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1. Dual MET–EGFR combinatorial inhibition against T790M-EGFR-mediated erlotinib-resistant lung cancer

Author

Tang, Z, primary, Du, R, additional, Jiang, S, additional, Wu, C, additional, Barkauskas, D S, additional, Richey, J, additional, Molter, J, additional, Lam, M, additional, Flask, C, additional, Gerson, S, additional, Dowlati, A, additional, Liu, L, additional, Lee, Z, additional, Halmos, B, additional, Wang, Y, additional, Kern, J A, additional, and Ma, P C, additional

Published
2008
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6. tert-Butylaluminum Bis[1,2-bis(trimethylsilyl)hydrazide]: The First Alkylaluminum Dihydrazide

Author

Uhl, W., Molter, J., and Neumuller, B.

Abstract

The reaction of di(tert-butyl)aluminum hydride with a mixture of 1,1- and 1,2-bis(trimethylsilyl)hydrazine afforded colorless crystals of the title compound Me3CAl[N(SiMe3)N(H)SiMe3]2 (1) in 60% yield. 1 is a monomer in the solid state. Its aluminum atom has a coordination number of 5 and is side-on coordinated by both hydrazido ligands. Different Al−N distances of 1.814(2) and 2.072(2) Å are observed according to the different coordination by amido or amino nitrogen atoms, respectively.

Published
2000

17. Design of Development Candidate eFT226, a First in Class Inhibitor of Eukaryotic Initiation Factor 4A RNA Helicase.

Author

Ernst JT, Thompson PA, Nilewski C, Sprengeler PA, Sperry S, Packard G, Michels T, Xiang A, Tran C, Wegerski CJ, Eam B, Young NP, Fish S, Chen J, Howard H, Staunton J, Molter J, Clarine J, Nevarez A, Chiang GG, Appleman JR, Webster KR, and Reich SH

Subjects
Animals, Benzofurans pharmacokinetics, Benzofurans therapeutic use, Binding Sites, Breast Neoplasms drug therapy, Breast Neoplasms pathology, Cell Line, Tumor, Crystallography, X-Ray, Eukaryotic Initiation Factor-4A genetics, Eukaryotic Initiation Factor-4A metabolism, Female, Half-Life, Humans, Ligands, Mice, Mice, Nude, Molecular Dynamics Simulation, Mutagenesis, Site-Directed, Protein Structure, Tertiary, RNA, Messenger chemistry, RNA, Messenger metabolism, Rats, Structure-Activity Relationship, Benzofurans chemistry, Drug Design, Eukaryotic Initiation Factor-4A antagonists & inhibitors
Abstract

Dysregulation of protein translation is a key driver for the pathogenesis of many cancers. Eukaryotic initiation factor 4A (eIF4A), an ATP-dependent DEAD-box RNA helicase, is a critical component of the eIF4F complex, which regulates cap-dependent protein synthesis. The flavagline class of natural products ( i.e. , rocaglamide A) has been shown to inhibit protein synthesis by stabilizing a translation-incompetent complex for select messenger RNAs (mRNAs) with eIF4A. Despite showing promising anticancer phenotypes, the development of flavagline derivatives as therapeutic agents has been hampered because of poor drug-like properties as well as synthetic complexity. A focused effort was undertaken utilizing a ligand-based design strategy to identify a chemotype with optimized physicochemical properties. Also, detailed mechanistic studies were undertaken to further elucidate mRNA sequence selectivity, key regulated target genes, and the associated antitumor phenotype. This work led to the design of eFT226 (Zotatifin), a compound with excellent physicochemical properties and significant antitumor activity that supports clinical development.

Published
2020
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18. Structure-based Design of Pyridone-Aminal eFT508 Targeting Dysregulated Translation by Selective Mitogen-activated Protein Kinase Interacting Kinases 1 and 2 (MNK1/2) Inhibition.

Author

Reich SH, Sprengeler PA, Chiang GG, Appleman JR, Chen J, Clarine J, Eam B, Ernst JT, Han Q, Goel VK, Han EZR, Huang V, Hung INJ, Jemison A, Jessen KA, Molter J, Murphy D, Neal M, Parker GS, Shaghafi M, Sperry S, Staunton J, Stumpf CR, Thompson PA, Tran C, Webber SE, Wegerski CJ, Zheng H, and Webster KR

Subjects
Animals, Antineoplastic Agents chemical synthesis, Antineoplastic Agents chemistry, Antineoplastic Agents pharmacology, Catalytic Domain, Cell Line, Tumor, Drug Design, Eukaryotic Initiation Factor-4E chemistry, Eukaryotic Initiation Factor-4E metabolism, Humans, Intracellular Signaling Peptides and Proteins metabolism, Mice, Molecular Structure, Phosphorylation, Protein Kinase Inhibitors chemical synthesis, Protein Kinase Inhibitors chemistry, Protein Kinase Inhibitors pharmacology, Protein Serine-Threonine Kinases metabolism, Pyridines chemical synthesis, Pyridines chemistry, Pyridines pharmacology, Pyridones chemical synthesis, Pyridones chemistry, Pyridones pharmacology, Pyrimidines chemical synthesis, Pyrimidines chemistry, Pyrimidines pharmacology, Rats, Serine chemistry, Signal Transduction drug effects, Spiro Compounds chemical synthesis, Spiro Compounds chemistry, Spiro Compounds pharmacology, Xenograft Model Antitumor Assays, Antineoplastic Agents therapeutic use, Intracellular Signaling Peptides and Proteins antagonists & inhibitors, Protein Kinase Inhibitors therapeutic use, Protein Serine-Threonine Kinases antagonists & inhibitors, Pyridines therapeutic use, Pyridones therapeutic use, Pyrimidines therapeutic use, Spiro Compounds therapeutic use
Abstract

Dysregulated translation of mRNA plays a major role in tumorigenesis. Mitogen-activated protein kinase interacting kinases (MNK)1/2 are key regulators of mRNA translation integrating signals from oncogenic and immune signaling pathways through phosphorylation of eIF4E and other mRNA binding proteins. Modulation of these key effector proteins regulates mRNA, which controls tumor/stromal cell signaling. Compound 23 (eFT508), an exquisitely selective, potent dual MNK1/2 inhibitor, was designed to assess the potential for control of oncogene signaling at the level of mRNA translation. The crystal structure-guided design leverages stereoelectronic interactions unique to MNK culminating in a novel pyridone-aminal structure described for the first time in the kinase literature. Compound 23 has potent in vivo antitumor activity in models of diffuse large cell B-cell lymphoma and solid tumors, suggesting that controlling dysregulated translation has real therapeutic potential. Compound 23 is currently being evaluated in Phase 2 clinical trials in solid tumors and lymphoma. Compound 23 is the first highly selective dual MNK inhibitor targeting dysregulated translation being assessed clinically.

Published
2018
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19. Mesenchymal stem cell therapy in a rat model of birth-trauma injury: functional improvements and biodistribution.

Author

Sadeghi Z, Isariyawongse J, Kavran M, Izgi K, Marini G, Molter J, Daneshgari F, Flask CA, Caplan A, and Hijaz A

Subjects
Animals, Cell Tracking, Disease Models, Animal, Female, Humans, Mesenchymal Stem Cells physiology, Pressure, Rats, Rats, Sprague-Dawley, Urethra injuries, Urinary Incontinence etiology, Mesenchymal Stem Cell Transplantation, Parturition, Urethra pathology, Urinary Incontinence physiopathology, Urinary Incontinence therapy
Abstract

Introduction and Hypothesis: We evaluated the potential role of human mesenchymal stem cells (hMSCs) in improvement of urinary continence following birth-trauma injury., Methods: Human MSCs were injected periurethrally or systemically into rats immediately after vaginal distention (VD) (n = 90). Control groups were non-VD (uninjured/untreated, n = 15), local or systemic saline (injection/control, n = 90), and dermofibroblast (cell therapy/control, n = 90). Leak-point pressure (LPP) was measured 4, 10, and 14 days later. Urethras were morphometrically evaluated. In another sets of VD and non-VD rats, the fate of periurethrally injected hMSC, biodistribution, and in vivo viability was studied using human Alu genomic repeat staining, PKH26 labeling, and luciferase-expression labeling, respectively., Results: Saline- and dermofibroblast-treated control rats demonstrated lower LPP than non-VD controls at days 4 and 14 (P < 0.01). LPP after systemic hMSC and periurethral hMSC treatment were comparable with non-VD controls at 4, 10, and 14 days (P > 0.05). Local saline controls demonstrated extensive urethral tissue bleeding. The connective tissue area/urethral section area proportion and vascular density were higher in the local hMSC- versus the saline-treated group at 4 and 14 days, respectively. No positive Alu-stained nuclei were observed in urethras at 4, 10, and 14 days. PKH26-labelled cells were found in all urethras at 2 and 24 h. Bioluminescence study showed increased luciferase expression from day 0 to 1 following hMSC injection., Conclusions: Human MSCs restored the continence mechanism with an immediate and sustained effect in the VD model, while saline and dermofibroblast therapy did not. Human MSCs remained at the site of periurethral injection for <7 days. We hypothesize that periurethral hMSC treatment improves vascular, connective tissue, and hemorrhage status of urethral tissues after acute VD injury.

Published
2016
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20. Lack of dystrophin results in abnormal cerebral diffusion and perfusion in vivo.

Author

Goodnough CL, Gao Y, Li X, Qutaish MQ, Goodnough LH, Molter J, Wilson D, Flask CA, and Yu X

Subjects
Animals, Magnetic Resonance Imaging, Male, Mice, Mice, Inbred C57BL, Blood-Brain Barrier physiopathology, Cerebrovascular Circulation physiology, Dystrophin deficiency
Abstract

Dystrophin, the main component of the dystrophin-glycoprotein complex, plays an important role in maintaining the structural integrity of cells. It is also involved in the formation of the blood-brain barrier (BBB). To elucidate the impact of dystrophin disruption in vivo, we characterized changes in cerebral perfusion and diffusion in dystrophin-deficient mice (mdx) by magnetic resonance imaging (MRI). Arterial spin labeling (ASL) and diffusion-weighted MRI (DWI) studies were performed on 2-month-old and 10-month-old mdx mice and their age-matched wild-type controls (WT). The imaging results were correlated with Evan's blue extravasation and vascular density studies. The results show that dystrophin disruption significantly decreased the mean cerebral diffusivity in both 2-month-old (7.38 ± 0.30 × 10(-4)mm(2)/s) and 10-month-old (6.93 ± 0.53 × 10(-4)mm(2)/s) mdx mice as compared to WT (8.49 ± 0.24 × 10(-4), 8.24 ± 0.25 × 10(-4)mm(2)/s, respectively). There was also an 18% decrease in cerebral perfusion in 10-month-old mdx mice as compared to WT, which was associated with enhanced arteriogenesis. The reduction in water diffusivity in mdx mice is likely due to an increase in cerebral edema or the existence of large molecules in the extracellular space from a leaky BBB. The observation of decreased perfusion in the setting of enhanced arteriogenesis may be caused by an increase of intracranial pressure from cerebral edema. This study demonstrates the defects in water handling at the BBB and consequently, abnormal perfusion associated with the absence of dystrophin., (Copyright © 2014 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2014
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21. Synthesis, characterization, and X-ray attenuation properties of ultrasmall BiOI nanoparticles: toward renal clearable particulate CT contrast agents.

Author

Kandanapitiye MS, Gao M, Molter J, Flask CA, and Huang SD

Subjects
Bismuth chemistry, Cell Survival drug effects, Contrast Media chemical synthesis, Contrast Media chemistry, HeLa Cells, Humans, Iodides chemical synthesis, Iodides chemistry, Particle Size, Polyvinyls chemistry, Powder Diffraction, Solubility, Surface Properties, Bismuth pharmacology, Contrast Media pharmacology, Iodides pharmacology, Nanoparticles chemistry, Tomography, X-Ray Computed
Abstract

A unique decelerated hydrolytic procedure is developed and reported here for the preparation of ultrasmall nanoparticles (NPs) of PVP-coated BiOI with a narrow size distribution, i.e., 2.8 ± 0.5 nm. The crystal structure of this compound is determined by X-ray powder diffraction using the bulk materials. The stability, cytotoxicity, and potential use of the PVP-coated ultrasmall BiOI NPs as a CT contrast agent are investigated. Because of the combined X-ray attenuation effect of bismuth and iodine, such NPs exhibit a CT value that is among the best of those of the inorganic nanoparticle-based CT contrast agents reported in the literature.

Published
2014
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22. Transversus abdominis plane (TAP) blocks.

Author

Urigel S and Molter J

Subjects
Abdomen anatomy & histology, Abdomen innervation, Abdomen surgery, Anatomic Landmarks, Education, Continuing, Humans, Ultrasonography, Interventional, Abdominal Pain prevention & control, Anesthetics, Local administration & dosage, Nerve Block methods, Nurse Anesthetists, Pain, Postoperative prevention & control
Abstract

Transversus abdominis plane (TAP) blocks are a relatively new regional anesthetic technique used in a multimodal approach to provide postoperative analgesia of the anterolateral abdominal wall. The technique for placing TAP blocks has evolved from a landmark technique to an ultrasound-guided technique. There are 3 common approaches for accessing the TAP: subcostal, midaxillary, and ilioinguinal-iliohypogastric. The distribution of local anesthetic and the extent of sensory blockade differs with each of these approaches. The approach used is contingent on the type and location of the surgical procedure. Overall, TAP blocks reduce postoperative pain and opioid requirements, resulting in fewer side effects such as nausea and vomiting, respiratory depression, and sedation. Future studies should examine which type, concentration, and volume of local anesthetics are most effective.

Published
2014

23. Imaging early stage osteogenic differentiation of mesenchymal stem cells.

Author

Corn DJ, Kim Y, Krebs MD, Mounts T, Molter J, Gerson S, Alsberg E, Dennis JE, and Lee Z

Subjects
Animals, Cell Line, Collagen Type I, alpha 1 Chain, Gene Expression, Humans, Luciferases, Firefly genetics, Luciferases, Firefly metabolism, Mice, Mice, Inbred NOD, Mice, SCID, Osteoblasts cytology, Osteoblasts metabolism, Promoter Regions, Genetic, Rats, Cell Differentiation, Collagen Type I genetics, Genes, Reporter, Mesenchymal Stem Cells physiology, Osteogenesis
Abstract

Stem cells, such as mesenchymal stem cells (MSCs), contribute to bone fracture repair if they are delivered to the injury site. However, it is difficult to assess the retention and differentiation of these cells after implantation. Current options for non-invasively tracking the transplanted stem cells are limited. Cell-based therapies using MSCs would benefit greatly through the use of an imaging methodology that allows cells to be tracked in vivo and in a timely fashion. In this study, we implemented an in vivo imaging methodology to specifically track early events such as differentiation of implanted human MSCs (hMSCs). This system uses the collagen type 1 (Col1α1) promoter to drive expression of firefly luciferase (luc) in addition to a constitutively active promoter to drive the expression of green fluorescent protein (GFP). The resulting dual-promoter reporter gene system provides the opportunity for osteogenic differentiation-specific luc expression for in vivo imaging and constitutive expression of GFP for cell sorting. The function of this dual-promoter reporter gene was validated both in vitro and in vivo. In addition, the ability of this dual-promoter reporter system to image an early event of osteogenic differentiation of hMSCs was demonstrated in a murine segmental bone defect model in which reporter-labeled hMSCs were seeded into an alginate hydrogel scaffold and implanted directly into the defect. Bioluminescence imaging (BLI) was performed to visualize the turn-on of Col1α1 upon osteogenic differentiation and followed by X-ray imaging to assess the healing process for correlation with histological analyses., (Copyright © 2013 Orthopaedic Research Society.)

Published
2013
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24. Radio-deoxynucleoside Analogs used for Imaging tk Expression in a Transgenic Mouse Model of Induced Hepatocellular Carcinoma.

Author

Tian H, Lu X, Guo H, Corn D, Molter J, Wang B, Luo G, and Lee Z

Abstract

Purpose: A group of radiolabeled thymidine analogs were developed as radio-tracers for imaging herpes viral thymidine kinase (HSV1-tk) or its variants used as reporter gene. A transgenic mouse model was created to express tk upon liver injury or naturally occurring hepatocellular carcinoma (HCC). The purpose of this study was to use this unique animal model for initial testing with radio-labeled thymidine analogs, mainly a pair of newly emerging nucleoside analogs, D-FMAU and L-FMAU., Methods: A transgeneic mouse model was created by putting a fused reporter gene system, firefly luciferase (luc) and HSV1-tk, under the control of mouse alpha fetoprotein (Afp) promoter. Initial multimodal imaging, which was consisted of bioluminescent imaging (BLI) and planar gamma scintigraphy with [(125)I]-FIAU, was used for examining the model creation in the new born and liver injury in the adult mice. Carcinogen diethylnitrosamine (DEN) was then administrated to induce HCC in these knock-in mice such that microPET imaging could be used to track the activity of Afp promoter during tumor development and progression by imaging tk expression first with [(18)F]-FHBG. Dynamic PET scans with D-[(18)F]-FMAU and L-[(18)F]-FMAU were then performed to evaluate this pair of relatively new tracers. Cells were derived from these liver tumors for uptake assays using H-3 labeled version of PET tracers., Results: The mouse model with dual reporters: HSV1-tk and luc placed under the transcriptional control of an endogenous Afp promoter was used for imaging studies. The expression of the Afp gene was highly specific in proliferative hepatocytes, in regenerative liver, and in developing fetal liver, and thus provided an excellent indicator for liver injury and cancer development in adult mice. Both D-FMAU and L-FMAU showed stable liver tumor uptake where the tk gene was expressed under the Afp promoter. The performance of this pair of tracers was slightly different in terms of signal-to-background ratio as well as tracer clearance., Conclusion: The newly created knock-in mouse model was used to demonstrate the use of the dual-reporter genes driven by well-characterized cancer-specific transcriptional units in conjunction with in vivo imaging as a paradigm in studying naturally occurring cancer in live animals. While BLI is suitable for small animal imaging with luc expression, PET with L-FMAU seemed be the choice for liver injury or liver cancer imaging with this animal model for future investigations.

Published
2012
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25. In vivo dual substrate bioluminescent imaging.

Author

Wendt MK, Molter J, Flask CA, and Schiemann WP

Subjects
Animals, Female, Luciferases, Firefly biosynthesis, Luciferases, Firefly genetics, Luciferases, Renilla biosynthesis, Luciferases, Renilla genetics, Mammary Neoplasms, Experimental enzymology, Mammary Neoplasms, Experimental genetics, Mice, Neoplasm Metastasis, Transfection, Luciferases, Firefly analysis, Luciferases, Renilla analysis, Luminescent Measurements methods, Mammary Neoplasms, Experimental pathology
Abstract

Our understanding of how and when breast cancer cells transit from established primary tumors to metastatic sites has increased at an exceptional rate since the advent of in vivo bioluminescent imaging technologies. Indeed, the ability to locate and quantify tumor growth longitudinally in a single cohort of animals to completion of the study as opposed to sacrificing individual groups of animals at specific assay times has revolutionized how researchers investigate breast cancer metastasis. Unfortunately, current methodologies preclude the real-time assessment of critical changes that transpire in cell signaling systems as breast cancer cells (i) evolve within primary tumors, (ii) disseminate throughout the body, and (iii) reinitiate proliferative programs at sites of a metastatic lesion. However, recent advancements in bioluminescent imaging now make it possible to simultaneously quantify specific spatiotemporal changes in gene expression as a function of tumor development and metastatic progression via the use of dual substrate luminescence reactions. To do so, researchers take advantage for two light-producing luciferase enzymes isolated from the firefly (Photinus pyralis) and sea pansy (Renilla reniformis), both of which react to mutually exclusive substrates that previously facilitated their wide-spread use in in vitro cell-based reporter gene assays. Here we demonstrate the in vivo utility of these two enzymes such that one luminescence reaction specifically marks the size and location of a developing tumor, while the second luminescent reaction serves as a means to visualize the activation status of specific signaling systems during distinct stages of tumor and metastasis development. Thus, the objectives of this study are two-fold. First, we will describe the steps necessary to construct dual bioluminescent reporter cell lines, as well as those needed to facilitate their use in visualizing the spatiotemporal regulation of gene expression during specific steps of the metastatic cascade. Using the 4T1 model of breast cancer metastasis, we show that the in vivo activity of a synthetic Smad Binding Element (SBE) promoter was decreased dramatically in pulmonary metastasis as compared to that measured in the primary tumor. Recently, breast cancer metastasis was shown to be regulated by changes within the primary tumor microenvironment and reactive stroma, including those occurring in fibroblasts and infiltrating immune cells. Thus, our second objective will be to demonstrate the utility of dual bioluminescent techniques in monitoring the growth and localization of two unique cell populations harbored within a single animal during breast cancer growth and metastasis.

Published
2011
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26. Alpha-fetoprotein-thymidine kinase-luciferase knockin mice: a novel model for dual modality longitudinal imaging of tumorigenesis in liver.

Author

Lu X, Guo H, Molter J, Miao H, Gerber L, Hu Y, Barnes EL, Vogel H, Lee Z, Luo G, and Wang B

Subjects
Animals, Diethylnitrosamine toxicity, Disease Models, Animal, Disease Progression, Female, Gene Knock-In Techniques, Genes, Reporter, Humans, Liver Neoplasms, Experimental diagnostic imaging, Liver Neoplasms, Experimental genetics, Liver Neoplasms, Experimental pathology, Luminescence, Male, Mice, Mice, Inbred C3H, Mice, Inbred C57BL, Mice, Transgenic, Positron-Emission Tomography, Precancerous Conditions diagnostic imaging, Precancerous Conditions etiology, Precancerous Conditions genetics, Precancerous Conditions pathology, Liver Neoplasms, Experimental etiology, Luciferases genetics, Thymidine Kinase genetics, alpha-Fetoproteins genetics
Abstract

Background & Aims: Hepatocellular carcinoma (HCC) is frequently a lethal disease and one of the few malignancies that is still increasing in incidence around the world. Better animal models are highly desired to investigate the molecular basis of HCC and to develop novel therapeutic strategies. Alpha-fetoprotein (Afp) gene is expressed in fetal liver, silenced soon after birth, and highly re-expressed in hepatocellular carcinomas (HCC). We aimed to take advantage of the dramatic re-expression of the Afp gene in HCC to develop a hepatocarcinogenesis reporter (HCR) mouse model for dual-modality, longitudinal in vivo imaging of liver tumor development, and progression., Methods: Knock in mice were established by placing a thymidinekinase (tk)-luciferase (luc) reporter gene cassette under the transcriptional control of the endogenous Afp promoter. DEN, a liver carcinogen, was used to induce liver tumors, which was monitored by both luc-based bioluminescent (BL) and tk-based positron emission tomography (PET) imaging., Results: The expression profile of luc was identical to that of the endogenous Afp gene during development. As early as 2 months after the exposure to DEN, BLI revealed multifocal signals in the liver, long before the appearance of histologically apparent neoplastic lesions. By 6 months, BL and PET dual imaging showed strong signals in malignant HCC. By serendipity, a strong BL signal was also detected in adult testes, a previously unknown site of Afp expression., Conclusions: The HCR model enables longitudinal monitoring of liver tumor development and progression, providing a powerful tool in developing chemoprevention and therapeutic strategies for HCC., (Copyright © 2010 European Association for the Study of the Liver. Published by Elsevier B.V. All rights reserved.)

Published
2011
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27. Ex vivo diffusion tensor MRI reflects microscopic structural remodeling associated with aging and disease progression in normal and cardiomyopathic Syrian hamsters.

Author

Li W, Lu M, Banerjee S, Zhong J, Ye A, Molter J, and Yu X

Subjects
Aging physiology, Animals, Anisotropy, Cardiomyopathy, Dilated physiopathology, Cricetinae, Disease Progression, Humans, Mesocricetus, Tomography, X-Ray Computed, Water chemistry, Aging pathology, Cardiomyopathy, Dilated pathology, Diffusion Magnetic Resonance Imaging methods, Heart anatomy & histology, Heart physiology, Myocardium pathology, Ventricular Remodeling
Abstract

Dilated cardiomyopathy (DCM) is a major cause of mortality and morbidity in cardiac patients. Aging is often an ignored etiology of pathological conditions. Quantification of DCM and aging associated cardiac structural remodeling is important in guiding and evaluating therapeutic interventions. Diffusion tensor magnetic resonance imaging (DTMRI) has recently been used for nondestructive characterization of three-dimensional myofiber structure. In this study, we explored the potential of DTMRI in delineating microscopic structural remodeling in aging and DCM hearts. Six month (n = 10) and nine month old (n = 11) DCM (TO-2) hamsters and their age-matched controls (F1 beta) were characterized. Both aging and DCM hearts showed increased diffusivity and decreased diffusion anisotropy. DTMRI images of DCM hearts also revealed a subgroup of imaging pixels characterized by decreased radial diffusivity and increased FA. The location of these pixels showed qualitative agreement with regions of calcium deposition determined by X-ray CT imaging. Histological analysis confirmed expanded extracellular space in aging and DCM hearts as well as substantial calcium deposition in DCM hearts. These results suggest that DTMRI may provide a noninvasive technique to delineate structural remodeling associated with aging and DCM progression at the tissue and cellular level without the use of an exogenous contrast agent., ((c) 2009 John Wiley & Sons, Ltd.)

Published
2009
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28. Long-term transgene expression in the central nervous system using DNA nanoparticles.

Author

Yurek DM, Fletcher AM, Smith GM, Seroogy KB, Ziady AG, Molter J, Kowalczyk TH, Padegimas L, and Cooper MJ

Subjects
Animals, Base Sequence, DNA genetics, DNA Primers, Immunohistochemistry, In Situ Hybridization, Luciferases genetics, Plasmids, Rats, Transduction, Genetic, Brain metabolism, DNA administration & dosage, Nanoparticles, Transgenes
Abstract

This study demonstrates proof of concept for delivery and expression of compacted plasmid DNA in the central nervous system. Plasmid DNA was compacted with polyethylene glycol substituted lysine 30-mer peptides, forming rod-like nanoparticles with diameters between 8 and 11 nm. Here we show that an intracerebral injection of compacted DNA can transfect both neurons and glia, and can produce transgene expression in the striatum for up to 8 weeks, which was at least 100-fold greater than intracerebral injections of naked DNA plasmids. Bioluminescent imaging (BLI) of injected animals at the 11th postinjection week revealed significantly higher transgene activity in animals receiving compacted DNA plasmids when compared to animals receiving naked DNA. There was minimal evidence of brain inflammation. Intrastriatal injections of a compacted plasmid encoding for glial cell line-derived neurotrophic factor (pGDNF) resulted in a significant overexpression of GDNF protein in the striatum 1-3 weeks after injection.

Published
2009
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29. Transcriptional profiling of human mesenchymal stem cells transduced with reporter genes for imaging.

Author

Wang F, Dennis JE, Awadallah A, Solchaga LA, Molter J, Kuang Y, Salem N, Lin Y, Tian H, Kolthammer JA, Kim Y, Love ZB, Gerson SL, and Lee Z

Subjects
Adipogenesis, Animals, Biological Assay, Ceramics, Gene Regulatory Networks, Humans, Luciferases metabolism, Luminescent Proteins metabolism, Mesenchymal Stem Cell Transplantation, Mesenchymal Stem Cells cytology, Mice, Oligonucleotide Array Sequence Analysis, Pluripotent Stem Cells cytology, Pluripotent Stem Cells metabolism, Prosthesis Implantation, Software, Thymidine Kinase metabolism, Red Fluorescent Protein, Gene Expression Profiling, Genes, Reporter, Mesenchymal Stem Cells metabolism, Transcription, Genetic, Transduction, Genetic, Whole Body Imaging
Abstract

Mesenchymal stem cells (MSCs) can differentiate into osteogenic, adipogenic, chondrogenic, myocardial, or neural lineages when exposed to specific stimuli, making them attractive for tissue repair and regeneration. We have used reporter gene-based imaging technology to track MSC transplantation or implantation in vivo. However, the effects of lentiviral transduction with the fluc-mrfp-ttk triple-fusion vector on the transcriptional profiles of MSCs remain unknown. In this study, gene expression differences between wild-type and transduced hMSCs were evaluated using an oligonucleotide human microarray. Significance Analysis of Microarray identified differential genes with high accuracy; RT-PCR validated the microarray results. Annotation analysis showed that transduced hMSCs upregulated cell differentiation and antiapoptosis genes while downregulating cell cycle, proliferation genes. Despite transcriptional changes associated with bone and cartilage remodeling, their random pattern indicates no systematic change of crucial genes that are associated with osteogenic, adipogenic, or chondrogenic differentiation. This correlates with the experimental results that lentiviral transduction did not cause the transduced MSCs to lose their basic stem cell identity as demonstrated by osteogenic, chondrogenic, and adipogenic differentiation assays with both transduced and wild-type MSCs, although a certain degree of alterations occurred. Histological analysis demonstrated osteogenic differentiation in MSC-loaded ceramic cubes in vivo. In conclusion, transduction of reporter genes into MSCs preserved the basic properties of stem cells while enabling noninvasive imaging in living animals to study the biodistribution and other biological activities of the cells.

Published
2009
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30. Bioluminescence imaging of hematopoietic stem cell repopulation in murine models.

Author

Lin Y, Molter J, Lee Z, and Gerson SL

Subjects
Animals, Cell Division, Genes, Reporter, Luminescence, Mice, Mice, Inbred BALB C, Hematopoietic Stem Cells cytology, Models, Animal
Abstract

Hematopoietic stem cells (HSCs) have been studied for decades in order to understand their stem cell biology and their potential as treatments in gene therapy, and those studies have resulted in tremendous advancement of understanding HSCs. However, most of the studies required the sacrifice of cohorts of the animals in order to obtain data for analysis, resulting in the use of large animal numbers along with difficult long-term studies. The dynamic engraftment and expansion of HSC are not fully observed and analyzed. Until recently, with the development of optical imaging, HSC repopulation can be continuously monitored in the same animal over a long period of time, reducing animal numbers and opening a new dimension for investigation. In this chapter, bioluminescence imaging of murine HSC is described for observing the dynamic repopulation process after transplantation. Photons emitted from transplanted murine HSCs expressing firefly luciferase within the mice can be visualized in light-sealed chamber with a highly sensitive digital camera after injection of substrate D-luciferin. Xenogen IVIS200 imaging system is used to record the process, and other similar imaging systems can also be used for this process.

Published
2008
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31. Dialkylaluminum hydrazides derived from free hydrazine N2H4. Molecular Structures of [(MeC)2AlN2H3]2 and [(MeC)2Al]4(N2H2)2.

Author

Uhl W, Molter J, and Neumüller B

Abstract

The reaction of di(tert-butyl)aluminum hydride with hydrazine N2H4 afforded the hydrazide (Me3C)2AlN2H3, 1, by the release of elemental hydrogen. Compound 1 is a dimer in solution and in the solid state and possesses a six-membered Al2N4 heterocycle in a twist conformation with two intact N-N bonds. Further reaction of 1 with an excess of HAl(CMe3)2 yielded the tricyclic aluminum and nitrogen rich Al4N4 compound [(Me3C)2AlN2H2]2[Al(CMe3)2]2, 2, in which each N-N bond of a central six-membered Al2N4 ring similar to that of 1 is side-on-coordinated to an Al(CMe3)2 group. The structure of 2 may be interpreted as a dimer of the dialuminum hydrazide (Me3C)2Al-NH-NH-Al(CMe3)2.

Published
2001
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32. Synthesis of aluminum hydrazides by hydroalumination of 2,3-diazabutadienes--formation of an Al4(N2)3 cage compound and an Al3(N2)3 macrocyclic ligand.

Author

Uhl W, Molter J, and Neumüller B

Abstract

Treatment of 1,1,4,4-tetramethyl-2,3-diazabutadiene with the alane adduct [AlH3(NMe2Et)] yielded the hydrazine derivative (AlH2)2-(AlH)2(N2iPr2)3 (1) by the hydroalumination of both C N double bonds. Compound 1 has a complicated cage structure formed by three hydrazido groups and four aluminium atoms. As a particularly interesting structural motif it contains a N-N group side-on-coordinated to one aluminium atom through its lone pairs of electrons. Sublimation of 1 gave a heterocubane-type compound (HAlNiPr)4 (2) by the complete cleavage of all N-N bonds, one face of which is bridged by weakly coordinated diisopropyldiazene with a N-N double bond. Repeated sublimation gave the pure, unsupported heterocubane molecule 3. Heating of the rough product of the reaction of alane and diazabutadiene to 90 degrees C in a closed vessel yielded another product Al(AlH2)3(N2iPr2)3 (4), which contains a cyclic chelating ligand formed by three hydrazido groups and three aluminium atoms. This heterocycle coordinates a fourth aluminum atom in the molecular center by close contacts to all six nitrogen atoms. A strongly flattened, distorted octahedral coordination sphere results for the inner metal atom.

Published
2001
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