis, Pancreatic Neoplasms drug therapy, Theranostic Nanomedicine, Nanoparticles chemistry, Nanoparticles therapeutic use
Abstract

Pancreatic ductal adenocarcinoma (PDAC) is one of the most recalcitrant cancers due to its late diagnosis, poor therapeutic response, and highly heterogeneous microenvironment. Nanotechnology has the potential to overcome some of the challenges to improve diagnostics and tumor-specific drug delivery but they have not been plausibly viable in clinical settings. The review focuses on active targeting strategies to enhance pancreatic tumor-specific uptake for nanoparticles. Additionally, this review highlights using actively targeted liposomes, micelles, gold nanoparticles, silica nanoparticles, and iron oxide nanoparticles to improve pancreatic tumor targeting. Active targeting of nanoparticles toward either differentially expressed receptors or PDAC tumor microenvironment (TME) using peptides, antibodies, small molecules, polysaccharides, and hormones has been presented. We focus on microenvironment-based hallmarks of PDAC and the potential for actively targeted nanoparticles to overcome the challenges presented in PDAC. It describes the use of nanoparticles as contrast agents for improved diagnosis and the delivery of chemotherapeutic agents that target various aspects within the TME of PDAC. Additionally, we review emerging nano-contrast agents detected using imaging-based technologies and the role of nanoparticles in energy-based treatments of PDAC. This article is categorized under: Implantable Materials and Surgical Technologies > Nanoscale Tools and Techniques in Surgery Therapeutic Approaches and Drug Discovery > Nanomedicine for Oncologic Disease Diagnostic Tools > In Vivo Nanodiagnostics and Imaging., (© 2024 Wiley Periodicals LLC.)

Published
2024
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14. Influence of structural moieties in squaraine dyes on optoacoustic signal shape and intensity.

Author

MacCuaig WM, Wickizer C, Van RS, Buabeng ER, Lerner MR, Grizzle WE, Shao Y, Henary M, and McNally LR

Abstract

Optoacoustic imaging has grown in clinical relevance due to inherent advantages in sensitivity, resolution, and imaging depth, but the development of contrast agents is lacking. This study assesses the influence of structural features of squaraine dyes on optoacoustic activity through computational models, in vitro testing, and in vivo experimentation. The squaraine scaffold was decorated with halogens and side-chain extensions. Extension of side chains and heavy halogenation of squaraines both increased optoacoustic signals individually, although they had a more significant effect in tandem. Density functional theory models suggest that the origin of the increased optoacoustic signal is the increase in transition dipole moment and vibrational entropy, which manifested as increased absorbance in near-infrared region (NIR) wavelengths and decreased fluorescence quantum yield. This study provides insight into the structure-function relationships that will lead guiding principles for optimizing optoacoustic contrast agents. Further developments of squaraines and other agents will further increase the relevance of optoacoustic imaging in a clinical setting., Competing Interests: DECLARATION OF INTERESTS The authors declare no competing interests.

Published
2024
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15. Intraoperative Imaging in Hepatopancreatobiliary Surgery.

Author

Husarova T, MacCuaig WM, Dennahy IS, Sanderson EJ, Edil BH, Jain A, Bonds MM, McNally MW, Menclova K, Pudil J, Zaruba P, Pohnan R, Henson CE, Grizzle WE, and McNally LR

Abstract

Hepatopancreatobiliary surgery belongs to one of the most complex fields of general surgery. An intricate and vital anatomy is accompanied by difficult distinctions of tumors from fibrosis and inflammation; the identification of precise tumor margins; or small, even disappearing, lesions on currently available imaging. The routine implementation of ultrasound use shifted the possibilities in the operating room, yet more precision is necessary to achieve negative resection margins. Modalities utilizing fluorescent-compatible dyes have proven their role in hepatopancreatobiliary surgery, although this is not yet a routine practice, as there are many limitations. Modalities, such as photoacoustic imaging or 3D holograms, are emerging but are mostly limited to preclinical settings. There is a need to identify and develop an ideal contrast agent capable of differentiating between malignant and benign tissue and to report on the prognostic benefits of implemented intraoperative imaging in order to navigate clinical translation. This review focuses on existing and developing imaging modalities for intraoperative use, tailored to the needs of hepatopancreatobiliary cancers. We will also cover the application of these imaging techniques to theranostics to achieve combined diagnostic and therapeutic potential.

Published
2023
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16. Dynamic 2-deoxy-D-glucose-enhanced multispectral optoacoustic tomography for assessing metabolism and vascular hemodynamics of breast cancer.

Author

Han Z, MacCuaig WM, Gurcan MN, Claros-Sorto J, Garwe T, Henson C, Holter-Chakrabarty J, Hannafon B, Chandra V, Wellberg E, and McNally LR

Abstract

Clinical tools for measuring tumor vascular hemodynamics, such as dynamic contrast-enhanced MRI, are clinically important to assess tumor properties. Here we explored the use of multispectral optoacoustic tomography (MSOT), which has a high spatial and temporal resolution, to measure the intratumoral pharmacokinetics of a near-infrared-dye-labeled 2-Deoxyglucose, 2-DG-800, in orthotropic 2-LMP breast tumors in mice. As uptake of 2-DG-800 is dependent on both vascular properties, and glucose transporter activity - a widely-used surrogate for metabolism, we evaluate hemodynamics of 2-DG-MP by fitting the dynamic MSOT signal of 2-DG-800 into two-compartment models including the extended Tofts model (ETM) and reference region model (RRM). We showed that dynamic 2-DG-enhanced MSOT (DGE-MSOT) is powerful in acquiring hemodynamic rate constants, including K trans and K ep, via systemically injecting a low dose of 2-DG-800 (0.5 µmol/kg b.w.). In our study, both ETM and RRM are efficient in deriving hemodynamic parameters in the tumor. Area-under-curve (AUC) values (which correlate to metabolism), and K trans and K ep values, can effectively distinguish tumor from muscle. Hemodynamic parameters also demonstrated correlations to hemoglobin, oxyhemoglobin, and blood oxygen level (SO 2 ) measurements by spectral unmixing of the MSOT data. Together, our study for the first time demonstrated the capability of DGE-MSOT in assessing vascular hemodynamics of tumors., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2023 The Authors. Published by Elsevier GmbH.)

Published
2023
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17. Simultaneous Detection of Multiple Tumor-targeted Gold Nanoparticles in HER2-Positive Breast Tumors Using Optoacoustic Imaging.

Author

Samykutty A, Thomas KN, McNally M, Hagood J, Chiba A, Thomas A, McWilliams L, Behkam B, Zhan Y, Council-Troche M, Claros-Sorto JC, Henson C, Garwe T, Sarwar Z, Grizzle WE, and McNally LR

Subjects
Humans, Animals, Mice, Female, Gold, Trastuzumab, Molecular Imaging, Metal Nanoparticles, Breast Neoplasms metabolism, Mammary Neoplasms, Animal
Abstract

Purpose To develop optoacoustic, spectrally distinct, actively targeted gold nanoparticle-based near-infrared probes (trastuzumab [TRA], TRA-Aurelia-1, and TRA-Aurelia-2) that can be individually identifiable at multispectral optoacoustic tomography (MSOT) of human epidermal growth factor receptor 2 (HER2)-positive breast tumors. Materials and Methods Gold nanoparticle-based near-infrared probes (Aurelia-1 and 2) that are optoacoustically active and spectrally distinct for simultaneous MSOT imaging were synthesized and conjugated to TRA to produce TRA-Aurelia-1 and 2. Freshly resected human HER2-positive ( n = 6) and HER2-negative ( n = 6) triple-negative breast cancer tumors were treated with TRA-Aurelia-1 and TRA-Aurelia-2 for 2 hours and imaged with MSOT. HER2-expressing DY36T2Q cells and HER2-negative MDA-MB-231 cells were implanted orthotopically into mice ( n = 5). MSOT imaging was performed 6 hours following the injection, and the Friedman test was used for analysis. Results TRA-Aurelia-1 (absorption peak, 780 nm) and TRA-Aurelia-2 (absorption peak, 720 nm) were spectrally distinct. HER2-positive human breast tumors exhibited a significant increase in optoacoustic signal following TRA-Aurelia-1 (28.8-fold) or 2 (29.5-fold) ( P = .002) treatment relative to HER2-negative tumors. Treatment with TRA-Aurelia-1 and 2 increased optoacoustic signals in DY36T2Q tumors relative to those in MDA-MB-231 controls (14.8-fold, P < .001; 20.8-fold, P < .001, respectively). Conclusion The study demonstrates that TRA-Aurelia 1 and 2 nanoparticles operate as a spectrally distinct HER2 breast tumor-targeted in vivo optoacoustic agent. Keywords: Molecular Imaging, Nanoparticles, Photoacoustic Imaging, Breast Cancer Supplemental material is available for this article. © RSNA, 2023.

Published
2023
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18. Innovative Imaging Techniques Used to Evaluate Borderline-Resectable Pancreatic Adenocarcinoma.

Author

Chalfant H, Bonds M, Scott K, Condacse A, Dennahy IS, Martin WT, Little C, Edil BH, McNally LR, and Jain A

Subjects
Humans, Pancreatectomy methods, Diagnostic Imaging, Neoplasm Staging, Pancreatic Neoplasms, Pancreatic Neoplasms diagnostic imaging, Pancreatic Neoplasms surgery, Pancreatic Neoplasms pathology, Adenocarcinoma diagnostic imaging, Adenocarcinoma surgery, Adenocarcinoma pathology
Abstract

A diagnosis of pancreatic cancer carries a 5-y survival rate of less than 10%. Furthermore, the detection of pancreatic cancer occurs most often in later stages of the disease due to its location in the retroperitoneum and lack of symptoms (in most cases) until tumors become more advanced. Once diagnosed, cross-sectional imaging techniques are heavily utilized to determine the tumor stage and the potential for surgical resection. However, a major determinant of resectability is the extent of local vascular involvement of the mesenteric vessels and critical tributaries; current imaging techniques have limited capacity to accurately determine vascular involvement. Surrounding inflammation and fibrosis can be difficult to discriminate from viable tumor, making determination of the degree of vascular involvement unreliable. New innovations in fluorescence and optoacoustic imaging techniques may overcome these limitations and make determination of resectability more accurate. These imaging modalities are able to more clearly discern between viable tumor tissue and non-neoplastic inflammation or desmoplasia, allowing clinicians to more reliably characterize vascular involvement and develop individualized treatment plans for patients. This review will discuss the current imaging techniques used to diagnose pancreatic cancer, the barriers that current techniques raise to accurate staging, and novel fluorescence and optoacoustic imaging techniques that may provide more accurate clinical staging of pancreatic cancer., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published
2023
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19. Advances in Imaging of Inflammation, Fibrosis, and Cancer in the Gastrointestinal Tract.

Author

Harold KM, MacCuaig WM, Holter-Charkabarty J, Williams K, Hill K, Arreola AX, Sekhri M, Carter S, Gomez-Gutierrez J, Salem G, Mishra G, and McNally LR

Subjects
Humans, Inflammation diagnostic imaging, Tomography, X-Ray Computed, Magnetic Resonance Imaging methods, Endoscopy, Gastrointestinal methods, Fibrosis, Gastrointestinal Diseases diagnostic imaging, Neoplasms
Abstract

Gastrointestinal disease is prevalent and broad, manifesting itself in a variety of ways, including inflammation, fibrosis, infection, and cancer. However, historically, diagnostic technologies have exhibited limitations, especially with regard to diagnostic uncertainty. Despite development of newly emerging technologies such as optoacoustic imaging, many recent advancements have focused on improving upon pre-existing modalities such as ultrasound, computed tomography, magnetic resonance imaging, and endoscopy. These advancements include utilization of machine learning models, biomarkers, new technological applications such as diffusion weighted imaging, and new techniques such as transrectal ultrasound. This review discusses assessment of disease processes using imaging strategies for the detection and monitoring of inflammation, fibrosis, and cancer in the context of gastrointestinal disease. Specifically, we include ulcerative colitis, Crohn's disease, diverticulitis, celiac disease, graft vs. host disease, intestinal fibrosis, colorectal stricture, gastric cancer, and colorectal cancer. We address some of the most recent and promising advancements for improvement of gastrointestinal imaging, including unique discussions of such advancements with regard to imaging of fibrosis and differentiation between similar disease processes.

Published
2022
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21. Toxicity Assessment of Mesoporous Silica Nanoparticles upon Intravenous Injection in Mice: Implications for Drug Delivery.

Author

MacCuaig WM, Samykutty A, Foote J, Luo W, Filatenkov A, Li M, Houchen C, Grizzle WE, and McNally LR

Abstract

Nanoparticles are popular tools utilized to selectively deliver drugs and contrast agents for identification and treatment of disease. To determine the usefulness and translational potential of mesoporous silica nanoparticles (MSNs), further evaluations of toxicity are required. MSNs are among the most utilized nano-delivery systems due to ease of synthesis, pore structure, and functionalization. This study aims to elucidate toxicity as a result of intravenous injection of 25 nm MSNs coated with chitosan (C) or polyethylene glycol (PEG) in mice. Following acute and chronic injections, blood was evaluated for standard blood chemistry and complete blood count analyses. Blood chemistry results primarily indicated that no abnormalities were present following acute or chronic injections of MSNs, or C/PEG-coated MSNs. After four weekly administered treatments, vital organs showed minor exacerbation of pre-existing lesions in the 35KPEG-MSN and moderate exacerbation of pre-existing lesions in uncoated MSN and 2KPEG-MSN treatment groups. In contrast, C-MSN treatment groups had minimal changes compared to controls. This study suggests 25 nm MSNs coated with chitosan should elicit minimal toxicity when administered as either single or multiple intravenous injections, but MSNs coated with PEG, especially 2KPEG may exacerbate pre-existing vascular conditions. Further studies should evaluate varying sizes and types of nanoparticles to provide a better overall understanding on the relation between nanoparticles and in vivo toxicity.

Published
2022
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22. Nanotheranostics for Image-Guided Cancer Treatment.

Author

Dennahy IS, Han Z, MacCuaig WM, Chalfant HM, Condacse A, Hagood JM, Claros-Sorto JC, Razaq W, Holter-Chakrabarty J, Squires R, Edil BH, Jain A, and McNally LR

Abstract

Image-guided nanotheranostics have the potential to represent a new paradigm in the treatment of cancer. Recent developments in modern imaging and nanoparticle design offer an answer to many of the issues associated with conventional chemotherapy, including their indiscriminate side effects and susceptibility to drug resistance. Imaging is one of the tools best poised to enable tailoring of cancer therapies. The field of image-guided nanotheranostics has the potential to harness the precision of modern imaging techniques and use this to direct, dictate, and follow site-specific drug delivery, all of which can be used to further tailor cancer therapies on both the individual and population level. The use of image-guided drug delivery has exploded in preclinical and clinical trials although the clinical translation is incipient. This review will focus on traditional mechanisms of targeted drug delivery in cancer, including the use of molecular targeting, as well as the foundations of designing nanotheranostics, with a focus on current clinical applications of nanotheranostics in cancer. A variety of specially engineered and targeted drug carriers, along with strategies of labeling nanoparticles to endow detectability in different imaging modalities will be reviewed. It will also introduce newer concepts of image-guided drug delivery, which may circumvent many of the issues seen with other techniques. Finally, we will review the current barriers to clinical translation of image-guided nanotheranostics and how these may be overcome.

Published
2022
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23. Differential expression of microRNA between triple negative breast cancer patients of African American and European American descent.

Author

MacCuaig WM, Thomas A, Claros-Sorto JC, Gomez-Gutierrez JG, Alexander AC, Wellberg EA, Grizzle WE, and McNally LR

Subjects
Black or African American genetics, Female, Gene Expression Regulation, Neoplastic, Humans, White People genetics, MicroRNAs genetics, Triple Negative Breast Neoplasms genetics
Abstract

There are racial disparities in the outcome of triple negative breast cancer (TNBC) patients between women of African ancestry and women of European ancestry, even after accounting for lifestyle, socioeconomic and clinical factors. MicroRNA (miRNA) are non-coding molecules whose level of expression is associated with cancer suppression, proliferation and drug resistance; therefore, these have potential for biomarker applications in cancers including TNBC. Historically, miRNAs up-regulated in African American (AA) patients have received less attention than for patients of European ancestry. Using laser capture microdissection (LCM) to acquire ultrapure tumor cell samples, miRNA expression was evaluated in 15 AA and 15 European American (EA) TNBC patients. Tumor sections were evaluated using RNA extraction followed by miRNA analysis and profiling. Results were compared based on ethnicity and method of tissue fixation. miRNAs that showed high differential expression in AA TNBC patients compared to EA included: miR-19a, miR-192, miR-302a, miR-302b, miR-302c, miR-335, miR-520b, miR-520f and miR-645. LCM is a useful technique for isolation of tumor cells. We found a greater abundance of RNA in frozen samples compared to formalin fixed, paraffin embedded samples. miRNA appears to be a useful biomarker for TNBC to improve diagnosis and treatment.

Published
2022
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24. Active Targeting Significantly Outperforms Nanoparticle Size in Facilitating Tumor-Specific Uptake in Orthotopic Pancreatic Cancer.

Author

MacCuaig WM, Fouts BL, McNally MW, Grizzle WE, Chuong P, Samykutty A, Mukherjee P, Li M, Jasinski JB, Behkam B, and McNally LR

Subjects
Animals, Antineoplastic Agents chemistry, Cell Line, Tumor, Cell Proliferation drug effects, Cell Survival drug effects, Drug Screening Assays, Antitumor, Female, Humans, Materials Testing, Mice, Mice, Nude, Nanoparticles chemistry, Neoplasms, Experimental drug therapy, Neoplasms, Experimental metabolism, Neoplasms, Experimental pathology, Pancreatic Neoplasms metabolism, Pancreatic Neoplasms pathology, Particle Size, Peptides chemistry, Antineoplastic Agents pharmacology, Nanoparticles metabolism, Pancreatic Neoplasms drug therapy, Peptides pharmacology
Abstract

Nanoparticles are widely studied as theranostic vehicles for cancer; however, clinical translation has been limited due to poor tumor specificity. Features that maximize tumor uptake remain controversial, particularly when using clinically relevant models. We report a systematic study that assesses two major features for the impact on tumor specificity, i . e ., active vs passive targeting and nanoparticle size, to evaluate relative influences in vivo . Active targeting via the V7 peptide is superior to passive targeting for uptake by pancreatic tumors, irrespective of nanoparticle size, observed through in vivo imaging. Size has a secondary effect on uptake for actively targeted nanoparticles in which 26 nm nanoparticles outperform larger 45 and 73 nm nanoparticles. Nanoparticle size had no significant effect on uptake for passively targeted nanoparticles. Results highlight the superiority of active targeting over nanoparticle size for tumor uptake. These findings suggest a framework for optimizing similar nonaggregate nanoparticles for theranostic treatment of recalcitrant cancers.

Published
2021
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25. The neutral red assay can be used to evaluate cell viability during autophagy or in an acidic microenvironment in vitro.

Author

Gomez-Gutierrez JG, Bhutiani N, McNally MW, Chuong P, Yin W, Jones MA, Zeiderman MR, Grizzle WE, and McNally LR

Subjects
Antineoplastic Agents pharmacology, Apoptosis drug effects, Cell Line, Tumor, Cell Survival drug effects, Humans, Neutral Red pharmacology, Autophagy drug effects
Abstract

Harsh conditions within the tumor microenvironment, such as hypoxia and extracellular acidic pH (pH e ), inactivate some chemotherapies, which results in limited or no cytotoxicity. Standard MTT, ATPlite and protease assays that are used to determine the potency of newly developed drugs often give erroneous results when applied under hypoxic or acidic conditions. Therefore, development of a cytotoxicity assay that does not yield false positive or false negative results under circumstances of both hypoxia and acidic pH e is needed. We evaluated currently used cell viability assays as well as neutral red staining to assess viability of ovarian and pancreatic cancer cells grown in an acidic pH e microenvironment after treatment with carboplatin, gemcitabine or chloroquine. We validated cell viability using western blotting of pro-caspase-9 and cleaved-caspase-9, and LC3-I and - II. Standard cell viability assays indicated cell viability accurately at pH e 7.4, but was not correlated with induction of apoptosis or autophagy at acidic pH e . By contrast, our modified neutral red assay detected cell viability accurately over a range of pH e as demonstrated by its correlation with induction of apoptosis and autophagy. Neutral red staining is effective for evaluating the effect of chemotherapeutic agents on cell viability under acidic pH e or hypoxic conditions.

Published
2021
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26. Mesoporous Silica Nanoparticles: Properties and Strategies for Enhancing Clinical Effect.

Author

Frickenstein AN, Hagood JM, Britten CN, Abbott BS, McNally MW, Vopat CA, Patterson EG, MacCuaig WM, Jain A, Walters KB, and McNally LR

Abstract

Due to the theragnostic potential of mesoporous silica nanoparticles (MSNs), these were extensively investigated as a novel approach to improve clinical outcomes. Boasting an impressive array of formulations and modifications, MSNs demonstrate significant in vivo efficacy when used to identify or treat myriad malignant diseases in preclinical models. As MSNs continue transitioning into clinical trials, a thorough understanding of the characteristics of effective MSNs is necessary. This review highlights recent discoveries and advances in MSN understanding and technology. Specific focus is given to cancer theragnostic approaches using MSNs. Characteristics of MSNs such as size, shape, and surface properties are discussed in relation to effective nanomedicine practice and projected clinical efficacy. Additionally, tumor-targeting options used with MSNs are presented with extensive discussion on active-targeting molecules. Methods for decreasing MSN toxicity, improving site-specific delivery, and controlling release of loaded molecules are further explained. Challenges facing the field and translation to clinical environments are presented alongside potential avenues for continuing investigations.

Published
2021
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28. Diabetes, Obesity, and Inflammation: Impact on Clinical and Radiographic Features of Breast Cancer.

Author

Miller B, Chalfant H, Thomas A, Wellberg E, Henson C, McNally MW, Grizzle WE, Jain A, and McNally LR

Subjects
Female, Humans, Breast Neoplasms diagnostic imaging, Breast Neoplasms metabolism, Diabetes Mellitus diagnostic imaging, Diabetes Mellitus metabolism, Mammography, Obesity diagnostic imaging, Obesity metabolism
Abstract

Obesity, diabetes, and inflammation increase the risk of breast cancer, the most common malignancy in women. One of the mainstays of breast cancer treatment and improving outcomes is early detection through imaging-based screening. There may be a role for individualized imaging strategies for patients with certain co-morbidities. Herein, we review the literature regarding the accuracy of conventional imaging modalities in obese and diabetic women, the potential role of anti-inflammatory agents to improve detection, and the novel molecular imaging techniques that may have a role for breast cancer screening in these patients. We demonstrate that with conventional imaging modalities, increased sensitivity often comes with a loss of specificity, resulting in unnecessary biopsies and overtreatment. Obese women have body size limitations that impair image quality, and diabetes increases the risk for dense breast tis-sue. Increased density is known to obscure the diagnosis of cancer on routine screening mammography. Novel molecu-lar imaging agents with targets such as estrogen receptor, human epidermal growth factor receptor 2 (HER2), pyrimi-dine analogues, and ligand-targeted receptor probes, among others, have potential to reduce false positive results. They can also improve detection rates with increased resolution and inform therapeutic decision making. These emerg-ing imaging techniques promise to improve breast cancer diagnosis in obese patients with diabetes who have dense breasts, but more work is needed to validate their clinical application.

Published
2021
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29. An integrated model of N6-methyladenosine regulators to predict tumor aggressiveness and immune evasion in pancreatic cancer.

Author

Zhou Z, Zhang J, Xu C, Yang J, Zhang Y, Liu M, Shi X, Li X, Zhan H, Chen W, McNally LR, Fung KM, Luo W, Houchen CW, He Y, Zhang C, and Li M

Subjects
Adenosine metabolism, Area Under Curve, Carcinoma, Pancreatic Ductal immunology, Carcinoma, Pancreatic Ductal mortality, Carcinoma, Pancreatic Ductal pathology, DNA Copy Number Variations, Databases, Factual, Female, Humans, Immune Checkpoint Proteins genetics, Immune Checkpoint Proteins metabolism, Immunotherapy, Male, Middle Aged, Pancreatic Neoplasms genetics, Pancreatic Neoplasms immunology, Pancreatic Neoplasms mortality, Proportional Hazards Models, ROC Curve, Severity of Illness Index, Survival Analysis, Adenosine analogs & derivatives, Pancreatic Neoplasms pathology
Abstract

Background: N6-methyladenosine (m6A) is the most abundant mRNA modification. Whether m6A regulators can determine tumor aggressiveness and risk of immune evasion in pancreatic ductal adenocarcinoma (PDAC) remains unknown., Methods: An integrated model named "m6Ascore" is constructed based on RNA-seq data of m6A regulators in PDAC. Association of m6Ascore and overall survival is validated across several different datasets. Overlaps of m6Ascore and established molecular classifications of PDAC is examined. Immune infiltration, enriched pathways, somatic copy number alterations (SCNAs), mutation profiles and response to immune checkpoint inhibitors are compared between m6Ascore-high and m6Ascore-low tumors., Findings: m6Ascore is associated with dismal overall survival and increased tumor recurrence in PDAC as well as several other solid tumors including colorectal cancer and breast cancer. Basal-like (Squamous) PDAC has higher m6Ascore than that in the classical PDAC. Mechanism study showed m6Ascore-high tumors are characterized with reduced immune infiltration and T cells exhaustion. Meanwhile, m6Ascore is associated with genes regulating cachexia and chemoresistance in PDAC. Furthermore, distinct SCNAs patterns and mutation profiles of KRAS and TP53 are present in m6Ascore-high tumors, indicating immune evasion. m6Ascore-low tumors have higher response rates to immune checkpoint inhibitors (ICIs)., Interpretation: These findings indicate m6Ascore can predict aggressiveness and immune evasion in pancreatic cancer. This model has implications for pancreatic cancer prognosis and treatment response to ICIs., Funding: This work was supported in part by National Institutes of Health (NIH) grants to M. Li (R01 CA186338, R01 CA203108, R01 CA247234 and the William and Ella Owens Medical Research Foundation) and NIH/National Cancer Institute Q39 award P30CA225520 to Stephenson Cancer Center., Competing Interests: Declaration of Competing Interest The authors declare no conflict of interest., (Copyright © 2021 The Authors. Published by Elsevier B.V. All rights reserved.)

Published
2021
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30. Improved pentamethine cyanine nanosensors for optoacoustic imaging of pancreatic cancer.

Author

Laramie MD, Fouts BL, MacCuaig WM, Buabeng E, Jones MA, Mukherjee P, Behkam B, McNally LR, and Henary M

Subjects
Animals, Carbocyanines chemistry, Contrast Media chemical synthesis, Contrast Media pharmacokinetics, Female, Mice, Silicon Dioxide chemistry, Biosensing Techniques methods, Nanoparticles chemistry, Pancreatic Neoplasms diagnostic imaging, Photoacoustic Techniques methods
Abstract

Optoacoustic imaging is a new biomedical imaging technology with clear benefits over traditional optical imaging and ultrasound. While the imaging technology has improved since its initial development, the creation of dedicated contrast agents for optoacoustic imaging has been stagnant. Current exploration of contrast agents has been limited to standard commercial dyes that have already been established in optical imaging applications. While some of these compounds have demonstrated utility in optoacoustic imaging, they are far from optimal and there is a need for contrast agents with tailored optoacoustic properties. The synthesis, encapsulation within tumor targeting silica nanoparticles and applications in in vivo tumor imaging of optoacoustic contrast agents are reported.

Published
2021
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31. Molecular Imaging of Inflammatory Disease.

Author

Jones MA, MacCuaig WM, Frickenstein AN, Camalan S, Gurcan MN, Holter-Chakrabarty J, Morris KT, McNally MW, Booth KK, Carter S, Grizzle WE, and McNally LR

Abstract

Inflammatory diseases include a wide variety of highly prevalent conditions with high mortality rates in severe cases ranging from cardiovascular disease, to rheumatoid arthritis, to chronic obstructive pulmonary disease, to graft vs. host disease, to a number of gastrointestinal disorders. Many diseases that are not considered inflammatory per se are associated with varying levels of inflammation. Imaging of the immune system and inflammatory response is of interest as it can give insight into disease progression and severity. Clinical imaging technologies such as computed tomography (CT) and magnetic resonance imaging (MRI) are traditionally limited to the visualization of anatomical information; then, the presence or absence of an inflammatory state must be inferred from the structural abnormalities. Improvement in available contrast agents has made it possible to obtain functional information as well as anatomical. In vivo imaging of inflammation ultimately facilitates an improved accuracy of diagnostics and monitoring of patients to allow for better patient care. Highly specific molecular imaging of inflammatory biomarkers allows for earlier diagnosis to prevent irreversible damage. Advancements in imaging instruments, targeted tracers, and contrast agents represent a rapidly growing area of preclinical research with the hopes of quick translation to the clinic.

Published
2021
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32. Development of Multispectral Optoacoustic Tomography as a Clinically Translatable Modality for Cancer Imaging.

Author

MacCuaig WM, Jones MA, Abeyakoon O, and McNally LR

Subjects
Humans, Neoplasms diagnostic imaging, Photoacoustic Techniques, Tomography
Abstract

The use of optoacoustic imaging takes advantage of the photoacoustic effect to generate high-contrast, high-resolution medical images at penetration depths of up to 5 cm. Multispectral optoacoustic tomography (MSOT) is a type of optoacoustic imaging system that has seen promising preclinical success with a recent emergence into the clinic. Multiwavelength illumination of tissue allows for the mapping of multiple chromophores, which are generated endogenously or exogenously. However, translation of MSOT to the clinic is still in its preliminary stages. For successful translation, MSOT requires refinement of probes and data-acquisition systems to tailor to the human body, along with more intuitive, real-time visualization settings. The possibilities of optoacoustic imaging, namely MSOT, in the clinic are reviewed here. ©RSNA, 2020., Competing Interests: Disclosures of Conflicts of Interest: W.M.M. disclosed no relevant relationships. M.A.J. disclosed no relevant relationships. O.A. disclosed no relevant relationships. L.R.M. Activities related to the present article: institution received NIH grants (R01CA212350, R01EB020125, and R01CA205941). Activities not related to the present article: editorial board member of Radiology: Imaging Cancer (RSNA). Other relationships: disclosed no relevant relationships., (2020 by the Radiological Society of North America, Inc.)

Published
2020
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33. Actively Targeted Nanodelivery of Echinomycin Induces Autophagy-Mediated Death in Chemoresistant Pancreatic Cancer In Vivo.

Author

Thomas A, Samykutty A, Gomez-Gutierrez JG, Yin W, Egger ME, McNally M, Chuong P, MacCuaig WM, Albeituni S, Zeiderman M, Li M, Edil BH, Grizzle WE, McMasters KM, and McNally LR

Abstract

Pancreatic cancer remains a recalcitrant neoplasm associated with chemoresistance and high fatality. Because it is frequently resistant to apoptosis, exploiting autophagic cell death could offer a new treatment approach. We repurpose echinomycin, an antibiotic encapsulated within a syndecan-1 actively targeted nanoparticle, for treatment of pancreatic cancer. Tumor-specific uptake, biodistribution, efficacy of nanodelivered echinomycin, and mechanism of cell death were assessed in aggressive, metastatic models of pancreatic cancer. In these autophagic-dependent pancreatic cancer models, echinomycin treatment resulted in autophagic cell death noted by high levels of LC3 among other autophagy markers, but without hallmarks of apoptosis, e.g., caspase activation and chromatin fragmentation, or necrosis, e.g., plasma membrane degradation and chromatin condensation/degrading. In vivo, biodistribution of syndecan-1-targeted nanoparticles indicated preferential S2VP10 or S2CP9 tumor uptake compared to the liver and kidney (S2VP10 p = 0.0016, p = 0.00004 and S2CP9 p = 0.0009, p = 0.0001). Actively targeted nanodelivered echinomycin resulted in significant survival increases compared to Gemzar (S2VP10 p = 0.0003, S2CP9 p = 0.0017) or echinomycin only (S2VP10 p = 0.0096, S2CP9 p = 0.0073). We demonstrate that actively targeted nanodelivery of echinomycin results in autophagic cell death in pancreatic and potentially other high-autophagy, apoptosis-resistant tumors. Collectively, these findings support syndecan-1-targeted delivery of echinomycin and dysregulation of autophagy to induce cell death in pancreatic cancer.

Published
2020
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34. Incidence and Survival by Human Epidermal Growth Factor Receptor 2 Status in Young Women With Stage I-III Breast Cancer: SEER, 2010-2016.

Author

Thomas A, Rhoads A, Suhl J, Conway KM, Hundley WG, McNally LR, Oleson J, Melin SA, Lynch CF, and Romitti PA

Subjects
Adult, Biomarkers, Tumor analysis, Breast Neoplasms diagnosis, Breast Neoplasms pathology, Female, Humans, Incidence, Kaplan-Meier Estimate, Middle Aged, Neoplasm Staging, Premenopause, Prognosis, Receptor, ErbB-2 analysis, Receptors, Estrogen analysis, Receptors, Estrogen metabolism, Receptors, Progesterone analysis, Receptors, Progesterone metabolism, Retrospective Studies, SEER Program statistics & numerical data, United States epidemiology, Young Adult, Biomarkers, Tumor metabolism, Breast pathology, Breast Neoplasms epidemiology, Receptor, ErbB-2 metabolism
Abstract

Background: Young premenopausal women with breast cancer often experience more aggressive disease biology and poorer survival than older women. Diagnostic and therapeutic advances, including human epidermal growth factor receptor 2 (HER2)-directed therapy, may lessen treatment burden and improve survival for these young women, but contemporary incidence and survival data by HER2 status are limited., Patients and Methods: We identified women aged 20-49 years (n = 68,530) diagnosed with stage I-III breast cancer during 2010-2016 from the United States Surveillance, Epidemiology, and End Results 18 registries database. Age-adjusted average annual percent changes in incidence (diagnosis 2010-2016) and 5-year Kaplan-Meier survival curves (diagnosis 2010-2015) were estimated by HER2 and hormone receptor (HR) status and stratified independently by cancer stage and race/ethnicity., Results: With increasing age decade, proportions of HER2 - /HR + cancer increased, whereas proportions of HER2 + /HR + , HER2 + /HR - , and HER2 - /HR - decreased. The greatest increases in incidence during 2010-2016 were observed for HER2 + among women aged 20-49 years and HER2 - /HR - among women aged 20-29 years. Incidence decreased for HER2 - /HR - among women aged 40-49 years. Five-year survival was lowest for HER2 - /HR - status compared to other receptor-based subtypes among women aged 20-49 years. HER2 + status was more beneficial for 5-year survival than HR + status among women aged 20-29 years, with the opposite observed among women aged 30-49 years, particularly those aged 40-49 years., Conclusion: HER2 + breast cancer increased among premenopausal women and was also associated with higher early survival within each HR status. HER2 - /HR - cancer also increased among women aged 20-29 years and was associated with lower early survival. Our contemporary data provide important insights to help inform preventive and therapeutic strategies for premenopausal women., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published
2020
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37. Squaraine Dyes: Molecular Design for Different Applications and Remaining Challenges.

Author

Ilina K, MacCuaig WM, Laramie M, Jeouty JN, McNally LR, and Henary M

Subjects
Animals, Chemistry Techniques, Synthetic methods, Cyclobutanes chemical synthesis, Cyclobutanes therapeutic use, Fluorescent Dyes chemical synthesis, Fluorescent Dyes therapeutic use, Humans, Optical Imaging methods, Phenols chemical synthesis, Phenols therapeutic use, Photochemotherapy methods, Photothermal Therapy methods, Cyclobutanes chemistry, Fluorescent Dyes chemistry, Phenols chemistry
Abstract

Squaraine dyes are a class of organic dyes with strong and narrow absorption bands in the near-infrared. Despite high molar absorptivities and fluorescence quantum yields, these dyes have been less explored than other dye scaffolds due to their susceptibility to nucleophilic attack. Recent strategies in probe design including encapsulation, conjugation to biomolecules, and new synthetic modifications have seen squaraine dyes emerging into the forefront of biomedical imaging and other applications. Herein, we provide a concise overview of (1) the synthesis of symmetrical and unsymmetrical squaraine dyes, (2) the relationship between structure and photophysical properties of squaraine dyes, and (3) current applications of squaraine dyes in the literature. Given the recent successes at overcoming the limitations of squaraine dyes, they show high potential in biological imaging, in photodynamic and photothermal therapies, and as molecular sensors.

Published
2020
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38. Targeting Melanoma Hypoxia with the Food-Grade Lactic Acid Bacterium Lactococcus Lactis .

Author

Garza-Morales R, Rendon BE, Malik MT, Garza-Cabrales JE, Aucouturier A, Bermúdez-Humarán LG, McMasters KM, McNally LR, and Gomez-Gutierrez JG

Abstract

Melanoma is the most aggressive form of skin cancer. Hypoxia is a feature of the tumor microenvironment that reduces efficacy of immuno- and chemotherapies, resulting in poor clinical outcomes. Lactococcus lactis is a facultative anaerobic gram-positive lactic acid bacterium (LAB) that is Generally Recognized as Safe (GRAS). Recently, the use of LAB as a delivery vehicle has emerged as an alternative strategy to deliver therapeutic molecules; therefore, we investigated whether L. lactis can target and localize within melanoma hypoxic niches. To simulate hypoxic conditions in vitro , melanoma cells A2058, A375 and MeWo were cultured in a chamber with a gas mixture of 5% CO 2 , 94% N 2 and 1% O 2 . Among the cell lines tested, MeWo cells displayed greater survival rates when compared to A2058 and A375 cells. Co-cultures of L. lactis expressing GFP or mCherry and MeWo cells revealed that L. lactis efficiently express the transgenes under hypoxic conditions. Moreover, multispectral optoacoustic tomography (MSOT), and near infrared (NIR) imaging of tumor-bearing BALB/c mice revealed that the intravenous injection of either L. lactis expressing β-galactosidase (β-gal) or infrared fluorescent protein (IRFP713) results in the establishment of the recombinant bacteria within tumor hypoxic niches. Overall, our data suggest that L. lactis represents an alternative strategy to target and deliver therapeutic molecules into the tumor hypoxic microenvironment.

Published
2020
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39. Imaging Inflammation and Infection in the Gastrointestinal Tract.

Author

Frickenstein AN, Jones MA, Behkam B, and McNally LR

Subjects
Bacterial Infections diagnostic imaging, Bacterial Infections microbiology, Clostridioides difficile, Clostridium Infections diagnostic imaging, Dysentery, Bacillary diagnostic imaging, Endoscopy, Escherichia coli, Escherichia coli Infections diagnostic imaging, Gastrointestinal Tract microbiology, Humans, Irritable Bowel Syndrome diagnostic imaging, Magnetic Resonance Imaging, Positron-Emission Tomography, Salmonella, Salmonella Infections diagnostic imaging, Sensitivity and Specificity, Shigella, Tomography, X-Ray Computed, Ultrasonography, Gastrointestinal Diseases diagnostic imaging, Gastrointestinal Tract diagnostic imaging, Inflammation diagnostic imaging, Molecular Imaging methods
Abstract

A variety of seemingly non-specific symptoms manifest within the gastrointestinal (GI) tract, particularly in the colon, in response to inflammation, infection, or a combination thereof. Differentiation between symptom sources can often be achieved using various radiologic studies. Although it is not possible to provide a comprehensive survey of imaging gastrointestinal GI tract infections in a single article, the purpose of this review is to survey several topics on imaging of GI tract inflammation and infections. The review discusses such modalities as computed tomography, positron emission tomography, ultrasound, endoscopy, and magnetic resonance imaging while looking at up-an-coming technologies that could improve diagnoses and patient comfort. The discussion is accomplished through examining a combination of organ-based and organism-based approaches, with accompanying selected case examples. Specific focus is placed on the bacterial infections caused by Shigella spp. , Escherichia coli, Clostridium difficile , Salmonella , and inflammatory conditions of diverticulitis and irritable bowel disease. These infectious and inflammatory diseases and their detection via molecular imaging will be compared including the appropriate differential diagnostic considerations.

Published
2019
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40. Publisher Correction: On the issue of transparency and reproducibility in nanomedicine.

Author

Leong HS, Butler KS, Brinker CJ, Azzawi M, Conlan S, Dufès C, Owen A, Rannard S, Scott C, Chen C, Dobrovolskaia MA, Kozlov SV, Prina-Mello A, Schmid R, Wick P, Caputo F, Boisseau P, Crist RM, McNeil SE, Fadeel B, Tran L, Hansen SF, Hartmann NB, Clausen LPW, Skjolding LM, Baun A, Ågerstrand M, Gu Z, Lamprou DA, Hoskins C, Huang L, Song W, Cao H, Liu X, Jandt KD, Jiang W, Kim BYS, Wheeler KE, Chetwynd AJ, Lynch I, Moghimi SM, Nel A, Xia T, Weiss PS, Sarmento B, das Neves J, Santos HA, Santos L, Mitragotri S, Little S, Peer D, Amiji MM, Alonso MJ, Petri-Fink A, Balog S, Lee A, Drasler B, Rothen-Rutishauser B, Wilhelm S, Acar H, Harrison RG, Mao C, Mukherjee P, Ramesh R, McNally LR, Busatto S, Wolfram J, Bergese P, Ferrari M, Fang RH, Zhang L, Zheng J, Peng C, Du B, Yu M, Charron DM, Zheng G, and Pastore C

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published
2019
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41. On the issue of transparency and reproducibility in nanomedicine.

Author

Leong HS, Butler KS, Brinker CJ, Azzawi M, Conlan S, Dufés C, Owen A, Rannard S, Scott C, Chen C, Dobrovolskaia MA, Kozlov SV, Prina-Mello A, Schmid R, Wick P, Caputo F, Boisseau P, Crist RM, McNeil SE, Fadeel B, Tran L, Hansen SF, Hartmann NB, Clausen LPW, Skjolding LM, Baun A, Ågerstrand M, Gu Z, Lamprou DA, Hoskins C, Huang L, Song W, Cao H, Liu X, Jandt KD, Jiang W, Kim BYS, Wheeler KE, Chetwynd AJ, Lynch I, Moghimi SM, Nel A, Xia T, Weiss PS, Sarmento B, das Neves J, Santos HA, Santos L, Mitragotri S, Little S, Peer D, Amiji MM, Alonso MJ, Petri-Fink A, Balog S, Lee A, Drasler B, Rothen-Rutishauser B, Wilhelm S, Acar H, Harrison RG, Mao C, Mukherjee P, Ramesh R, McNally LR, Busatto S, Wolfram J, Bergese P, Ferrari M, Fang RH, Zhang L, Zheng J, Peng C, Du B, Yu M, Charron DM, Zheng G, and Pastore C

Subjects
Animals, Editorial Policies, Humans, Periodicals as Topic, Reproducibility of Results, Research, Nanomedicine
Published
2019
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42. Incidence and Survival Among Young Women With Stage I-III Breast Cancer: SEER 2000-2015.

Author

Thomas A, Rhoads A, Pinkerton E, Schroeder MC, Conway KM, Hundley WG, McNally LR, Oleson J, Lynch CF, and Romitti PA

Abstract

Background: Although recent findings suggest that de novo stage IV breast cancer is increasing in premenopausal women in the United States, contemporary incidence and survival data are lacking for stage I-III cancer., Methods: Women aged 20-29 (n = 3826), 30-39 (n = 34 585), and 40-49 (n = 126 552) years who were diagnosed with stage I-III breast cancer from 2000 to 2015 were identified from the Surveillance, Epidemiology, and End Results 18 registries database. Age-adjusted, average annual percentage changes in incidence and 5- and 10-year Kaplan-Meier survival curves were estimated by race and ethnicity, stage, and hormone receptor (HR) status and grade (low to well and moderately differentiated; high to poorly and undifferentiated) for each age decade., Results: The average annual percentage change in incidence was positive for each age decade and was highest among women aged 20-29 years. Increased incidence was driven largely by HR+ cancer, particularly HR+ low-grade cancer in women aged 20-29 and 40-49 years. By 2015, incidence of HR+ low- and high-grade cancer each independently exceeded incidence of HR- cancer in each age decade. Survival for HR+ low- and high-grade cancer decreased with decreasing age; survival for HR- cancer was similar across age decades. Among all women aged 20-29 years, 10-year survival for HR+ high-grade cancer was lower than that for HR+ low-grade or HR- cancer. Among women aged 20-29 years with stage I cancer, 10-year survival was lowest for HR+ high-grade cancer., Conclusions: HR+ breast cancer is increasing in incidence among premenopausal women, and HR+ high-grade cancer was associated with reduced survival among women aged 20-29 years. Our findings can help guide further evaluation of preventive, diagnostic, and therapeutic strategies for breast cancer among premenopausal women.

Published
2019
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43. In vivo tracking of orally-administered particles within the gastrointestinal tract of murine models using multispectral optoacoustic tomography.

Author

Bhutiani N, Samykutty A, McMasters KM, Egilmez NK, and McNally LR

Abstract

While particle carriers have potential to revolutionize disease treatment, using these carriers requires knowledge of spatial and temporal biodistribution. The goal of this study was to track orally administered particle uptake and trafficking through the murine gastrointestinal (GI) tract using multispectral optoacoustic tomography (MSOT). Polylactic acid (PLA) particles encapsulating AlexaFluor 680 (AF680) dye conjugated to bovine serum albumin (BSA) were orally gavaged into mice. Particle uptake and trafficking were observed using MSOT imaging with subsequent confirmation of particle uptake via fluorescent microscopy. Mice treated with PLA-AF680-BSA particles exhibited MSOT signal within the small bowel wall at 1 and 6 h, colon wall at 6, 12, and 24 h, and mesenteric lymph node 24 and 48 h. Particle localization identified using MSOT correlated with fluorescence microscopy. Despite the potential of GI tract motion artifacts, MSOT allowed for teal-time tracking of particles within the GI tract in a non-invasive and real-time manner. Future use of MSOT in conjunction with particles containing both protein-conjugated fluorophores as well as therapeutic agents could allow for non-invasive, real time tracking of particle uptake and drug delivery.

Published
2018
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44. Optoacoustic imaging identifies ovarian cancer using a microenvironment targeted theranostic wormhole mesoporous silica nanoparticle.

Author

Samykutty A, Grizzle WE, Fouts BL, McNally MW, Chuong P, Thomas A, Chiba A, Otali D, Woloszynska A, Said N, Frederick PJ, Jasinski J, Liu J, and McNally LR

Subjects
Animals, Antineoplastic Agents pharmacokinetics, Antineoplastic Agents pharmacology, Antineoplastic Agents therapeutic use, Carboplatin pharmacokinetics, Carboplatin pharmacology, Carboplatin therapeutic use, Cell Line, Tumor, Female, Humans, Mice, Mice, Nude, Ovarian Neoplasms pathology, Paclitaxel pharmacokinetics, Paclitaxel pharmacology, Paclitaxel therapeutic use, Photoacoustic Techniques methods, Porosity, Theranostic Nanomedicine methods, Tomography methods, Tumor Microenvironment drug effects, Antineoplastic Agents administration & dosage, Carboplatin administration & dosage, Nanoparticles chemistry, Ovarian Neoplasms diagnostic imaging, Ovarian Neoplasms drug therapy, Paclitaxel administration & dosage, Silicon Dioxide chemistry
Abstract

At the intersection of the newly emerging fields of optoacoustic imaging and theranostic nanomedicine, promising clinical progress can be made in dismal prognosis of ovarian cancer. An acidic pH targeted wormhole mesoporous silica nanoparticle (V7-RUBY) was developed to serve as a novel tumor specific theranostic nanoparticle detectable using multispectral optoacoustic tomographic (MSOT) imaging. We report the synthesis of a small, < 40 nm, biocompatible asymmetric wormhole pore mesoporous silica core particle that has both large loading capacity and favorable release kinetics combined with tumor-specific targeting and gatekeeping. V7-RUBY exploits the acidic tumor microenvironment for tumor-specific targeting and tumor-specific release. In vitro, treatment with V7-RUBY containing either paclitaxel or carboplatin resulted in increased cell death at pH 6.6 in comparison to drug alone (p < 0.0001). In orthotopic ovarian xenograft mouse models, V7-RUBY containing IR780 was specifically detected within the tumor 7X and 4X higher than the liver and >10X higher than in the kidney using both multispectral optoacoustic tomography (MSOT) imaging with secondary confirmation using near infrared fluorescence imaging (p < 0.0004). The V7-RUBY system carrying a cargo of either contrast agent or an anti-neoplastic drug has the potential to become a theranostic nanoparticle which can improve both diagnosis and treatment of ovarian cancer., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published
2018
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45. Small Molecule Optoacoustic Contrast Agents: An Unexplored Avenue for Enhancing In Vivo Imaging.

Author

Laramie MD, Smith MK, Marmarchi F, McNally LR, and Henary M

Subjects
Fluorescence, Magnetic Resonance Imaging, Positron Emission Tomography Computed Tomography, Spectroscopy, Near-Infrared, Contrast Media chemistry
Abstract

Almost every variety of medical imaging technique relies heavily on exogenous contrast agents to generate high-resolution images of biological structures. Organic small molecule contrast agents, in particular, are well suited for biomedical imaging applications due to their favorable biocompatibility and amenability to structural modification. PET/SPECT, MRI, and fluorescence imaging all have a large host of small molecule contrast agents developed for them, and there exists an academic understanding of how these compounds can be developed. Optoacoustic imaging is a relatively newer imaging technique and, as such, lacks well-established small molecule contrast agents; many of the contrast agents used are the same ones which have found use in fluorescence imaging applications. Many commonly-used fluorescent dyes have found successful application in optoacoustic imaging, but others generate no detectable signal. Moreover, the structural features that either enable a molecule to generate a detectable optoacoustic signal or prevent it from doing so are poorly understood, so design of new contrast agents lacks direction. This review aims to compile the small molecule optoacoustic contrast agents that have been successfully employed in the literature to bridge the information gap between molecular design and optoacoustic signal generation. The information contained within will help to provide direction for the future synthesis of optoacoustic contrast agents.

Published
2018
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46. Applying dynamic contrast enhanced MSOT imaging to intratumoral pharmacokinetic modeling.

Author

Xiao TG, Weis JA, Gayzik FS, Thomas A, Chiba A, Gurcan MN, Topaloglu U, Samykutty A, and McNally LR

Abstract

Examining the dynamics of an agent in the tumor microenvironment can offer critical insights to the influx rate and accumulation of the agent. Intratumoral kinetic characterization in the in vivo setting can further elicudate distribution patterns and tumor microenvironment. Dynamic contrast-enhanced Multispectral Optoacoustic Tomographic imaging (DCE-MSOT) acquires serial MSOT images with the administration of an exogenous contrast agent over time. We tracked the dynamics of a tumor-targeted contrast agent, HypoxiSense 680 (HS680), in breast xenograft mouse models using MSOT. Arterial input function (AIF) approach with MSOT imaging allowed for tracking HS680 dynamics within the mouse. The optoacoustic signal for HS680 was quantified using the ROI function in the ViewMSOT software. A two-compartment pharmacokinetics (PK) model constructed in MATLAB to fit rate parameters. The contrast influx (k in ) and outflux (k out ) rate constants predicted are k in  = 1.96 × 10 -2  s -1 and k out  = 9.5 × 10 -3  s -1 (R = 0.9945).

Published
2018
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47. Temozolomide Enhances Triple-Negative Breast Cancer Virotherapy In Vitro.

Author

Garza-Morales R, Gonzalez-Ramos R, Chiba A, Montes de Oca-Luna R, McNally LR, McMasters KM, and Gomez-Gutierrez JG

Abstract

Triple-negative breast cancer (TNBC) is one of the most aggressive types of cancer, and treatment is limited to chemotherapy and radiation. Oncolytic virotherapy may be a promising approach to treat TNBC. However, oncolytic adenovirus (OAd)-based mono-therapeutic clinical trials have resulted in modest outcomes. The OAd potency could be increased by chemotherapy-induced autophagy, an intracellular degradation system that delivers cytoplasmic constituents to the lysosome. In this study, the ability of alkylating agent temozolomide (TMZ)-induced autophagy to increase OAd replication and oncolysis in TNBC cells was evaluated. Human TNBC MDA-MB-231 and HCC1937 cells and mouse 4T1 cells were infected with an OAd expressing the red fluorescent protein mCherry on the virus capsid (OAdmCherry) alone or in combination with TMZ. TNBC cells treated with OAdmCherry/TMZ displayed greater mCherry and adenovirus (Ad) early region 1A (E1A) expression and enhanced cancer-cell killing compared to OAdmCherry or TMZ alone. The combined therapy-mediated cell death was associated with virus replication and accumulation of the autophagy marker light chain 3 (LC3)-II. Overall, this study provides experimental evidence of TMZ's ability to increase oncolytic virotherapy in both human and murine TNBC cells.

Published
2018
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48. A light-fluence-independent method for the quantitative analysis of dynamic contrast-enhanced multispectral optoacoustic tomography (DCE MSOT).

Author

Hupple CW, Morscher S, Burton NC, Pagel MD, McNally LR, and Cárdenas-Rodríguez J

Abstract

MultiSpectral Optoacoustic Tomography (MSOT) is an emerging imaging technology that allows for data acquisition at high spatial and temporal resolution. These imaging characteristics are advantageous for Dynamic Contrast Enhanced (DCE) imaging that can assess the combination of vascular flow and permeability. However, the quantitative analysis of DCE MSOT data has not been possible due to complications caused by wavelength-dependent light attenuation and variability in light fluence at different anatomical locations. In this work we present a new method for the quantitative analysis of DCE MSOT data that is not biased by light fluence. We have named this method the two-compartment linear standard model (2C-LSM) for DCE MSOT.

Published
2018
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49. Osteopontin-targeted probe detects orthotopic breast cancers using optoacoustic imaging.

Author

Samykutty A, Thomas A, McNally M, Chiba A, and McNally LR

Subjects
Animals, Cell Line, Tumor, Disease Models, Animal, Female, Humans, Mice, Breast Neoplasms classification, Breast Neoplasms diagnosis, Osteopontin chemistry, Photoacoustic Techniques
Abstract

Improved detection of breast cancer using highly sensitive, tumor-specific imaging would facilitate diagnosis, surveillance and assessment of response to treatment. We conjugated osteopontin peptide to an infrared fluorescent dye to serve as a contrast agent for detection of breast cancer by multispectral optoacoustic tomography (MSOT). Selective binding of the osteopontin-based probe was identified using flow cytometry and near infrared fluorescent imaging in triple negative and HER2 positive breast cancer cell lines in vitro. Osteopontin-750 accumulation was evaluated in vivo using MSOT with secondary confirmation of signal accumulation using near infrared fluorescent imaging. The osteopontin-based probe demonstrated binding to breast cancer cells in vitro. Similarly, after intravenous administration of the osteopontin-750 probe, it accumulated preferentially in the subcutaneous breast tumor in nude mice (557 MSOT a.u. compared to untargeted organs such as kidney (53.7 MSOT a.u.) and liver (32.1 MSOT a.u.). At 2.5 h post-injection, signal intensity within the tumor was 9.7 and 17 times greater in the tumor bed than in the kidney or liver, respectively. Fluorescence imaging ex vivo comparing tumor signal to that of nontarget organs confirmed the results in vivo. MSOT imaging demonstrated selective accumulation of the fluorescent osteopontin targeting probe to tumor sites both in vitro and in vivo, and provided high-resolution images. Further development of this tool is promising for advanced diagnostic imaging, disease surveillance and therapeutic models that limit nontarget toxicity.

Published
2018
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50. Noninvasive Imaging of Colitis Using Multispectral Optoacoustic Tomography.

Author

Bhutiani N, Grizzle WE, Galandiuk S, Otali D, Dryden GW, Egilmez NK, and McNally LR

Subjects
Animals, Mice, Mice, Inbred C57BL, Photoacoustic Techniques, Reproducibility of Results, Sensitivity and Specificity, Bacterial Infections diagnostic imaging, Colitis diagnostic imaging, Tomography methods
Abstract

Currently, several noninvasive modalities, including MRI and PET, are being investigated to identify early intestinal inflammation, longitudinally monitor disease status, or detect dysplastic changes in patients with inflammatory bowel disease. Here, we assess the applicability and utility of multispectral optoacoustic tomography (MSOT) in evaluating the presence and severity of colitis. Methods: C57B/6 mice were untreated or treated with Bacteroides fragilis and antibiotic-mediated depletion of intestinal flora to initiate colitis. Mice were imaged using MSOT to detect intestinal inflammation. Intestinal inflammation identified with MSOT was also confirmed using both colonoscopy and histology. Results: Mice with bacterial colitis demonstrated a temporally associated increase in mesenteric and colonic vascularity with an increase in mean signal intensity of oxygenated hemoglobin ( P = 0.004) by MSOT 2 d after inoculation. These findings were significantly more prominent 7 d after inoculation, with increased mean signal intensity of oxygenated hemoglobin ( P = 0.0002) and the development of punctate vascular lesions on the colonic surface, which corresponded to changes observed on colonoscopy as well as histology. Conclusion: With improvements in depth of tissue penetration, MSOT may hold potential as a sensitive, accurate, noninvasive imaging tool in the evaluation of patients with inflammatory bowel disease., (© 2017 by the Society of Nuclear Medicine and Molecular Imaging.)

Published
2017
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