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2. Retinal pathology is associated with increased blood–retina barrier permeability in a diabetic and hypercholesterolaemic pig model: Beneficial effects of the LpPLA2 inhibitor Darapladib

Author

Eric L. Goldwaser, Mary C. Kosciuk, Venkat Venkataraman, George A. Godsey, Theresa A. Freeman, Robert G. Nagele, Hao Wu, Xin Qi, Robert L. Wilensky, Nimish K. Acharya, and Colin H. Macphee

Subjects
0301 basic medicine, medicine.medical_specialty, Endocrinology, Diabetes and Metabolism, Blood–brain barrier, Occludin, 03 medical and health sciences, 0302 clinical medicine, Darapladib, Internal medicine, Diabetes mellitus, Internal Medicine, medicine, Ganglion cell layer, Retina, Glial fibrillary acidic protein, biology, business.industry, Diabetic retinopathy, medicine.disease, 030104 developmental biology, medicine.anatomical_structure, Endocrinology, biology.protein, sense organs, Cardiology and Cardiovascular Medicine, business, 030217 neurology & neurosurgery
Abstract

Using a porcine model of diabetes mellitus and hypercholesterolaemia, we previously showed that diabetes mellitus and hypercholesterolaemia is associated with a chronic increase in blood–brain barrier permeability in the cerebral cortex, leading to selective binding of immunoglobulin G and deposition of amyloid-beta1-42 peptide in pyramidal neurons. Treatment with Darapladib (GlaxoSmithKline, SB480848), an inhibitor of lipoprotein-associated phospholipase-A2, alleviated these effects. Here, investigation of the effects of chronic diabetes mellitus and hypercholesterolaemia on the pig retina revealed a corresponding increased permeability of the blood–retina barrier coupled with a leak of plasma components into the retina, alterations in retinal architecture, selective IgG binding to neurons in the ganglion cell layer, thinning of retinal layers due to cell loss and increased glial fibrillary acidic protein expression in Müller cells, all of which were curtailed by treatment with Darapladib. These findings suggest that chronic diabetes mellitus and hypercholesterolaemia induces increased blood–retina barrier permeability that may be linked to altered expression of blood–retina barrier–associated tight junction proteins, claudin and occludin, leading to structural changes in the retina consistent with diabetic retinopathy. Additionally, results suggest that drugs with vascular anti-inflammatory properties, such as Darapladib, may have beneficial effects on eye diseases strongly linked to vascular abnormalities such as diabetic retinopathy and age-related macular degeneration.

Published
2017
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3. Identifying Patient-Specific Pathology in Osteoarthritis Development Based on MicroCT Analysis of Subchondral Trabecular Bone

Author

Marla J. Steinbeck, Javad Parvizi, Peter Eisenhauer, Theresa A. Freeman, and Mitchell Maltenfort

Subjects
Cartilage, Articular, Vascular Endothelial Growth Factor A, 0301 basic medicine, Pathology, medicine.medical_specialty, Knee Joint, Population, Osteoarthritis, Condyle, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, medicine, Humans, Orthopedics and Sports Medicine, Femur, Arthroplasty, Replacement, Knee, education, Aged, Aged, 80 and over, 030203 arthritis & rheumatology, education.field_of_study, business.industry, Cartilage, X-Ray Microtomography, Middle Aged, Osteoarthritis, Knee, medicine.disease, Immunohistochemistry, Vascular endothelial growth factor, Trabecular bone, 030104 developmental biology, medicine.anatomical_structure, chemistry, Subchondral bone, Eburnation, Disease Progression, Female, business
Abstract

The goal of this study was to identify alternative mechanisms of osteoarthritis pathology by analyzing subchondral bone. Femoral condyle samples were collected from post-menopausal female patients with knee osteoarthritis undegoing total knee arthroplasty. In the majority of patients, subchondral trabecular bone volume doubled under a region of the medial femoral condyle with full-thickness cartilage deterioration. However, in a subset of patients the bone volume in this region remained constant. This subset also had larger areas of vascular penetration in the calcified cartilage of the lateral condyle concurrent with increased vascular endothelial growth factor expression. Subtyping by subchondral bone characteristics identified a unique population, which lacked the sclerotic bone characteristic of late-stage osteoarthritis. Identification of subtypes within the osteoarthritis population allows investigation of alternate disease pathologies.

Published
2016
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4. Monitoring the Progression of Spontaneous Articular Cartilage Healing with Infrared Spectroscopy

Author

Paul West, Megan P. O’Brien, Xu Yang, Madhuri Penmatsa, Theresa A. Freeman, Mathias P.G. Bostrom, Uday Palukuru, and Nancy Pleshko

Subjects
In situ, Pathology, medicine.medical_specialty, Biomedical Engineering, Infrared spectroscopy, Physical Therapy, Sports Therapy and Rehabilitation, Articular cartilage, Article, 03 medical and health sciences, 0302 clinical medicine, Partial least squares regression, medicine, Immunology and Allergy, cartilage, 030304 developmental biology, 030203 arthritis & rheumatology, 0303 health sciences, biology, Chemistry, Cartilage, Histology, infrared fiber-optic probe, repair tissue, FTIR spectroscopy, medicine.anatomical_structure, Repair tissue, Proteoglycan, biology.protein
Abstract

Objective Evaluation of early compositional changes in healing articular cartilage is critical for understanding tissue repair and for therapeutic decision-making. Fourier transform infrared imaging spectroscopy (FT-IRIS) can be used to assess the molecular composition of harvested repair tissue. Furthermore, use of an infrared fiber-optic probe (IFOP) has the potential for translation to a clinical setting to provide molecular information in situ. In the current study, we determined the feasibility of IFOP assessment of cartilage repair tissue in a rabbit model, and assessed correlations with gold-standard histology. Design Bilateral osteochondral defects were generated in mature white New Zealand rabbits, and IFOP data obtained from defect and adjacent regions at 2, 4, 6, 8, 12, and 16 weeks postsurgery. Tissues were assessed histologically using the modified O’Driscoll score, by FT-IRIS, and by partial least squares (PLS) modeling of IFOP spectra. Results The FT-IRIS parameters of collagen content, proteoglycan content, and collagen index correlated significantly with modified O’Driscoll score ( P = 0.05, 0.002, and 0.02, respectively), indicative of their sensitivity to tissue healing. Repair tissue IFOP spectra were distinguished from normal tissue IFOP spectra in all samples by PLS analysis. However, the PLS model for prediction of histological score had a high prediction error, which was attributed to the spectral information being acquired from the tissue surface only. Conclusion The strong correlations between FT-IRIS data and histological score support further development of the IFOP technique for clinical applications, although further studies to optimize data collection from the full sample depths are required.

Published
2015

5. A murine model for developmental dysplasia of the hip: ablation of CX3CR1 affects acetabular morphology and gait

Author

Hind Sawan, Theresa A. Freeman, George J. Feldman, Arlene Offemaria, and Javad Parvizi

Subjects
0301 basic medicine, Pathology, medicine.medical_specialty, CX3C Chemokine Receptor 1, lcsh:Medicine, Single-nucleotide polymorphism, Osteoarthritis, General Biochemistry, Genetics and Molecular Biology, Mice, 03 medical and health sciences, 0302 clinical medicine, CX3CR1, medicine, Animals, Femur, Gait, Hip Dislocation, Congenital, Exome sequencing, Mice, Knockout, Bone Diseases, Developmental, 030222 orthopedics, business.industry, Research, lcsh:R, Acetabulum, Organ Size, General Medicine, medicine.disease, Knock-out mouse, Mice, Inbred C57BL, Disease Models, Animal, 030104 developmental biology, Gait analysis, Female, business, Gene Deletion, Developmental dysplasia of the hip
Abstract

Background Developmental dysplasia of the hip (DDH) is a debilitating condition whose distinguishing signs include incomplete formation of the acetabulum leading to dislocation of the femur, accelerated wear of the articular cartilage and joint laxity resulting in osteoarthritis. It is a complex disorder having environmental and genetic causes. Existing techniques fail to detect milder forms of DDH in newborns leading to hip osteoarthritis in young adults. A sensitive, specific and cost effective test would allow identification of newborns that could be non-invasively corrected by the use of a Pavlik harness. Previously, we identified a 2.5 MB candidate region on human chromosome 3 by using linkage analysis of a 4 generation, 72 member family. Whole exome sequencing of the DNA of 4 severely affected members revealed a single nucleotide polymorphism variant, rs3732378 co-inherited by all 11 affected family members. This variant causes a threonine to methionine amino acid change in the coding sequence of the CX3CR1 chemokine receptor and is predicted to be harmful to the function of the protein To gain further insight into the function of this mutation we examined the effect of CX3CR1 ablation on the architecture of the mouse acetabulum and on the murine gait. Methods The hips of 5 and 8 weeks old wild type and CX3CR1 KO mice were analyzed using micro-CT to measure acetabular diameter and ten additional dimensional parameters. Eight week old mice were gait tested using an inclined treadmill with and without load and then underwent micro-CT analysis. Results (1) KO mice showed larger a 5–17% larger diameter left acetabula than WT mice at both ages. (2) At 8 weeks the normalized area of space (i.e. size discrepancy) between the femur head and acetabulum is significantly larger [38% (p = 0.001)–21% (p = 0.037)] in the KO mice. (3) At 8 weeks gait analysis of these same mice shows several metrics that are consistent with impairment in the KO but not the WT mice. These deficits are often seen in mice and humans who develop hip OA. Conclusion The effect of CX3CR1 deletion on murine acetabular development provides suggestive evidence of a susceptibility inducing role of the CX3CR1 gene on DDH. Electronic supplementary material The online version of this article (10.1186/s12967-017-1335-0) contains supplementary material, which is available to authorized users.

Published
2017
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6. The Role of Oxidative Stress in Aseptic Loosening of Total Hip Arthroplasties

Author

Marla J. Steinbeck, Theresa A. Freeman, Lauren J. Jablonowski, and Javad Parvizi

Subjects
Pathology, medicine.medical_specialty, Osteolysis, biology, business.industry, Nitrotyrosine, Aseptic loosening, Periprosthetic, chemical and pharmacologic phenomena, Inflammation, HMGB1, medicine.disease, medicine.disease_cause, Surgery, Nitric oxide synthase, chemistry.chemical_compound, chemistry, biology.protein, medicine, Orthopedics and Sports Medicine, medicine.symptom, business, Oxidative stress
Abstract

This study investigated the hypothesis that wear particle-induced oxidative stress initiates osteolysis after total hip arthroplasty (THA). Patient radiographs were scored for osteolysis and periprosthetic tissues were immunostained and imaged to quantify polyethylene wear, inflammation, and five osteoinflammatory and oxidative stress-responsive factors. These included high mobility group protein-B1 (HMGB1), cyclooxygenase-2 (COX2), inducible nitric oxide synthase (iNOS), 4-hydroxynonenal (4-HNE), and nitrotyrosine (NT). The results show wear debris correlated with inflammation, 4-HNE, NT and HMGB1, whereas inflammation only correlated with NT and HMGB1. Similar to wear debris and inflammation, osteolysis correlated with HMGB1. Additionally, osteolysis correlated with COX2 and 4-HNE, but not iNOS or NT. Understanding the involvement of oxidative stress in wear-induced osteolysis will help identify diagnostic biomarkers and therapeutic targets to prevent osteolysis after THA.

Published
2014
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7. Diabetes and Hypercholesterolemia Increase Blood-Brain Barrier Permeability and Brain Amyloid Deposition: Beneficial Effects of the LpPLA2 Inhibitor Darapladib

Author

Yi Shi, Chenbing Guan, Cassandra DeMarshall, Michael Pollaro, Dean Chamberlain, Peter M. Clifford, Nicholas J. Coretti, Eli C. Levin, Colin H. Macphee, Robert G. Nagele, Eric P. Nagele, Theresa A. Freeman, Robert L. Wilensky, Mary C. Kosciuk, Min Han, Nimish K. Acharya, and Ryan Tourtellotte

Subjects
medicine.medical_specialty, Amyloid, Swine, Hypercholesterolemia, Immunoglobulin G, Capillary Permeability, Rats, Sprague-Dawley, Random Allocation, Phospholipase A2, Diabetes mellitus, Darapladib, Internal medicine, Oximes, Diabetes Mellitus, medicine, Animals, Coronary atherosclerosis, Amyloid beta-Peptides, biology, business.industry, General Neuroscience, Brain, General Medicine, medicine.disease, Peptide Fragments, Rats, Psychiatry and Mental health, Clinical Psychology, Treatment Outcome, Endocrinology, medicine.anatomical_structure, Blood-Brain Barrier, Cerebral cortex, Benzaldehydes, 1-Alkyl-2-acetylglycerophosphocholine Esterase, biology.protein, Biomarker (medicine), Geriatrics and Gerontology, business
Abstract

Diabetes mellitus (DM) and hypercholesterolemia (HC) have emerged as major risk factors for Alzheimer's disease, highlighting the importance of vascular health to normal brain functioning. Our previous study showed that DM and HC favor the development of advanced coronary atherosclerosis in a porcine model, and that treatment with darapladib, an inhibitor of lipoprotein-associated phospholipase A2, blocks atherosclerosis progression and improves animal alertness and activity levels. In the present study, we examined the effects of DM and HC on the permeability of the blood-brain barrier (BBB) using immunoglobulin G (IgG) as a biomarker. DMHC increased BBB permeability and the leak of microvascular IgG into the brain interstitium, which was bound preferentially to pyramidal neurons in the cerebral cortex. We also examined the effects of DMHC on the brain deposition of amyloid peptide (Aβ42), a well-known pathological feature of Alzheimer's disease. Nearly all detectable Aβ42 was contained within cortical pyramidal neurons and DMHC increased the density of Aβ42-loaded neurons. Treatment of DMHC animals with darapladib reduced the amount of IgG-immunopositive material that leaked into the brain as well as the density of Aβ42-containing neurons. Overall, these results suggest that a prolonged state of DMHC may have chronic deleterious effects on the functional integrity of the BBB and that, in this DMHC pig model, darapladib reduces BBB permeability. Also, the preferential binding of IgG and coincident accumulation of Aβ42 in the same neurons suggests a mechanistic link between the leak of IgG through the BBB and intraneuronal deposition of Aβ42 in the brain.

Published
2013
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8. Periprosthetic UHMWPE Wear Debris Induces Inflammation, Vascularization, and Innervation After Total Disc Replacement in the Lumbar Spine

Author

Theresa A. Freeman, Marla J. Steinbeck, Todd H. Lanman, Sai Y. Veruva, Jorge Isaza, and Steven M. Kurtz

Subjects
Male, Vascular Endothelial Growth Factor A, Time Factors, Biopsy, Periprosthetic, Intervertebral Disc Degeneration, Substance P, CORR Insights, 0302 clinical medicine, Risk Factors, Medicine, Orthopedics and Sports Medicine, Intervertebral Disc, Pain Measurement, Pain, Postoperative, Lumbar Vertebrae, Neovascularization, Pathologic, General Medicine, Middle Aged, Low back pain, Immunohistochemistry, medicine.anatomical_structure, Treatment Outcome, Cytokines, Female, medicine.symptom, Inflammation Mediators, Adult, Reoperation, medicine.medical_specialty, Total disc replacement, Total Disc Replacement, Discitis, Wear debris, Inflammation, Lumbar vertebrae, Prosthesis Design, 03 medical and health sciences, Young Adult, Humans, Device Removal, 030203 arthritis & rheumatology, business.industry, Macrophages, Intervertebral disc, United States, Surgery, Orthopedic surgery, Stress, Mechanical, Polyethylenes, business, Low Back Pain, 030217 neurology & neurosurgery
Abstract

The pathophysiology and mechanisms driving the generation of unintended pain after total disc replacement (TDR) remain unexplored. Ultrahigh-molecular-weight polyethylene (UHMWPE) wear debris from TDRs is known to induce inflammation, which may result in pain.The purpose of this study was to determine whether (1) periprosthetic UHMWPE wear debris induces immune responses that lead to the production of tumor necrosis factor-α (TNFα) and interleukin (IL)-1ß, the vascularization factors, vascular endothelial growth factor (VEGF) and platelet-derived growth factor-bb (PDGFbb), and the innervation/pain factors, nerve growth factor (NGF) and substance P; (2) the number of macrophages is associated with the production of the aforementioned factors; (3) the wear debris-induced inflammatory pathogenesis involves an increase in vascularization and associated innervation.Periprosthetic tissues from our collection of 11 patients with contemporary TDRs were evaluated using polarized light microscopy to quantify UHMWPE wear particles. The major reason for revision (mean implantation time of 3 years [range, 1-6 years]) was pain. For control subjects, biopsy samples from four patients with degenerative disc disease with severe pain and autopsy samples from three normal patients with no history of back pain were also investigated. Immunohistochemistry and histology were used to identify secretory factors, macrophages, and blood vessels. Immunostained serial sections were imaged at ×200 magnification and using MATLAB and NIH ImageJ, a threshold was determined for each factor and used to quantify positive staining normalized to tissue sectional area. The Mann-Whitney U test was used to compare results from different patient groups, whereas the Spearman Rho test was used to determine correlations. Significance was based on p0.05.The mean percent area of all six inflammatory, vascularization, and innervation factors was higher in TDR tissues when compared with normal disc tissues. Based on nonparametric data analysis, those factors showing the most significant increase included TNFα (5.17 ± 1.76 versus 0.05 ± 0.03, p = 0.02), VEGF (3.02 ± 1.01 versus 0.02 ± 0.002, p = 0.02), and substance P (4.15 ± 1.01 versus 0.08 ± 0.04, p = 0.02). The mean percent area for IL-1ß (2.41 ± 0.66 versus 0.13 ± 0.13, p = 0.01), VEGF (3.02 ± 1.01 versus 0.34 ± 0.29, p = 0.04), and substance P (4.15 ± 1.01 versus 1.05 ± 0.46, p = 0.01) was also higher in TDR tissues when compared with disc tissues from patients with painful degenerative disc disease. Five of the factors, TNFα, IL-1ß, VEGF, NGF, and substance P, strongly correlated with the number of wear particles, macrophages, and blood vessels. The most notable correlations included TNFα with wear particles (p0.001, ρ = 0.63), VEGF with macrophages (p = 0.001, ρ = 0.71), and NGF with blood vessels (p0.001, ρ = 0.70). Of particular significance, the expression of PDGFbb, NGF, and substance P was predominantly localized to blood vessels/nerve fibers.These findings indicate wear debris-induced inflammatory reactions can be linked to enhanced vascularization and associated innervation/pain factor production at periprosthetic sites around TDRs. Elucidating the pathogenesis of inflammatory particle disease will provide information needed to identify potential therapeutic targets and treatment strategies to mitigate pain and potentially avoid revision surgery.Level III, therapeutic study.

Published
2016

9. Hypoxia-inducible factor regulation of ANK expression in nucleus pulposus cells: Possible implications in controlling dystrophic mineralization in the intervertebral disc

Author

Irving M. Shapiro, Charlene J. Williams, Arnold S. Dion, Renata Skubutyte, Makarand V. Risbud, D. Greg Anderson, Dessislava Markova, and Theresa A. Freeman

Subjects
chemistry.chemical_classification, Pathology, medicine.medical_specialty, medicine.diagnostic_test, Immunology, Biology, Cell biology, Intervertebral disk, medicine.anatomical_structure, Rheumatology, Hypoxia-inducible factors, chemistry, Western blot, Gene expression, Null cell, medicine, Immunology and Allergy, Gene silencing, Ankyrin, Pharmacology (medical), Nucleus
Abstract

Objective Since nucleus pulposus cells reside under conditions of hypoxia, we determined if the expression of ANK, a pyrophosphate transporter, is regulated by the hypoxia-inducible factor (HIF) proteins. Methods Quantitative reverse transcription–polymerase chain reaction and Western blot analyses were used to measure ANK expression in nucleus pulposus cells from rats and humans. Transfections were performed to determine the effect of HIF-1/2 on ANK promoter activity. Results ANK was expressed in embryonic and mature rat discs. Oxygen-dependent changes in ANK expression in nucleus pulposus cells were minimal. However, silencing of HIF-1α and HIF-2α resulted in increased ANK expression and up-regulation of promoter activity. HIF-mediated suppression of ANK was validated by measuring promoter activity in HIF-1β–null embryonic fibroblasts. Under conditions of hypoxia, there was induction of promoter activity in the null cells as compared with the wild-type cells. Overexpression of HIF-1α and HIF-2α in nucleus pulposus cells resulted in a significant suppression of ANK promoter activity. Since the ANK promoter contains 2 hypoxia-responsive elements (HREs), we performed site-directed mutagenesis and measured promoter activity. We found that HIF-1 can bind to either of the HREs and can suppress promoter activity; in contrast, HIF-2 was required to bind to both HREs in order to suppress activity. Finally, analysis of human nucleus pulposus tissue showed that while ANK was expressed in normal tissue, there was increased expression of ANK along with alkaline phosphatase in the degenerated state. Conclusion Both HIF-1 and HIF-2 serve as negative regulators of ANK expression in the disc. We propose that baseline expression of ANK in the disc serves to prevent mineral formation under physiologic conditions.

Published
2010
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10. Expression of Indian Hedgehog, BMP-4 and Noggin in Craniosynostosis Induced by Fetal Constraint

Author

Richard E. Kirschner, Shushan Jacob, Theresa A. Freeman, Eiki Koyama, and Changshan Wu

Subjects
Patched Receptors, medicine.medical_specialty, animal structures, Indian hedgehog, medicine.medical_treatment, Gene Expression, Receptors, Cell Surface, Bone Morphogenetic Protein 4, Constriction, Pathologic, Bone morphogenetic protein, Craniosynostosis, Craniosynostoses, Mice, Osteogenesis, Pregnancy, Internal medicine, medicine, Animals, Hedgehog Proteins, Cervical cerclage, Noggin, In Situ Hybridization, Fetus, biology, business.industry, Skull, Antagonist, Dysostosis, Cranial Sutures, medicine.disease, biology.organism_classification, Mice, Inbred C57BL, Patched-1 Receptor, Disease Models, Animal, Phenotype, Endocrinology, Bone Morphogenetic Proteins, embryonic structures, Female, Surgery, Carrier Proteins, business, Cell Division, Signal Transduction
Abstract

Indian Hedgehog (Ihh), bone morphogenetic protein (BMP), and its antagonist Noggin play an important regulatory role in bone formation. We used an animal model to study the role of these molecules in craniosynostosis induced by fetal constraint. C57Bl/6 mice underwent cervical cerclage on the 18th day of gestation, and their pups were harvested 48 and 72 hours beyond the normal gestational period. Constrained and control calvariae were examined for expression of BMP-4, Noggin, Histone H4C, Ihh, Sonic Hedgehog (Shh), and Patched 1 (Ptch1), one of the Hh transcriptional target molecules/Hh receptors. Constraint-induced suture fusion was associated with decreased expression of Ihh and Noggin, whereas BMP-4 was expressed in both control and constrained sutures. Ptch1 colocalized with Ihh-positive osteogenic cells at the osteogenic fronts, but not with Shh transcripts, suggesting that Ihh, but not Shh, regulates Ptch1 expression in cranial suture development. Histone H4C was preferentially expressed in Ihh-positive cells, indicating that Ihh may regulate osteogenic cell proliferation at the osteogenic fronts. These results suggest a role for Ihh and Noggin signaling in constraint-induced craniosynostosis.

Published
2007
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11. Pressurized Flight Immediately After Splenic Infarction in Two Patients with the Sickle Cell Trait

Author

Tatsuya Norii, William P. Butler, Brendon L. Gelford, Adnan Alseidi, and Theresa Hess Freeman

Subjects
Adult, Male, medicine.medical_specialty, Infarction, Altitude Sickness, Sickle Cell Trait, Disease course, medicine, Humans, Splenic Infarction, In patient, Diagnostic Errors, Sickle cell trait, Low oxygen, business.industry, Public Health, Environmental and Occupational Health, Hypoxia (medical), medicine.disease, Abdominal Pain, Mountaineering, Surgery, Natural history, Splenic infarction, Female, medicine.symptom, Aviation, Tomography, X-Ray Computed, business
Abstract

Splenic infarction in individuals harboring the sickle cell trait can occur in the setting of exposure to low oxygen tension at high altitudes. While this is a concern in unpressurized aircraft flight, it has not been well documented in pressurized flight. What has not been addressed is whether this relative safety of pressurized flight extends to the postinfarction period and whether or not pressurized flight in the immediate post-infarction period, especially air evacuation, would change the patient's outcome. We present two cases of splenic infarction suffered during climbing Mt. Fuji (12,388 ft, 3776 m) in patients harboring the sickle cell trait. Both patients were initially assessed and misdiagnosed by a local hospital. They then voluntarily took a 2-h, 30-min pressurized commercial flight [cruising altitude 40,000 ft (12,192 m), minimal cabin pressure: 0.73 atmospheric pressure] within 48 h of their initial presentation. Shortly after their arrival in their final destination they underwent a full workup, including a contrast enhanced CT scan, and were found to have the above-mentioned diagnosis. In both cases, supportive care was sufficient; both patients recovered without sequelae and did not deviate from what would be considered the standard, expected natural history of splenic infarction in patients with the sickle cell trait. It would seem from this anecdotal experience that pressurized commercial flights undertaken in the immediate post-splenic infarction period by individuals with the sickle cell trait may not change either the disease course or the patient's outcome and might be safe.

Published
2011
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12. 2088359 Photoacoustic Imaging Of Vascular Oxygenation Following Dielectric Barrier Discharge Plasma Wound Treatment

Author

Theresa A. Freeman, John R. Eisenbrey, Natalie Chernets, Deepa S. Kurpad, Ji-Bin Liu, Qian-Shi Zhang, and Flemming Forsberg

Subjects
medicine.medical_specialty, Materials science, Acoustics and Ultrasonics, Radiological and Ultrasound Technology, Biophysics, Photoacoustic imaging in biomedicine, Plasma, Dielectric barrier discharge, Oxygenation, Surgery, medicine, Radiology, Nuclear Medicine and imaging, Wound treatment, Biomedical engineering
Published
2015
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14. Do tissues from THA revision of highly crosslinked UHMWPE liners contain wear debris and associated inflammation?

Author

Ryan M. Baxter, Marla J. Steinbeck, Theresa A. Freeman, and Steven M. Kurtz

Subjects
musculoskeletal diseases, Male, Reoperation, medicine.medical_specialty, Arthroplasty, Replacement, Hip, Wear debris, Adaptive Immunity, chemistry.chemical_compound, medicine, Humans, Orthopedics and Sports Medicine, Symposium: UHMWPE for Arthroplasty: From Powder to Debris, Composite material, Extramural, business.industry, General Medicine, Polyethylene, Immunohistochemistry, Surgery, Prosthesis Failure, Equipment Failure Analysis, Cross-Linking Reagents, chemistry, Female, Hip Joint, Hip Prosthesis, Polyethylenes, business, human activities
Abstract

Polyethylene wear debris is a major contributor to inflammation and the development of implant loosening, a leading cause of THA revisions. To reduce wear debris, highly crosslinked ultrahigh-molecular-weight polyethylene (UHMWPE) was introduced to improve wear properties of bearing surfaces. As highly crosslinked UHMWPE revision tissues are only now becoming available, it is possible to examine the presence and association of wear debris with inflammation in early implant loosening.We asked: (1) Does the presence of UHMWPE wear debris in THA revision tissues correlate with innate and/or adaptive immune cell numbers? (2) Does the immune cell response differ between conventional and highly crosslinked UHMWPE cohorts?We collected tissue samples from revision surgery of nine conventional and nine highly crosslinked UHMWPE liners. Polarized light microscopy was used to determine 0.5- to 2-μm UHMWPE particle number/mm2, and immunohistochemistry was performed to determine macrophage, T cell, and neutrophil number/mm2.For the conventional cohort, correlations were observed between wear debris and the magnitude of individual patient macrophage (ρ=0.70) and T cell responses (ρ=0.71) and between numbers of macrophages and T cells (ρ=0.77) in periprosthetic tissues. In comparison, the highly crosslinked UHMWPE cohort showed a correlation between wear debris and the magnitude of macrophage responses (ρ=0.57) and between macrophage and T cell numbers (ρ=0.68). Although macrophages and T cells were present in both cohorts, the highly crosslinked UHMWPE cohort had lower numbers, which may be associated with shorter implantation times.The presence of wear debris and inflammation in highly crosslinked UHMWPE revision tissues may contribute to early implant loosening.

Published
2010

16. 487 EXPRESSION PROFILING OF SKELETOGENIC-RELEVANT PATHWAYS REVEALS CONTRASTING PATHOGENETIC MECHANISMS IN MENISCAL RNA FROM OSTEOARTHRITIS VERSUS CHONDROCALCINOSIS PATIENTS

Author

J. Parvizi, A. Colon, Theresa A. Freeman, N. Pleshko, and C.J. Williams

Subjects
Gene expression profiling, Pathology, medicine.medical_specialty, Rheumatology, business.industry, medicine, Biomedical Engineering, RNA, Orthopedics and Sports Medicine, Osteoarthritis, medicine.disease, business, Chondrocalcinosis
Published
2010
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17. Mast cells and hypoxia drive tissue metaplasia and heterotopic ossification in idiopathic arthrofibrosis after total knee arthroplasty

Author

Theresa A. Freeman, Marla J. Steinbeck, Craig J Dela Valle, and Javad Parvizi

Subjects
Pathology, medicine.medical_specialty, Hepatology, business.industry, Research, Gastroenterology, Medicine (miscellaneous), Dermatology, Hypoxia (medical), medicine.disease, medicine.disease_cause, Mast cell, Mast cell proliferation, medicine.anatomical_structure, Rheumatology, Fibrosis, Metaplasia, Medicine, Heterotopic ossification, medicine.symptom, business, Oxidative stress, Arthrofibrosis
Abstract

Background Idiopathic arthrofibrosis occurs in 3-4% of patients who undergo total knee arthroplasty (TKA). However, little is known about the cellular or molecular changes involved in the onset or progression of this condition. To classify the histomorphologic changes and evaluate potential contributing factors, periarticular tissues from the knees of patients with arthrofibrosis were analyzed for fibroblast and mast cell proliferation, heterotopic ossification, cellular apoptosis, hypoxia and oxidative stress. Results The arthrofibrotic tissue was composed of dense fibroblastic regions, with limited vascularity along the outer edges. Within the fibrotic regions, elevated numbers of chymase/fibroblast growth factor (FGF)-expressing mast cells were observed. In addition, this region contained fibrocartilage and associated heterotopic ossification, which quantitatively correlated with decreased range of motion (stiffness). Fibrotic, fibrocartilage and ossified regions contained few terminal dUTP nick end labeling (TUNEL)-positive or apoptotic cells, despite positive immunostaining for lactate dehydrogenase (LDH)5, a marker of hypoxia, and nitrotyrosine, a marker for protein nitrosylation. LDH5 and nitrotyrosine were found in the same tissue areas, indicating that hypoxic areas within the tissue were associated with increased production of reactive oxygen and nitrogen species. Conclusions Taken together, we suggest that hypoxia-associated oxidative stress initiates mast cell proliferation and FGF secretion, spurring fibroblast proliferation and tissue fibrosis. Fibroblasts within this hypoxic environment undergo metaplastic transformation to fibrocartilage, followed by heterotopic ossification, resulting in increased joint stiffness. Thus, hypoxia and associated oxidative stress are potential therapeutic targets for fibrosis and metaplastic progression of idiopathic arthrofibrosis after TKA.

Published
2010
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18. Distinct immunohistomorphologic changes in periprosthetic hip tissues from historical and highly crosslinked UHMWPE implant retrievals

Author

Ryan M. Baxter, Steven M. Kurtz, Theresa A. Freeman, Marla J. Steinbeck, and Allyson Ianuzzi

Subjects
Male, medicine.medical_specialty, Pathology, Materials science, Necrosis, Adolescent, medicine.medical_treatment, Arthroplasty, Replacement, Hip, Biomedical Engineering, Periprosthetic, Inflammation, Giant Cells, Article, Biomaterials, medicine, Humans, Femur, Child, Histiocyte, Metals and Alloys, Prostheses and Implants, Arthroplasty, Surgery, medicine.anatomical_structure, Cross-Linking Reagents, Giant cell, Ceramics and Composites, Fibrocartilage, Female, Hip Joint, Implant, Hip Prosthesis, medicine.symptom, Polyethylenes
Abstract

Assessment of immune response to implant wear debris in periprosthetic tissue following total hip arthroplasty suggests that multiple factors are involved in the loss implant function. The current study investigated wear debris and the associated immunohistomorphologic changes in tissues from nine patients with historical (gamma air-sterilized) and nine highly crosslinked UHMWPE implant components. Paraffin embedded tissue sections were evaluated for the presence of histiocytes, giant cells, fibrocartilage/bone, and necrosis. To determine the incidence, degree and co-localization of immunohistomorphologic changes and wear, overlapping full-field tissue arrays were collected in brightfield and polarized light. The historical cohort tissues predominantly showed histiocytes associated with significant accumulations of small wear (0.5-2 microm), and giant cells associated with large wear (> or =2 microm). Frequently, focal regions of necrosis were observed in association with wear debris. For the highly crosslinked cohort, inflammation and associated wear debris were limited, but in tissues from patients revised after implantation times of >2 years a response was observed. Whereas significant amounts of fibrocartilage/bone were observed in patients at earlier implantation times. In both cohorts, tissue responses were more extensive in the retroacetabular or proximal femoral regions. The current findings suggest that wear debris-induced inflammation may be a major contributor to the loss of implant function for both the historical and highly crosslinked cohorts, but it is not the primary cause of early implant loosening. This study highlights the importance of using a more quantitative and standardized assessment of immunohistomorphologic responses in periprosthetic tissues, and emphasizes differences in specific anatomical regions of individual patient tissues.

Published
2010

19. Phosphate and calcium are required for TGFbeta-mediated stimulation of ANK expression and function during chondrogenesis

Author

Theresa A. Freeman, Arnold S. Dion, Raihana Zaka, Charlene J. Williams, and Paulina Oca

Subjects
medicine.medical_specialty, Calcium Channels, L-Type, Physiology, Clinical Biochemistry, Sus scrofa, chemistry.chemical_element, Stimulation, Calcium, Phosphates, Transforming Growth Factor beta, Internal medicine, medicine, Animals, Phosphate Transport Proteins, Endochondral ossification, biology, Voltage-dependent calcium channel, Cell Biology, Transforming growth factor beta, Chondrogenesis, Alkaline Phosphatase, Immunohistochemistry, Cell biology, Endocrinology, chemistry, biology.protein, Alkaline phosphatase, Signal transduction, Transcription Factor Pit-1, Signal Transduction
Abstract

The expression of ANK, a key player in biomineralization, is stimulated by treatment with TGFbeta. The purpose of this study was to determine whether TGFbeta stimulation of ANK expression during chondrogenesis was dependent upon the influx of calcium and phosphate into cells. Treatment of ATDC5 cells with TGFbeta increased ANK expression during all phases of chondrogenic differentiation, particularly at day 14 (proliferation) and day 32 (mineralizing hypertrophy) of culture. Phosphate uptake studies in the presence and absence of phosphonoformic acid (PFA), a competitive inhibitor of the type III Na(+)/Pi channels Pit-1 and Pit-2, indicated that the stimulation of ANK expression by TGFbeta required the influx of phosphate, specifically by the Pit-1 transporter, at all phases of differentiation. At hypertrophy, when alkaline phosphatase is highly expressed, inhibition of its activity with levamisole also abrogated the stimulatory effect of TGFbeta on ANK expression, further illustrating that Pi availability and uptake by the cells is necessary for stimulation of ANK expression in response to TGFbeta. Since previous studies of endochondral ossification in the growth plate have shown that L-type calcium channels are essential for chondrogenesis, we investigated their role in the TGFbeta-stimulated ANK response in ATDC5 cells. Treatment with nifedipine to inhibit calcium influx via the L-type channel Cav1.2 (alpha(1C)) inhibited the TGFbeta stimulated increase in ANK expression at all phases of chondrogenesis. Our findings indicate that TGFbeta stimulation of ANK expression is dependent upon the influx of phosphate and calcium into ATDC5 cells at all stages of differentiation.

Published
2010

20. Syndecan-3: A cell-surface heparan sulfate proteoglycan important for chondrocyte proliferation and function during limb skeletogenesis

Author

Eiki Koyama, Theresa A. Freeman, Masahiro Iwamoto, Motomi Enomoto-Iwamoto, Chiara Gentili, Maurizio Pacifici, Tsuyoshi Shimo, and Thorsten Kirsch

Subjects
medicine.medical_specialty, animal structures, Indian hedgehog, Endocrinology, Diabetes and Metabolism, Hereditary multiple exostoses, Chick Embryo, Chondrocyte, Syndecan 1, Mice, Chondrocytes, Endocrinology, Growth factor receptor, Internal medicine, medicine, Chondrocyte proliferation, Animals, Orthopedics and Sports Medicine, Growth Substances, Mitosis, Chondrocyte maturation, Cell Proliferation, Membrane Glycoproteins, Bone Development, biology, Extremities, General Medicine, biology.organism_classification, medicine.disease, Growth plate, Limb skeletogenesis, Syndecan-3, Proteoglycans, Cell biology, carbohydrates (lipids), Diabetes and Metabolism, medicine.anatomical_structure, Proteoglycan, embryonic structures, biology.protein, Signal transduction
Abstract

Syndecans are single-pass integral membrane components that serve as co-receptors for growth factors and cytokines and can elicit signal transduction via their cytoplasmic tails. We review here previous studies from our groups on syndecan-3 biology and function in the growth plates of developing long bones in chick and mouse embryos. Gain- and loss-of-function data indicate that syndecan-3 has important roles in restricting mitotic activity to the proliferative zone of growth plate and may do so in close cooperation and interaction with the signaling molecule Indian hedgehog (IHH). Biochemical and protein-modeling data suggest a dimeric/oligomeric syndecan-3 configuration on the chondrocyte's cell surface. Analyses of embryos misexpressing syndecan-3 or lacking IHH provide further clues on syndecan-3/IHH interdependence and interrelationships. The data and the conclusions reached provide insights into mechanisms fine-tuning chondrocyte proliferation, maturation, and function in the developing and growing skeleton and into how abnormalities in these fundamental mechanisms may subtend human congenital pathologies, including osteochondromas in hereditary multiple exostoses syndrome.

Published
2005

21. Inhibition of apoptosis signal-regulating kinase 1 enhances endochondral bone formation by increasing chondrocyte survival

Author

Qian-Shi Zhang, Atsushi Matsuzawa, Hidenori Ichijo, Marla J. Steinbeck, Gregory J. Eaton, Carol Diallo, and Theresa A. Freeman

Subjects
Cancer Research, medicine.medical_specialty, Programmed cell death, Aporphines, Cell Survival, medicine.medical_treatment, Cellular differentiation, Immunology, Apoptosis, Biology, MAP Kinase Kinase Kinase 5, Bone and Bones, Chondrocyte, Mice, Cellular and Molecular Neuroscience, Calcification, Physiologic, Chondrocytes, Osteogenesis, Internal medicine, medicine, Animals, ASK1, Protein Kinase Inhibitors, Endochondral ossification, Mice, Knockout, Growth factor, Gene Expression Regulation, Developmental, Cell Differentiation, Hydrogen Peroxide, Cell Biology, Fibroblasts, Staurosporine, Chondrogenesis, Cell biology, medicine.anatomical_structure, Endocrinology, Quinolines, Original Article, Signal transduction, Signal Transduction
Abstract

Endochondral ossification is the result of chondrocyte differentiation, hypertrophy, death and replacement by bone. The careful timing and progression of this process is important for normal skeletal bone growth and development, as well as fracture repair. Apoptosis Signal-Regulating Kinase 1 (ASK1) is a mitogen-activated protein kinase (MAPK), which is activated by reactive oxygen species and other cellular stress events. Activation of ASK1 initiates a signaling cascade known to regulate diverse cellular events including cytokine and growth factor signaling, cell cycle regulation, cellular differentiation, hypertrophy, survival and apoptosis. ASK1 is highly expressed in hypertrophic chondrocytes, but the role of ASK1 in skeletal tissues has not been investigated. Herein, we report that ASK1 knockout (KO) mice display alterations in normal growth plate morphology, which include a shorter proliferative zone and a lengthened hypertrophic zone. These changes in growth plate dynamics result in accelerated long bone mineralization and an increased formation of trabecular bone, which can be attributed to an increased resistance of terminally differentiated chondrocytes to undergo cell death. Interestingly, under normal cell culture conditions, mouse embryonic fibroblasts (MEFs) derived from ASK1 KO mice show no differences in either MAPK signaling or osteogenic or chondrogenic differentiation when compared with wild-type (WT) MEFs. However, when cultured with stress activators, H2O2 or staurosporine, the KO cells show enhanced survival, an associated decrease in the activation of proteins involved in death signaling pathways and a reduction in markers of terminal differentiation. Furthermore, in both WT mice treated with the ASK1 inhibitor, NQDI-1, and ASK1 KO mice endochondral bone formation was increased in an ectopic ossification model. These findings highlight a previously unrealized role for ASK1 in regulating endochondral bone formation. Inhibition of ASK1 has clinical potential to treat fractures or to slow osteoarthritic progression by enhancing chondrocyte survival and slowing hypertrophy.

Published
2014
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22. Skeletal Cell Differentiation Is Enhanced by Atmospheric Dielectric Barrier Discharge Plasma Treatment

Author

Alexander Fridman, Natalie Chernets, Marla J. Steinbeck, Jun Zhang, Theresa A. Freeman, Deepa S. Kurpad, and Gregory Fridman

Subjects
Pathology, medicine.medical_specialty, Programmed cell death, Plasma Gases, Cellular differentiation, Intracellular Space, lcsh:Medicine, Polymerase Chain Reaction, Cell Line, Mice, 03 medical and health sciences, chemistry.chemical_compound, Chondrocytes, 0302 clinical medicine, Electricity, Osteogenesis, medicine, Extracellular, Animals, Viability assay, lcsh:Science, Cell Proliferation, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, Reactive oxygen species, Osteoblasts, Multidisciplinary, Cell Death, Atmosphere, Superoxide, lcsh:R, Cell Differentiation, Osteoblast, Cell biology, medicine.anatomical_structure, chemistry, 030220 oncology & carcinogenesis, lcsh:Q, Reactive Oxygen Species, Intracellular, Research Article
Abstract

Enhancing chondrogenic and osteogenic differentiation is of paramount importance in providing effective regenerative therapies and improving the rate of fracture healing. This study investigated the potential of non-thermal atmospheric dielectric barrier discharge plasma (NT-plasma) to enhance chondrocyte and osteoblast proliferation and differentiation. Although the exact mechanism by which NT-plasma interacts with cells is undefined, it is known that during treatment the atmosphere is ionized generating extracellular reactive oxygen and nitrogen species (ROS and RNS) and an electric field. Appropriate NT-plasma conditions were determined using lactate-dehydrogenase release, flow cytometric live/dead assay, flow cytometric cell cycle analysis, and Western blots to evaluate DNA damage and mitochondrial integrity. We observed that specific NT-plasma conditions were required to prevent cell death, and that loss of pre-osteoblastic cell viability was dependent on intracellular ROS and RNS production. To further investigate the involvement of intracellular ROS, fluorescent intracellular dyes Mitosox (superoxide) and dihydrorhodamine (peroxide) were used to assess onset and duration after NT-plasma treatment. Both intracellular superoxide and peroxide were found to increase immediately post NT-plasma treatment. These increases were sustained for one hour but returned to control levels by 24 hr. Using the same treatment conditions, osteogenic differentiation by NT-plasma was assessed and compared to peroxide or osteogenic media containing β-glycerolphosphate. Although both NT-plasma and peroxide induced differentiation-specific gene expression, neither was as effective as the osteogenic media. However, treatment of cells with NT-plasma after 24 hr in osteogenic or chondrogenic media significantly enhanced differentiation as compared to differentiation media alone. The results of this study show that NT-plasma can selectively initiate and amplify ROS signaling to enhance differentiation, and suggest this technology could be used to enhance bone fusion and improve healing after skeletal injury.

Published
2013
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23. Abstract 5405: Limiting glucose availability with metformin increased reactive oxygen species, decreased cell survival, and promoted apoptosis in human and mouse pancreatic cancer cells

Author

Susan Lanza-Jacoby, Theresa A. Freeman, and Guang Yan

Subjects
Cancer Research, medicine.medical_specialty, endocrine system diseases, Autophagy, Cancer, Biology, medicine.disease, Metformin, Endocrinology, Oncology, Apoptosis, Pancreatic tumor, Internal medicine, Pancreatic cancer, medicine, Cancer research, Cytotoxic T cell, Viability assay, medicine.drug
Abstract

Background: Recently, we found that calorie restriction (CR) protected K-ras G12D; Pdx-1Cre mice against the progression of advanced PanIn lesions and pancreatic cancer. Since CR limits glucose availability, the CR mimetic metformin is also potential approach to prevent pancreatic cancer. Recent studies found that metformin reduced the incidence of pancreatic cancer in diabetic patients. However, it is not clear how metformin promotes the anticancer effects. One potential mechanism is by altering reactive oxygen species (ROS) and autophagy. In this in vitro study, we explore the role of ROS and autophagy in mediating the growth-inhibitory effects of metformin by treating pancreatic cancer cells and normal pancreatic ductal cells with metformin. Methods: We acclimated MiaPaca and KP mouse pancreatic tumor cells from K-ras G12D; Pdx-1Cre mice to physiological concentrations of glucose and then treated cells cells with metformin with and without the antioxidant N-acetyl cysteine (NAC) or chloroquine (autophagy inhibitor) for 24h. Cell viability, ROS production, and apoptosis were measured. Results: Metformin decreased viability of MiaPaca and KP cells in a concentration-dependent manner in comparison to untreated cells; metformin did not have any effect in HPNE human pancreatic normal epithelial cells. Pretreating MiaPaca and KP cells with NAC increase survival and decreased apoptosis, which suggests that ROS promotes the growth-inhibitory and apoptotic effect of metformin. Metformin increased ROS formation in MiaPaca and KP cells but not in HPNE cells. Cell survival increased and apoptosis decreased when MiaPaca cells were pretreated with chloroquine. Our findings suggest that ROS and autophagy may mediate the cytotoxic effects of metformin in MiaPaca and KP pancreatic cancer cells. Conclusion: In summary, metformin may be a potential chemoprevention agent against pancreatic cancer without cytotoxic effects in normal pancreatic ductal cells. Citation Format: Guang Yan, Theresa Freeman, Susan Lanza-Jacoby. Limiting glucose availability with metformin increased reactive oxygen species, decreased cell survival, and promoted apoptosis in human and mouse pancreatic cancer cells. [abstract]. In: Proceedings of the 104th Annual Meeting of the American Association for Cancer Research; 2013 Apr 6-10; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2013;73(8 Suppl):Abstract nr 5405. doi:10.1158/1538-7445.AM2013-5405

Published
2013
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24. Membrane-associated tubulin in the rat anterior pituitary and GH3 cells

Author

Theresa A. Freeman, S. A. Patel, R Ravindra, and Robert G. Nagele

Subjects
Male, Pituitary gland, medicine.medical_specialty, Fluorescent Antibody Technique, macromolecular substances, Biology, Anterior pituitary, GTP-Binding Proteins, Pituitary Gland, Anterior, Tubulin, Internal medicine, medicine, Fluorescence microscope, Animals, Rats, Wistar, Cytoskeleton, Ouabain, Cells, Cultured, General Neuroscience, Cell Membrane, Molecular biology, Immunohistochemistry, Rats, medicine.anatomical_structure, Endocrinology, Membrane, biology.protein, Electrophoresis, Polyacrylamide Gel, Antibody, Sodium-Potassium-Exchanging ATPase, Endocrine gland, Signal Transduction
Abstract

Plasma membranes from anterior pituitary lobes of rats and GH3 cells were exposed to monoclonal anti-beta tubulin antibodies or normal mouse IgG, and treated with FITC-labeled anti-mouse IgG. Specimens were visualized with a microscope equipped with epifluorescence optics. Tubulin-specific fluorescence was very prominent in membranes incubated with tubulin antibody and was negligible in membranes incubated with normal mouse IgG or FITC-labeled anti-mouse IgG alone. Two dimensional electrophoresis revealed that 27% of the rat pituitary tubulin is beta-tubulin and 73% is alpha-tubulin; 17% of the GH3 cell tubulin is beta-tubulin and 83% is alpha-tubulin. These results suggest that tubulin is a component of plasma membranes of the rat pituitary and GH3 cells.

Published
1994

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