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2. Predictive value of diffusion MRI-based parametric response mapping for prognosis and treatment response in glioblastoma.

Author

Rydelius, A., Bengzon, J., Engelholm, S., Kinhult, S., Englund, E., Nilsson, M., Lätt, J., Lampinen, B., and Sundgren, P.C.

Subjects
*PROGRESSION-free survival, *METHYLGUANINE, *GLIOBLASTOMA multiforme, *O6-Methylguanine-DNA Methyltransferase, *DIFFUSION magnetic resonance imaging, *BRAIN tumors, *DISEASE progression
Abstract

Early detection of treatment response is important for the management of patients with malignant brain tumors such as glioblastoma to assure good quality of life in relation to therapeutic efficacy. To investigate whether parametric response mapping (PRM) with diffusion MRI may provide prognostic information at an early stage of standard therapy for glioblastoma. This prospective study included 31 patients newly diagnosed with glioblastoma WHO grade IV, planned for primary standard postoperative treatment with radiotherapy 60Gy/30 fractions with concomitant and adjuvant Temozolomide. MRI follow-up including diffusion and perfusion weighting was performed at 3 T at start of postoperative chemoradiotherapy, three weeks into treatment, and then regularly until twelve months postoperatively. Regional mean diffusivity (MD) changes were analyzed voxel-wise using the PRM method (MD-PRM). At eight and twelve months postoperatively, after completion of standard treatment, patients were classified using conventional MRI and clinical evaluation as either having stable disease (SD, including partial response) or progressive disease (PD). It was assessed whether MD-PRM differed between patients having SD versus PD and whether it predicted the risk of disease progression (progression-free survival, PFS) or death (overall survival, OS). A subgroup analysis was performed that compared MD-PRM between SD and PD in patients only undergoing diagnostic biopsy. MGMT-promotor methylation status (O6-methylguanine-DNA methyltransferase) was registered and analyzed with respect to PFS, OS and MD-PRM. Of the 31 patients analyzed: 21 were operated by resection and ten by diagnostic biopsy. At eight months, 19 patients had SD and twelve had PD. At twelve months, ten patients had SD and 20 had PD, out of which ten were deceased within twelve months and one was deceased without known tumor progression. Median PFS was nine months, and median OS was 17 months. Eleven patients had methylated MGMT-promotor, 16 were MGMT unmethylated, and four had unknown MGMT-status. MD-PRM did not significantly predict patients having SD versus PD neither at eight nor at twelve months. Patients with an above median MD-PRM reduction had a slightly longer PFS (P = 0.015) in Kaplan-Maier analysis, as well as a non-significantly longer OS (P = 0.099). In the subgroup of patients only undergoing biopsy, total MD-PRM change at three weeks was generally higher for patients with SD than for patients with PD at eight months, although no tests were performed. MGMT status strongly predicted both PFS and OS but not MD-PRM change. MD-PRM at three weeks was not demonstrated to be predictive of treatment response, disease progression, or survival. Preliminary results suggested a higher predictive value in non-resected patients, although this needs to be evaluated in future studies. • Diffusion parametric response maps (PRM) measure voxel-wise change during therapy. • Diffusion PRM was not predictive for response in resected glioblastoma WHO grade IV. • Diffusion PRM predicted treatment response in biopsied glioblastoma. • Diffusion PRM is not correlated to MGMT-status in glioblastoma. [ABSTRACT FROM AUTHOR]

Published
2023
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6. Hip Geometry and Proximal Femoral Fractures among Elderly Filipino Women: A Single Centre Cross-Sectional Study

Author

Barrido CI and Bengzon JAM

Subjects
hip geometry, proximal femur, femoral neck, intertrochanteric, risk factor, Orthopedic surgery, RD701-811
Abstract

INTRODUCTION: Few controlled studies explore proximal femoral geometry and association with femoral neck (FN) or intertrochanteric (IT) fractures, especially among the elderly Filipino population. Previous reports, however, still reveal multiple inconsistencies. The objective of the study is to establish a possible association between radiographic hip geometry and proximal femoral fractures based on measurements taken from elderly Filipino women. MATERIALS AND METHODS: This is a cross-sectional study of 182 Filipino women ≥ 60 years old at a single institution last 2019-2020. Patients were divided into groups with femoral neck fractures (n=84), intertrochanteric fractures (n=64), and those without diagnosed hip fractures (n=34). Standard pelvic radiographs with control of hip internal rotation was done and the following radiographic parameters were compared: hip axis length (HAL), femoral neck length (FNL), neck shaft angle (NSA), horizontal offset (HO), femoral head diameter (FHD), and femoral neck diameter (FND). RESULTS: Data suggests that an increased FND increased the risk for acquiring both femoral neck (OR = 1.31, 95% CI 1.06 - 1.62; p=.011) and intertrochanteric fractures (OR: 1.22, 95% CI 1.07-2.16; p=0.018). For intertrochanteric fractures alone, a wider NSA (OR 1.27, 95% CI 1.02 - 1.58, p=0.033) and larger HO (OR 1.29, 95% CI 1.02 - 1.64, p=0.036) also increased the risk for this fracture type while a longer HAL was protective (OR 0.85, 95% CI 0.73 - 0.98, p=0.30). Other radiographic parameters and ratios revealed no association. CONCLUSION: Results show that there are certain hip geometric parameters that play a role in the risk and incidence of developing femoral neck or intertrochanteric fractures. These measurements may aid in identification of patients at risk. This study may act as a guide for future implant design and increase accuracy of hip reconstruction among elderly Filipino women.

Published
2022
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8. Cystatin C, a marker for successful aging and glomerular filtration rate, is not influenced by inflammation.

Author

Grubb A, Björk J, Nyman U, Pollak J, Bengzon J, Ostner G, Lindström V, Grubb, Anders, Björk, Jonas, Nyman, Ulf, Pollak, Joanna, Bengzon, Johan, Ostner, Gustav, and Lindström, Veronica

Abstract

Background: The plasma level of cystatin C is a better marker than plasma creatinine for successful aging. It has been assumed that the advantage of cystatin C is not only due to it being a better marker for glomerular filtration rate (GFR) than creatinine, but also because an inflammatory state of a patient induces a raised cystatin C level. However, the observations of an association between cystatin C level and inflammation stem from large cohort studies. The present work concerns the cystatin C levels and degree of inflammation in longitudinal studies of individual subjects without inflammation, who undergo elective surgery.Methods: Cystatin C, creatinine, and the inflammatory markers CRP, serum amyloid A (SAA), haptoglobin and orosomucoid were measured in plasma samples from 35 patients the day before elective surgery and subsequently during seven consecutive days.Results: Twenty patients had CRP-levels below 1 mg/L before surgery and low levels of the additional inflammatory markers. Surgery caused marked inflammation with high peak values of CRP and SAA on the second day after the operation. The cystatin C level did not change significantly during the observation period and did not correlate significantly with the level of any of the four inflammatory markers. The creatinine level was significantly reduced on the first postoperative day but reached the preoperative level towards the end of the observation period.Conclusion: The inflammatory status of a patient does not influence the role of cystatin C as a marker of successful aging, nor of GFR. [ABSTRACT FROM AUTHOR]

Published
2011
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12. Protumoral lipid droplet-loaded macrophages are enriched in human glioblastoma and can be therapeutically targeted.

Author

Governa V, de Oliveira KG, Bång-Rudenstam A, Offer S, Cerezo-Magaña M, Li J, Beyer S, Johansson MC, Månsson AS, Edvardsson C, Durmo F, Gustafsson E, Boukredine A, Jeannot P, Schmidt K, Gezelius E, Menard JA, Garza R, Jakobsson J, de Neergaard T, Sundgren PC, Tiihonen AM, Haapasalo H, Rautajoki KJ, Nordenfelt P, Darabi A, Forsberg-Nilsson K, Pietras A, Talbot H, Bengzon J, and Belting M

Subjects
Humans, Animals, Cell Line, Tumor, Brain Neoplasms pathology, Brain Neoplasms metabolism, Brain Neoplasms drug therapy, Foam Cells metabolism, Foam Cells pathology, Mice, Extracellular Vesicles metabolism, Glioblastoma pathology, Glioblastoma metabolism, Glioblastoma drug therapy, Lipid Droplets metabolism, Macrophages metabolism, Tumor Microenvironment
Abstract

Glioblastoma presents a formidable clinical challenge because of its complex microenvironment. Here, we characterized tumor-associated foam cells (TAFs), a type of lipid droplet-loaded macrophage, in human glioblastoma. Through extensive analyses of patient tumors, together with in vitro and in vivo investigations, we found that TAFs exhibit distinct protumorigenic characteristics related to hypoxia, mesenchymal transition, angiogenesis, and impaired phagocytosis, and their presence correlates with worse outcomes for patients with glioma. We further demonstrated that TAF formation is facilitated by lipid scavenging from extracellular vesicles released by glioblastoma cells. We found that targeting key enzymes involved in lipid droplet formation, such as diacylglycerol O -acyltransferase or long-chain acyl-CoA synthetase, effectively disrupted TAF functionality. Together, these data highlight TAFs as a prominent immune cell population in glioblastoma and provide insights into their contribution to the tumor microenvironment. Disrupting lipid droplet formation to target TAFs may represent an avenue for future therapeutic development for glioblastoma.

Published
2024
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13. Decoding of the surfaceome and endocytome in primary glioblastoma cells identifies potential target antigens in the hypoxic tumor niche.

Author

de Oliveira KG, Bång-Rudenstam A, Beyer S, Boukredine A, Talbot H, Governa V, Johansson MC, Månsson AS, Forsberg-Nilsson K, Bengzon J, Malmström J, Welinder C, and Belting M

Subjects
Adult, Humans, Hypoxia metabolism, Cell Line, Tumor, Gene Expression Profiling, Membrane Proteins, Tumor Microenvironment, Glioblastoma pathology, Brain Neoplasms pathology
Abstract

Immunotherapies with antibody-drug-conjugates (ADC) and CAR-T cells, targeted at tumor surface antigens (surfaceome), currently revolutionize clinical oncology. However, target identification warrants a better understanding of the surfaceome and how it is modulated by the tumor microenvironment. Here, we decode the surfaceome and endocytome and its remodeling by hypoxic stress in glioblastoma (GBM), the most common and aggressive brain tumor in adults. We employed a comprehensive approach for global and dynamic profiling of the surfaceome and endocytosed (endocytome) proteins and their regulation by hypoxia in patient-derived GBM cultures. We found a heterogeneous surface-endocytome profile and a divergent response to hypoxia across GBM cultures. We provide a quantitative ranking of more than 600 surface resident and endocytosed proteins, and their regulation by hypoxia, serving as a resource to the cancer research community. As proof-of-concept, the established target antigen CD44 was identified as a commonly and abundantly expressed surface protein with high endocytic activity. Among hypoxia induced proteins, we reveal CXADR, CD47, CD81, BSG, and FXYD6 as potential targets of the stressed GBM niche. We could validate these findings by immunofluorescence analyses in patient tumors and by increased expression in the hypoxic core of GBM spheroids. Selected candidates were finally confronted by treatment studies, showing their high capacity for internalization and ADC delivery. Importantly, we highlight the limited correlation between transcriptomics and proteomics, emphasizing the critical role of membrane protein enrichment strategies and quantitative mass spectrometry. Our findings provide a comprehensive understanding of the surface-endocytome and its remodeling by hypoxia in GBM as a resource for exploration of targets for immunotherapeutic approaches in GBM., (© 2024. The Author(s).)

Published
2024
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14. Visual acuity in patients with non-functioning pituitary adenoma: Prognostic factors and long-term outcome after surgery.

Author

Uvelius E, Valdemarsson S, Bengzon J, Hammar B, and Siesjö P

Abstract

Background: Visual acuity (VA) and visual field defects (VF) are evaluated in the preoperative management of non-functioning pituitary adenoma (NFPA). The former is less studied than the latter., Research Question: To analyze preoperative factors, including adenoma volumetry, associated with reduced VA and postoperative improvement of VA over five years after surgery., Methods: Eighty-seven patients who had primary surgery for NFPA were retrospectively reviewed. Eyes were categorized by best/worse preoperative VA. Ophthalmology review was performed before surgery, at three months, one to two years, and five years post-surgery., Results: Reduced VA in any eye was present in 55%. VA of the worse eye improved in 77% and normalized in 54%. The majority improved within three months. Additional cases with VA improvement were seen at 1-2 years after surgery. No further improvement was seen five years after surgery. Fifty percent of patients with, per definition, normal preoperative VA showed improved VA postoperatively. Tumor height above the sella in the sagittal plane was the best radiological predictor of reduced VA. Volumetry did not add to accuracy. Age, sagittal tumor height and visual field defects were risk factors of preoperative reduced VA. No predictors of postoperative recovery were identified., Conclusion: Half of patients with reduced VA recover fully. All patients, independent of age and degree of VA reduction, may improve. No predictors of recovery were found. Early improvement is common and improvement beyond two years is unlikely. The frequency of reduced VA is underestimated. The present results could be of value in pre- and postoperative counseling., 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
2023
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15. Oligodendrocytes in human induced pluripotent stem cell-derived cortical grafts remyelinate adult rat and human cortical neurons.

Author

Martinez-Curiel R, Jansson L, Tsupykov O, Avaliani N, Aretio-Medina C, Hidalgo I, Monni E, Bengzon J, Skibo G, Lindvall O, Kokaia Z, and Palma-Tortosa S

Subjects
Humans, Rats, Adult, Animals, Cell Differentiation physiology, Neurons, Oligodendroglia metabolism, Axons physiology, Myelin Sheath physiology, Induced Pluripotent Stem Cells
Abstract

Neuronal loss and axonal demyelination underlie long-term functional impairments in patients affected by brain disorders such as ischemic stroke. Stem cell-based approaches reconstructing and remyelinating brain neural circuitry, leading to recovery, are highly warranted. Here, we demonstrate the in vitro and in vivo production of myelinating oligodendrocytes from a human induced pluripotent stem cell (iPSC)-derived long-term neuroepithelial stem (lt-NES) cell line, which also gives rise to neurons with the capacity to integrate into stroke-injured, adult rat cortical networks. Most importantly, the generated oligodendrocytes survive and form myelin-ensheathing human axons in the host tissue after grafting onto adult human cortical organotypic cultures. This lt-NES cell line is the first human stem cell source that, after intracerebral delivery, can repair both injured neural circuitries and demyelinated axons. Our findings provide supportive evidence for the potential future use of human iPSC-derived cell lines to promote effective clinical recovery following brain injuries., Competing Interests: Conflict of interests The authors declare no competing interests., (Copyright © 2023 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published
2023
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16. Tumoral parkinsonism-Parkinsonism secondary to brain tumors, paraneoplastic syndromes, intracranial malformations, or oncological intervention, and the effect of dopaminergic treatment.

Author

Cedergren Weber G, Timpka J, Rydelius A, Bengzon J, and Odin P

Subjects
Humans, Dopamine, Parkinsonian Disorders drug therapy, Parkinsonian Disorders complications, Brain Neoplasms complications, Brain Neoplasms drug therapy, Astrocytoma complications, Paraneoplastic Syndromes complications, Meningeal Neoplasms complications, Cysts complications
Abstract

Introduction: Secondary tumoral parkinsonism is a rare phenomenon that develops as a direct or indirect result of brain neoplasms or related conditions., Objectives: The first objective was to explore to what extent brain neoplasms, cavernomas, cysts, paraneoplastic syndromes (PNSs), and oncological treatment methods cause parkinsonism. The second objective was to investigate the effect of dopaminergic therapy on the symptomatology in patients with tumoral parkinsonism., Methods: A systematic literature review was conducted in the databases PubMed and Embase. Search terms like "secondary parkinsonism," "astrocytoma," and "cranial irradiation" were used. Articles fulfilling inclusion criteria were included in the review., Results: Out of 316 identified articles from the defined database search strategies, 56 were included in the detailed review. The studies, which were mostly case reports, provided research concerning tumoral parkinsonism and related conditions. It was found that various types of primary brain tumors, such as astrocytoma and meningioma, and more seldom brain metastases, can cause tumoral parkinsonism. Parkinsonism secondary to PNSs, cavernomas, cysts, as well as oncological treatments was reported. Twenty-five of the 56 included studies had tried initiating dopaminergic therapy, and of these 44% reported no, 48% low to moderate, and 8% excellent effect on motor symptomatology., Conclusion: Brain neoplasms, PNSs, certain intracranial malformations, and oncological treatments can cause parkinsonism. Dopaminergic therapy has relatively benign side effects and may relieve motor and nonmotor symptomatology in patients with tumoral parkinsonism. Dopaminergic therapy, particularly levodopa, should therefore be considered in patients with tumoral parkinsonism., (© 2023 The Authors. Brain and Behavior published by Wiley Periodicals LLC.)

Published
2023
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17. Complement Components in Peripheral Blood from Adult Patients with IDH Wild-Type Glioblastoma.

Author

Förnvik Jonsson K, Liljedahl E, Osther K, Bengzon J, Melander Skattum L, and Nittby Redebrandt H

Abstract

Background: The complement system seems to influence cancer pathophysiology. The primary aim of this study was to explore complement components associated with the classical pathway (CP) of the complement system in peripheral blood from patients with IDH-wild-type (IDH-wt) glioblastoma., Methods: Patients undergoing primary surgery due to glioblastoma in the years 2019-2021 were prospectively included in the present study. Blood samples were collected prior to surgery, and analyzed with regard to CP complement components, as well as standard coagulation tests., Results: In total, 40 patients with IDH-wt glioblastomas were included. C1q was reduced in 44% of the cases compared to the reference interval. C1r was reduced in 61% of the analyzed samples. Both C1q and C1r are parts of the initial steps of the classical complement activation pathway, which, however, was not correspondingly altered. Activated pro-thromboplastin time (APTT) was shorter in 82% of the analyzed samples compared to the reference interval. APTT was shorter in those with reduced C1q and C1r levels. C1q is an important link between the innate and acquired immunity, and C1q and C1r also interact with the coagulation system. Patients who displayed reduced levels of both C1q and C1r preoperatively had a significantly shorter overall survival compared with the rest of the cohort., Conclusions: Our findings demonstrate that there are alterations in C1q and C1r concentrations in peripheral blood from patients with IDH1-wt glioblastoma compared with the normal population. Patients who displayed reduced C1q and C1r levels had a significantly shorter survival., (Copyright © 2023 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published
2023
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18. Tissue response curve-shape analysis of dynamic glucose-enhanced and dynamic contrast-enhanced magnetic resonance imaging in patients with brain tumor.

Author

Seidemo A, Wirestam R, Helms G, Markenroth Bloch K, Xu X, Bengzon J, Sundgren PC, van Zijl PCM, and Knutsson L

Subjects
Humans, Magnetic Resonance Imaging methods, Contrast Media, Brain diagnostic imaging, Glucose, Brain Neoplasms diagnostic imaging
Abstract

Dynamic glucose-enhanced (DGE) MRI is used to study the signal intensity time course (tissue response curve) after D-glucose injection. D-glucose has potential as a biodegradable alternative or complement to gadolinium-based contrast agents, with DGE being comparable with dynamic contrast-enhanced (DCE) MRI. However, the tissue uptake kinetics as well as the detection methods of DGE differ from DCE MRI, and it is relevant to compare these techniques in terms of spatiotemporal enhancement patterns. This study aims to develop a DGE analysis method based on tissue response curve shapes, and to investigate whether DGE MRI provides similar or complementary information to DCE MRI. Eleven patients with suspected gliomas were studied. Tissue response curves were measured for DGE and DCE MRI at 7 T and the area under the curve (AUC) was assessed. Seven types of response curve shapes were postulated and subsequently identified by deep learning to create color-coded "curve maps" showing the spatial distribution of different curve types. DGE AUC values were significantly higher in lesions than in normal tissue (p < 0.007). Furthermore, the distribution of curve types differed between lesions and normal tissue for both DGE and DCE. The DGE and DCE response curves in a 6-min postinjection time interval were classified as the same curve type in 20% of the lesion voxels, which increased to 29% when a 12-min DGE time interval was considered. While both DGE and DCE tissue response curve-shape analysis enabled differentiation of lesions from normal brain tissue in humans, their enhancements were neither temporally identical nor confined entirely to the same regions. Curve maps can provide accessible and intuitive information about the shape of DGE response curves, which is expected to be useful in the continued work towards the interpretation of DGE uptake curves in terms of D-glucose delivery, transport, and metabolism., (© 2022 The Authors. NMR in Biomedicine published by John Wiley & Sons Ltd.)

Published
2023
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19. Coregistered histology sections with diffusion tensor imaging data at 200 µm resolution in meningioma tumors.

Author

Brabec J, Englund E, Bengzon J, Szczepankiewicz F, van Westen D, Sundgren PC, and Nilsson M

Abstract

A significant problem in diffusion MRI (dMRI) is the lack of understanding regarding which microstructural features account for the variability in the diffusion tensor imaging (DTI) parameters observed in meningioma tumors. A common assumption is that mean diffusivity (MD) and fractional anisotropy (FA) from DTI are inversely proportional to cell density and proportional to tissue anisotropy, respectively. Although these associations have been established across a wide range of tumors, they have been challenged for interpreting within-tumor variations where several additional microstructural features have been suggested as contributing to MD and FA. To facilitate the investigation of the biological underpinnings of DTI parameters, we performed ex-vivo DTI at 200 µm isotropic resolution on sixteen excised meningioma tumor samples. The samples exhibit a variety of microstructural features because the dataset includes meningiomas of six different meningioma types and two different grades. Diffusion-weighted signal (DWI) maps, DWI maps averaged over all directions for given b-value, signal intensities without diffusion encoding (S 0 ) as well as DTI parameters: MD, FA, in-plane FA (FA IP ), axial diffusivity (AD) and radial diffusivity (RD), were coregistered to Hematoxylin & Eosin- (H&E) and Elastica van Gieson-stained (EVG) histological sections by a non-linear landmark-based approach. Here, we provide DWI signal and DTI maps coregistered to histology sections and describe the pipeline for processing the raw DTI data and the coregistration. The raw, processed, and coregistered data are hosted by Analytic Imaging Diagnostics Arena (AIDA) data hub registry, and software tools for processing are provided via GitHub. We hope that data can be used in research and education concerning the link between the meningioma microstructure and parameters obtained by DTI., 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 Author(s).)

Published
2023
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20. Antisecretory factor is safe to use as add-on treatment in newly diagnosed glioblastoma.

Author

Ehinger E, Kopecky J, Darabi A, Visse E, Edvardsson C, Tomasevic G, Cederberg D, Belting M, Bengzon J, and Siesjö P

Subjects
Adult, Humans, Pilot Projects, Temozolomide therapeutic use, Antineoplastic Agents, Alkylating therapeutic use, Glioblastoma pathology, Brain Neoplasms pathology
Abstract

Purpose: Glioblastoma (GBM) is the most common primary malignant brain tumor in adults. Despite the best available treatment, prognosis remains poor. Current standard therapy consists of surgical removal of the tumor followed by radiotherapy and chemotherapy with the alkylating agent temozolomide (TMZ). Experimental studies suggest that antisecretory factor (AF), an endogenous protein with proposed antisecretory and anti-inflammatory properties, may potentiate the effect of TMZ and alleviate cerebral edema. Salovum is an egg yolk powder enriched for AF and is classified as a medical food in the European Union. In this pilot study, we evaluate the safety and feasibility of add-on Salovum in GBM patients., Methods: Eight patients with newly diagnosed, histologically confirmed GBM were prescribed Salovum during concomitant radiochemotherapy. Safety was determined by the number of treatment-related adverse events. Feasibility was determined by the number of patients who completed the full prescribed Salovum treatment., Results: No serious treatment-related adverse events were observed. Out of 8 included patients, 2 did not complete the full treatment. Only one of the dropouts was due to issues directly related to Salovum, which were nausea and loss of appetite. Median survival was 23 months., Conclusions: We conclude that Salovum is safe to use as an add-on treatment for GBM. In terms of feasibility, adherence to the treatment regimen requires a determined and independent patient as the large doses prescribed may cause nausea and loss of appetite., Trial Registration: ClinicalTrials.gov NCT04116138. Registered on 04/10/2019., (© 2023. The Author(s).)

Published
2023
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21. Transcription Factor-Forced Astrocytic Differentiation Impairs Human Glioblastoma Growth In Vitro and In Vivo.

Author

Trovato F, Stefani FR, Li J, Zetterdahl OG, Canals I, Ahlenius H, and Bengzon J

Subjects
Humans, Astrocytes, Transcription Factors metabolism, Cell Line, Tumor, Cell Differentiation, Neoplastic Stem Cells metabolism, Glioblastoma drug therapy, Brain Neoplasms drug therapy
Abstract

Direct cellular reprogramming has recently gained attention of cancer researchers for the possibility to convert undifferentiated cancer cells into more differentiated, postmitotic cell types. While a few studies have attempted reprogramming of glioblastoma (GBM) cells toward a neuronal fate, this approach has not yet been used to induce differentiation into other lineages and in vivo data on reduction in tumorigenicity are limited. Here, we employ cellular reprogramming to induce astrocytic differentiation as a therapeutic approach in GBM. To this end, we overexpressed key transcriptional regulators of astroglial development in human GBM and GBM stem cell lines. Treated cells undergo a remarkable shift in structure, acquiring an astrocyte-like morphology with star-shaped bodies and radial branched processes. Differentiated cells express typical glial markers and show a marked decrease in their proliferative state. In addition, forced differentiation induces astrocytic functions such as induced calcium transients and ability to respond to inflammatory stimuli. Most importantly, forced differentiation substantially reduces tumorigenicity of GBM cells in an in vivo xenotransplantation model. The current study capitalizes on cellular plasticity with a novel application in cancer. We take advantage of the similarity between neural developmental processes and cancer hierarchy to mitigate, if not completely abolish, the malignant nature of tumor cells and pave the way for new intervention strategies., (©2022 The Authors; Published by the American Association for Cancer Research.)

Published
2023
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22. Meningioma microstructure assessed by diffusion MRI: An investigation of the source of mean diffusivity and fractional anisotropy by quantitative histology.

Author

Brabec J, Friedjungová M, Vašata D, Englund E, Bengzon J, Knutsson L, Szczepankiewicz F, van Westen D, Sundgren PC, and Nilsson M

Subjects
Humans, Diffusion Tensor Imaging methods, Anisotropy, Diffusion Magnetic Resonance Imaging methods, Meningioma diagnostic imaging, Meningioma pathology, Meningeal Neoplasms pathology
Abstract

Background: Mean diffusivity (MD) and fractional anisotropy (FA) from diffusion MRI (dMRI) have been associated with cell density and tissue anisotropy across tumors, but it is unknown whether these associations persist at the microscopic level., Purpose: To quantify the degree to which cell density and anisotropy, as determined from histology, account for the intra-tumor variability of MD and FA in meningioma tumors. Furthermore, to clarify whether other histological features account for additional intra-tumor variability of dMRI parameters., Materials and Methods: We performed ex-vivo dMRI at 200 μm isotropic resolution and histological imaging of 16 excised meningioma tumor samples. Diffusion tensor imaging (DTI) was used to map MD and FA, as well as the in-plane FA (FA IP ). Histology images were analyzed in terms of cell nuclei density (CD) and structure anisotropy (SA; obtained from structure tensor analysis) and were used separately in a regression analysis to predict MD and FA IP , respectively. A convolutional neural network (CNN) was also trained to predict the dMRI parameters from histology patches. The association between MRI and histology was analyzed in terms of out-of-sample (R 2 OS ) on the intra-tumor level and within-sample R 2 across tumors. Regions where the dMRI parameters were poorly predicted from histology were analyzed to identify features apart from CD and SA that could influence MD and FA IP , respectively., Results: Cell density assessed by histology poorly explained intra-tumor variability of MD at the mesoscopic level (200 μm), as median R 2 OS  = 0.04 (interquartile range 0.01-0.26). Structure anisotropy explained more of the variation in FA IP (median R 2 OS  = 0.31, 0.20-0.42). Samples with low R 2 OS for FA IP exhibited low variations throughout the samples and thus low explainable variability, however, this was not the case for MD. Across tumors, CD and SA were clearly associated with MD (R 2  = 0.60) and FA IP (R 2  = 0.81), respectively. In 37% of the samples (6 out of 16), cell density did not explain intra-tumor variability of MD when compared to the degree explained by the CNN. Tumor vascularization, psammoma bodies, microcysts, and tissue cohesivity were associated with bias in MD prediction based solely on CD. Our results support that FA IP is high in the presence of elongated and aligned cell structures, but low otherwise., Conclusion: Cell density and structure anisotropy account for variability in MD and FA IP across tumors but cell density does not explain MD variations within the tumor, which means that low or high values of MD locally may not always reflect high or low tumor cell density. Features beyond cell density need to be considered when interpreting MD., Competing Interests: Declaration of Competing Interest 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., (Published by Elsevier Inc.)

Published
2023
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23. GDNF Increases Inhibitory Synaptic Drive on Principal Neurons in the Hippocampus via Activation of the Ret Pathway.

Author

Mikroulis A, Waloschková E, Bengzon J, Woldbye D, Pinborg LH, Jespersen B, Avila AS, Laszlo ZI, Henstridge C, Ledri M, and Kokaia M

Subjects
Animals, Humans, Mice, Glial Cell Line-Derived Neurotrophic Factor Receptors genetics, Glial Cell Line-Derived Neurotrophic Factor Receptors metabolism, Neurons metabolism, Synapses metabolism, Glial Cell Line-Derived Neurotrophic Factor metabolism, Glial Cell Line-Derived Neurotrophic Factor pharmacology, Hippocampus metabolism, Proto-Oncogene Proteins c-ret metabolism, Pyramidal Cells metabolism
Abstract

Glial cell line-derived neurotrophic factor (GDNF) has been shown to counteract seizures when overexpressed or delivered into the brain in various animal models of epileptogenesis or chronic epilepsy. The mechanisms underlying this effect have not been investigated. We here demonstrate for the first time that GDNF enhances GABAergic inhibitory drive onto mouse pyramidal neurons by modulating postsynaptic GABA A receptors, particularly in perisomatic inhibitory synapses, by GFRα1 mediated activation of the Ret receptor pathway. Other GDNF receptors, such as NCAM or Syndecan3, are not contributing to this effect. We observed similar alterations by GDNF in human hippocampal slices resected from epilepsy patients. These data indicate that GDNF may exert its seizure-suppressant action by enhancing GABAergic inhibitory transmission in the hippocampal network, thus counteracting the increased excitability of the epileptic brain. This new knowledge can contribute to the development of novel, more precise treatment strategies based on a GDNF gene therapy approach.

Published
2022
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24. Glioblastoma CD105 + cells define a SOX2 - cancer stem cell-like subpopulation in the pre-invasive niche.

Author

Li J, Ek F, Olsson R, Belting M, and Bengzon J

Subjects
Cell Line, Tumor, Endoglin immunology, Humans, Neoplastic Stem Cells metabolism, SOXB1 Transcription Factors metabolism, Tumor Microenvironment, Brain Neoplasms pathology, Glioblastoma pathology, Glioma pathology
Abstract

Glioblastoma (GBM) is the most common and most aggressive primary brain tumor in adults. Glioma stem like cells (GSC) represent the highest cellular hierarchy in GBM and have a determining role in tumor growth, recurrence and patient prognosis. However, a better definition of GSC subpopulations, especially at the surgical resection margin, is warranted for improved oncological treatment options. The present study interrogated cells expressing CD105 (CD105 + ) specifically within the tumor front and the pre-invasive niche as a potential GSC subpopulation. GBM primary cell lines were generated from patients (n = 18) and CD105 + cells were isolated and assessed for stem-like characteristics. In vitro, CD105 + cells proliferated and enriched in serum-containing medium but not in serum-free conditions. CD105 + cells were characterized by Nestin + , Vimentin + and SOX2 - , clearly distinguishing them from SOX2 + GCS. GBM CD105 + cells differentiated into osteocytes and adipocytes but not chondrocytes. Exome sequencing revealed that GBM CD105 + cells matched 83% of somatic mutations in the Cancer cell line encyclopedia, indicating a malignant phenotype and in vivo xenotransplantation assays verified their tumorigenic potential. Cytokine assays showed that immunosuppressive and protumorigenic cytokines such as IL6, IL8, CCL2, CXCL-1 were produced by CD105 + cells. Finally, screening for 88 clinical drugs revealed that GBM CD105 + cells are resistant to most chemotherapeutics except Doxorubicin, Idarubicin, Fludarabine and ABT-751. Our study provides a rationale for targeting tumoral CD105 + cells in order to reshape the tumor microenvironment and block GBM progression., (© 2022. The Author(s).)

Published
2022
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25. Diffusion tensor imaging in glioblastoma patients treated with volumetric modulated arc radiotherapy: a longitudinal study.

Author

Rydelius A, Lampinen B, Rundcrantz A, Bengzon J, Engelholm S, van Westen D, Kinhult S, Knutsson L, Lätt J, Nilsson M, and Sundgren PC

Subjects
Anisotropy, Brain diagnostic imaging, Humans, Longitudinal Studies, Diffusion Tensor Imaging methods, Glioblastoma diagnostic imaging, Glioblastoma radiotherapy
Abstract

Background: Chemo- and radiotherapy (RT) is standard treatment for patients with high-grade glioma, but may cause side-effects on the patient's cognitive function., Aim: Use of diffusion tensor imaging (DTI) to investigate the longitudinal changes in normal-appearing brain tissue in glioblastoma patients undergoing modern arc-based RT with volumetric modulated arc therapy (VMAT) or helical tomotherapy., Materials and Methods: The study included 27 patients newly diagnosed with glioblastoma and planned for VMAT or tomotherapy. All subjects underwent magnetic resonance imaging at the start of RT and at week 3, 6, 15, and 26. Fourteen subjects were additionally imaged at week 52. The DTI data were co-registered to the dose distribution maps. Longitudinal changes in fractional anisotropy (FA), mean diffusivity (MD), radial diffusivity (RD), and axial diffusivity (AD) were assessed in the corpus callosum, the centrum semiovale, the hippocampus, and the amygdala., Results: Significant longitudinal changes in FA, MD, and RD were mainly found in the corpus callosum. In the other examined brain structures, only sparse and transient changes were seen. No consistent correlations were found between biodose, age, or gender and changes in DTI parameters., Conclusion: Longitudinal changes in MD, FA, and RD were observed but only in a limited number of brain structures and the changes were smaller than expected from literature. The results suggest that modern, arc-based RT may have less negative effect on normal-appearing parts of the brain tissue up to 12 months after radiotherapy.

Published
2022
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26. Landscape of surfaceome and endocytome in human glioma is divergent and depends on cellular spatial organization.

Author

Governa V, Talbot H, Gonçalves de Oliveira K, Cerezo-Magaña M, Bång-Rudenstam A, Johansson MC, Månsson AS, Forsberg-Nilsson K, Marko-Varga G, Enríquez Pérez J, Darabi A, Malmström J, Bengzon J, Welinder C, and Belting M

Subjects
Cell Line, Tumor, Humans, Neoplasm Proteins metabolism, Proteomics methods, Brain Neoplasms pathology, Endocytosis, Glioma pathology
Abstract

Therapeutic strategies directed at the tumor surfaceome (TS), including checkpoint inhibitor blocking antibodies, antibody drug conjugates (ADCs), and chimeric antigen receptor T (CAR-T) cells, provide a new armament to fight cancer. However, a remaining bottleneck is the lack of strategies to comprehensively interrogate patient tumors for potential TS targets. Here, we have developed a platform (tumor surfaceome mapping [TS-MAP]) integrated with a newly curated TS classifier (SURFME) that allows profiling of primary 3D cultures and intact patient glioma tumors with preserved tissue architecture. Moreover, TS-MAP specifically identifies proteins capable of endocytosis as tractable targets for ADCs and other modalities requiring toxic payload internalization. In high-grade gliomas that remain among the most aggressive forms of cancer, we show that cellular spatial organization (2D vs. 3D) fundamentally transforms the surfaceome and endocytome (e.g., integrins, proteoglycans, semaphorins, and cancer stem cell markers) with general implications for target screening approaches, as exemplified by an ADC targeting EGFR. The TS-MAP platform was further applied to profile the surfaceome and endocytome landscape in a cohort of freshly resected gliomas. We found a highly diverse TS repertoire between patient tumors, not directly associated with grade and histology, which highlights the need for individualized approaches. Our data provide additional layers of understanding fundamental to the future development of immunotherapy strategies, as well as procedures for proteomics-based target identification and selection. The TS-MAP platform should be widely applicable in efforts aiming at a better understanding of how to harness the TS for personalized immunotherapy., Competing Interests: Competing interest statement: K.G.d.O and M.B. have filed a patent on the use of TS-MAP for identifying cancer treatment targets., (Copyright © 2022 the Author(s). Published by PNAS.)

Published
2022
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27. Histogram analysis of tensor-valued diffusion MRI in meningiomas: Relation to consistency, histological grade and type.

Author

Brabec J, Szczepankiewicz F, Lennartsson F, Englund E, Pebdani H, Bengzon J, Knutsson L, Westin CF, Sundgren PC, and Nilsson M

Subjects
Anisotropy, Diffusion Magnetic Resonance Imaging, Diffusion Tensor Imaging, Humans, Meningeal Neoplasms diagnostic imaging, Meningeal Neoplasms pathology, Meningioma diagnostic imaging, Meningioma pathology
Abstract

Background: Preoperative radiological assessment of meningioma characteristics is of value for pre- and post-operative patient management, counselling, and surgical approach., Purpose: To investigate whether tensor-valued diffusion MRI can add to the preoperative prediction of meningioma consistency, grade and type., Materials and Methods: 30 patients with intracranial meningiomas (22 WHO grade I, 8 WHO grade II) underwent MRI prior to surgery. Diffusion MRI was performed with linear and spherical b-tensors with b-values up to 2000 s/mm 2 . The data were used to estimate mean diffusivity (MD), fractional anisotropy (FA), mean kurtosis (MK) and its components-the anisotropic and isotropic kurtoses (MK A and MK I ). Meningioma consistency was estimated for 16 patients during resection based on ultrasonic aspiration intensity, ease of resection with instrumentation or suction. Grade and type were determined by histopathological analysis. The relation between consistency, grade and type and dMRI parameters was analyzed inside the tumor ("whole-tumor") and within brain tissue in the immediate periphery outside the tumor ("rim") by histogram analysis., Results: Lower 10th percentiles of MK and MK A in the whole-tumor were associated with firm consistency compared with pooled soft and variable consistency (n = 7 vs 9; U test, p = 0.02 for MK A 10 and p = 0.04 for MK 10 ) and lower 10th percentile of MD with variable against soft and firm (n = 5 vs 11; U test, p = 0.02). Higher standard deviation of MK I in the rim was associated with lower grade (n = 22 vs 8; U test, p = 0.04) and in the MK I maps we observed elevated rim-like structure that could be associated with grade. Higher median MK A and lower median MK I distinguished psammomatous type from other pooled meningioma types (n = 5 vs 25; U test; p = 0.03 for MK A 50 and p = 0.03 and p = 0.04 for MK I 50 )., Conclusion: Parameters from tensor-valued dMRI can facilitate prediction of consistency, grade and type., (Copyright © 2021 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published
2022
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28. Human stem cell-derived GABAergic neurons functionally integrate into human neuronal networks.

Author

Gonzalez-Ramos A, Waloschková E, Mikroulis A, Kokaia Z, Bengzon J, Ledri M, Andersson M, and Kokaia M

Subjects
Animals, Cell Line, Cells, Cultured, Coculture Techniques, GABAergic Neurons metabolism, Human Embryonic Stem Cells metabolism, Humans, Mice, Nerve Net physiology, Neurogenesis, Synaptic Potentials, GABAergic Neurons cytology, Human Embryonic Stem Cells cytology, Nerve Net cytology
Abstract

Gamma-aminobutyric acid (GABA)-releasing interneurons modulate neuronal network activity in the brain by inhibiting other neurons. The alteration or absence of these cells disrupts the balance between excitatory and inhibitory processes, leading to neurological disorders such as epilepsy. In this regard, cell-based therapy may be an alternative therapeutic approach. We generated light-sensitive human embryonic stem cell (hESC)-derived GABAergic interneurons (hdIN) and tested their functionality. After 35 days in vitro (DIV), hdINs showed electrophysiological properties and spontaneous synaptic currents comparable to mature neurons. In co-culture with human cortical neurons and after transplantation (AT) into human brain tissue resected from patients with drug-resistant epilepsy, light-activated channelrhodopsin-2 (ChR2) expressing hdINs induced postsynaptic currents in human neurons, strongly suggesting functional efferent synapse formation. These results provide a proof-of-concept that hESC-derived neurons can integrate and modulate the activity of a human host neuronal network. Therefore, this study supports the possibility of precise temporal control of network excitability by transplantation of light-sensitive interneurons., (© 2021. The Author(s).)

Published
2021
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29. The Irradiated Brain Microenvironment Supports Glioma Stemness and Survival via Astrocyte-Derived Transglutaminase 2.

Author

Berg TJ, Marques C, Pantazopoulou V, Johansson E, von Stedingk K, Lindgren D, Jeannot P, Pietras EJ, Bergström T, Swartling FJ, Governa V, Bengzon J, Belting M, Axelson H, Squatrito M, and Pietras A

Subjects
Animals, Astrocytes radiation effects, Brain cytology, Brain physiology, Brain Neoplasms pathology, Cell Survival physiology, Enzyme Inhibitors pharmacology, Extracellular Matrix metabolism, Extracellular Matrix radiation effects, Female, GTP-Binding Proteins antagonists & inhibitors, Glioblastoma pathology, Glioma pathology, Glioma radiotherapy, Humans, Male, Mice, Neoplasm Recurrence, Local enzymology, Neoplasm Recurrence, Local pathology, Protein Glutamine gamma Glutamyltransferase 2, Radiation Tolerance, Transglutaminases antagonists & inhibitors, Tumor Microenvironment physiology, Astrocytes enzymology, Brain radiation effects, Brain Neoplasms radiotherapy, GTP-Binding Proteins metabolism, Glioblastoma radiotherapy, Neoplastic Stem Cells physiology, Transglutaminases metabolism, Tumor Microenvironment radiation effects
Abstract

The tumor microenvironment plays an essential role in supporting glioma stemness and radioresistance. Following radiotherapy, recurrent gliomas form in an irradiated microenvironment. Here we report that astrocytes, when pre-irradiated, increase stemness and survival of cocultured glioma cells. Tumor-naïve brains increased reactive astrocytes in response to radiation, and mice subjected to radiation prior to implantation of glioma cells developed more aggressive tumors. Extracellular matrix derived from irradiated astrocytes were found to be a major driver of this phenotype and astrocyte-derived transglutaminase 2 (TGM2) was identified as a promoter of glioma stemness and radioresistance. TGM2 levels increased after radiation in vivo and in recurrent human glioma, and TGM2 inhibitors abrogated glioma stemness and survival. These data suggest that irradiation of the brain results in the formation of a tumor-supportive microenvironment. Therapeutic targeting of radiation-induced, astrocyte-derived extracellular matrix proteins may enhance the efficacy of standard-of-care radiotherapy by reducing stemness in glioma. SIGNIFICANCE: These findings presented here indicate that radiotherapy can result in a tumor-supportive microenvironment, the targeting of which may be necessary to overcome tumor cell therapeutic resistance and recurrence. GRAPHICAL ABSTRACT: http://cancerres.aacrjournals.org/content/canres/81/8/2101/F1.large.jpg., (©2021 American Association for Cancer Research.)

Published
2021
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30. The human bone marrow harbors a CD45 - CD11B + cell progenitor permitting rapid microglia-like cell derivative approaches.

Author

Bruzelius A, Hidalgo I, Boza-Serrano A, Hjelmér AG, Tison A, Deierborg T, Bengzon J, and Ramos-Moreno T

Subjects
CD11b Antigen, Central Nervous System, Humans, Leukocyte Common Antigens, Bone Marrow, Microglia cytology, Stem Cells cytology
Abstract

Microglia, the immune sentinel of the central nervous system (CNS), are generated from yolk sac erythromyeloid progenitors that populate the developing CNS. Interestingly, a specific type of bone marrow-derived monocyte is able to express a yolk sac microglial signature and populate CNS in disease. Here we have examined human bone marrow (hBM) in an attempt to identify novel cell sources for generating microglia-like cells to use in cell-based therapies and in vitro modeling. We demonstrate that hBM stroma harbors a progenitor cell that we name stromal microglial progenitor (STR-MP). STR-MP single-cell gene analysis revealed the expression of the consensus genetic microglial signature and microglial-specific genes present in development and CNS pathologies. STR-MPs can be expanded and generate microglia-like cells in vitro, which we name stromal microglia (STR-M). STR-M cells show phagocytic ability, classically activate, and survive and phagocyte in human brain tissue. Thus, our results reveal that hBM harbors a source of microglia-like precursors that can be used in patient-centered fast derivative approaches., (© 2020 The Authors. STEM CELLS TRANSLATIONAL MEDICINE published by Wiley Periodicals LLC on behalf of AlphaMed Press.)

Published
2021
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31. Assessment of Amide proton transfer weighted (APTw) MRI for pre-surgical prediction of final diagnosis in gliomas.

Author

Durmo F, Rydhög A, Testud F, Lätt J, Schmitt B, Rydelius A, Englund E, Bengzon J, van Zijl P, Knutsson L, and Sundgren PC

Subjects
Adult, Aged, Brain Neoplasms pathology, Brain Neoplasms surgery, Female, Glioma pathology, Glioma surgery, Humans, Magnetic Resonance Imaging standards, Male, Middle Aged, Neoplasm Grading, Predictive Value of Tests, Brain Neoplasms diagnostic imaging, Glioma diagnostic imaging, Magnetic Resonance Imaging methods
Abstract

Purpose: Radiological assessment of primary brain neoplasms, both high (HGG) and low grade tumors (LGG), based on contrast-enhancement alone can be inaccurate. We evaluated the radiological value of amide proton transfer weighted (APTw) MRI as an imaging complement for pre-surgical radiological diagnosis of brain tumors., Methods: Twenty-six patients were evaluated prospectively; (22 males, 4 females, mean age 55 years, range 26-76 years) underwent MRI at 3T using T1-MPRAGE pre- and post-contrast administration, conventional T2w, FLAIR, and APTw imaging pre-surgically for suspected primary/secondary brain tumor. Assessment of the additional value of APTw imaging compared to conventional MRI for correct pre-surgical brain tumor diagnosis. The initial radiological pre-operative diagnosis was based on the conventional contrast-enhanced MR images. The range, minimum, maximum, and mean APTw signals were evaluated. Conventional normality testing was performed; with boxplots/outliers/skewness/kurtosis and a Shapiro-Wilk's test. Mann-Whitney U for analysis of significance for mean/max/min and range APTw signal. A logistic regression model was constructed for mean, max, range and Receiver Operating Characteristic (ROC) curves calculated for individual and combined APTw signals., Results: Conventional radiological diagnosis prior to surgery/biopsy was HGG (8 patients), LGG (12 patients), and metastasis (6 patients). Using the mean and maximum: APTw signal would have changed the pre-operative evaluation the diagnosis in 8 of 22 patients (two LGGs excluded, two METs excluded). Using a cut off value of >2.0% for mean APTw signal integral, 4 of the 12 radiologically suspected LGG would have been diagnosed as high grade glioma, which was confirmed by histopathological diagnosis. APTw mean of >2.0% and max >2.48% outperformed four separate clinical radiological assessments of tumor type, P-values = .004 and = .002, respectively., Conclusions: Using APTw-images as part of the daily clinical pre-operative radiological evaluation may improve diagnostic precision in differentiating LGGs from HGGs, with potential improvement of patient management and treatment., Competing Interests: PvZ acknowledges research support from Philips Healthcare, travel support from Philips Healthcare, paid lectures for Philips Healthcare. Also, APT technology is licensed to Philips Healthcare. The commercial vendor Siemens Healthcare provided support in the form of salaries for authors FT and BS, but did not have any additional role in the study. The specific roles of these authors are articulated in the ‘author contributions’ section. This does not alter our adherence to PLOS ONE policies on sharing data and materials.

Published
2020
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32. Grafted human pluripotent stem cell-derived cortical neurons integrate into adult human cortical neural circuitry.

Author

Grønning Hansen M, Laterza C, Palma-Tortosa S, Kvist G, Monni E, Tsupykov O, Tornero D, Uoshima N, Soriano J, Bengzon J, Martino G, Skibo G, Lindvall O, and Kokaia Z

Subjects
Animals, Cell Differentiation, Humans, Male, Rats, Rats, Sprague-Dawley, Induced Pluripotent Stem Cells transplantation, Neurons metabolism
Abstract

Several neurodegenerative diseases cause loss of cortical neurons, leading to sensory, motor, and cognitive impairments. Studies in different animal models have raised the possibility that transplantation of human cortical neuronal progenitors, generated from pluripotent stem cells, might be developed into a novel therapeutic strategy for disorders affecting cerebral cortex. For example, we have shown that human long-term neuroepithelial-like stem (lt-NES) cell-derived cortical neurons, produced from induced pluripotent stem cells and transplanted into stroke-injured adult rat cortex, improve neurological deficits and establish both afferent and efferent morphological and functional connections with host cortical neurons. So far, all studies with human pluripotent stem cell-derived neurons have been carried out using xenotransplantation in animal models. Whether these neurons can integrate also into adult human brain circuitry is unknown. Here, we show that cortically fated lt-NES cells, which are able to form functional synaptic networks in cell culture, differentiate to mature, layer-specific cortical neurons when transplanted ex vivo onto organotypic cultures of adult human cortex. The grafted neurons are functional and establish both afferent and efferent synapses with adult human cortical neurons in the slices as evidenced by immuno-electron microscopy, rabies virus retrograde monosynaptic tracing, and whole-cell patch-clamp recordings. Our findings provide the first evidence that pluripotent stem cell-derived neurons can integrate into adult host neural networks also in a human-to-human grafting situation, thereby supporting their potential future clinical use to promote recovery by neuronal replacement in the patient's diseased brain., (© 2020 The Authors. STEM CELLS TRANSLATIONAL MEDICINE published by Wiley Periodicals LLC on behalf of AlphaMed Press.)

Published
2020
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33. Longitudinal study of cognitive function in glioma patients treated with modern radiotherapy techniques and standard chemotherapy.

Author

Rydelius A, Lätt J, Kinhult S, Engelholm S, Van Westen D, Pihlsgård M, Bengzon J, Sundgren PC, and Lilja Å

Subjects
Adult, Aged, Antineoplastic Agents, Alkylating administration & dosage, Brain Neoplasms complications, Brain Neoplasms mortality, Brain Neoplasms pathology, Chemoradiotherapy methods, Cognition drug effects, Cognition radiation effects, Cognition Disorders etiology, Dacarbazine administration & dosage, Dacarbazine adverse effects, Disease Progression, Female, Follow-Up Studies, Glioma complications, Glioma mortality, Glioma pathology, Humans, Longitudinal Studies, Male, Middle Aged, Neuropsychological Tests, Progression-Free Survival, Prospective Studies, Temozolomide administration & dosage, Temozolomide adverse effects, Antineoplastic Agents, Alkylating adverse effects, Brain Neoplasms therapy, Chemoradiotherapy adverse effects, Cognition Disorders diagnosis, Glioma therapy
Abstract

Introduction : Cognitive function is an important outcome measure in patients with brain tumor, providing information about the patient's clinical situation, treatment effects and possible progressive disease. The aim of this longitudinal study was to evaluate effects of the currently used radiation and chemotherapy treatment on cognitive function and to investigate associations between cognitive function at baseline and progression as well as overall survival. Methods : 32 patients newly diagnosed with malignant glioma were evaluated at baseline with CNS Vital Signs (CNS-VS), a computerized standardized neuropsychological test battery, prior to arc-based radiotherapy and concomitant chemotherapy with Temozolomide. CNS-VS measures the cognitive functions known to be affected in patients with brain tumor, covering nine cognitive domains. Follow-up cognitive evaluations were performed in 26 patients after 3.5 months and in 13 patients 1 year after treatment start. Results : Overall cognitive scores were lower in the studied patient cohort at baseline compared to standardized domain scores. At 3.5 months follow-up cognitive functioning was slightly decreased, but only in 1/9 cognitive domains - visual memory - where significant changes were found compared to baseline test results. Similarly, at 12 months follow-up no significant changes in cognitive test results were seen compared to baseline examination, except for a decrease in the visual memory domain. In relation to early progression, the most significant cognitive deficits were dysfunctional visual memory and low executive functioning at baseline. Low executive function at baseline correlated most significantly with shorter overall survival. Conclusion : The present study suggests that the currently used arc-based radiotherapy and chemotherapy might affect cognitive function less negatively than previously described during treatment and in the first year after treatment in malignant glioma patients. In general, a high cognitive test score at baseline was associated with longer time to progression and with longer survival.

Published
2020
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34. Inhibition of epileptiform activity by neuropeptide Y in brain tissue from drug-resistant temporal lobe epilepsy patients.

Author

Wickham J, Ledri M, Bengzon J, Jespersen B, Pinborg LH, Englund E, Woldbye DPD, Andersson M, and Kokaia M

Subjects
Action Potentials drug effects, Adult, Dentate Gyrus diagnostic imaging, Dentate Gyrus drug effects, Dentate Gyrus physiopathology, Drug Resistant Epilepsy physiopathology, Drug Resistant Epilepsy surgery, Epilepsy, Temporal Lobe physiopathology, Epilepsy, Temporal Lobe surgery, Female, Hippocampus diagnostic imaging, Hippocampus drug effects, Hippocampus physiopathology, Humans, Landau-Kleffner Syndrome drug therapy, Landau-Kleffner Syndrome physiopathology, Landau-Kleffner Syndrome surgery, Male, Middle Aged, Patch-Clamp Techniques, Receptors, Neuropeptide Y antagonists & inhibitors, Synaptic Transmission drug effects, Drug Resistant Epilepsy drug therapy, Epilepsy, Temporal Lobe drug therapy, Neuropeptide Y administration & dosage, Receptors, Neuropeptide Y genetics
Abstract

In epilepsy patients, drug-resistant seizures often originate in one of the temporal lobes. In selected cases, when certain requirements are met, this area is surgically resected for therapeutic reasons. We kept the resected tissue slices alive in vitro for 48 h to create a platform for testing a novel treatment strategy based on neuropeptide Y (NPY) against drug-resistant epilepsy. We demonstrate that NPY exerts a significant inhibitory effect on epileptiform activity, recorded with whole-cell patch-clamp, in human hippocampal dentate gyrus. Application of NPY reduced overall number of paroxysmal depolarising shifts and action potentials. This effect was mediated by Y2 receptors, since application of selective Y2-receptor antagonist blocked the effect of NPY. This proof-of-concept finding is an important translational milestone for validating NPY-based gene therapy for targeting focal drug-resistant epilepsies, and increasing the prospects for positive outcome in potential clinical trials.

Published
2019
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35. Evaluation of reproducibility in MRI quantitative volumetric assessment and its role in the prediction of overall survival and progression-free survival in glioblastoma.

Author

Blomstergren A, Rydelius A, Abul-Kasim K, Lätt J, Sundgren PC, and Bengzon J

Subjects
Adult, Aged, Brain diagnostic imaging, Brain pathology, Disease-Free Survival, Evaluation Studies as Topic, Female, Humans, Male, Middle Aged, Neoplasm, Residual, Progression-Free Survival, Reproducibility of Results, Retrospective Studies, Survival Analysis, Tumor Burden, Brain Neoplasms diagnostic imaging, Brain Neoplasms pathology, Glioblastoma diagnostic imaging, Glioblastoma pathology, Magnetic Resonance Imaging methods
Abstract

Background: Residual tumor volume (RTV) and extent of resection (EOR) have previously been shown to affect survival in glioblastoma (GB) patients. Quantitative radiological assessment (QRA) of these factors could potentially affect clinical decision-making in the postoperative period., Purpose: The first aim was to evaluate the reproducibility of different volume estimation methods of RTV and EOR by comparing QRA with subjective visual estimation and with objective volume estimations. The second aim was to clarify whether QRA of RTV and EOR would provide accuracy in predicting progression-free survival (PFS) and overall survival (OS) in GB patients., Material and Methods: Seventy GB patients were studied retrospectively. Reproducibility of QRA was compared to conventional visual analysis. Intra-rater agreement between two repeated measurements of 25 patients was calculated. QRA for RTV and EOR was made for the entire study population. Survival analysis was performed by multivariate cox-regression analysis., Results: QRA of RTV and EOR gave superior intra-rater agreement compared to subjective evaluation. Multivariate survival analysis showed prognostic significance on 18 months PFS (hazard ratio [HR] = 0.44, P = 0.003) and OS (HR = 0.42, P = 0.012) at RTV < 1.6 mL and with EOR > 96% on PFS (HR = 2.152, P = 0.005) but not on OS (HR = 1.92, P = 0.053)., Conclusion: QRA of tumor volumes is more robust compared to standard evaluation methods. Since EOR and RTV are correlated to the prognosis in GB, quantitative analysis of tumor volumes could aid decision-making and patient management postoperatively.

Published
2019
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36. LINE-2 transposable elements are a source of functional human microRNAs and target sites.

Author

Petri R, Brattås PL, Sharma Y, Jönsson ME, Pircs K, Bengzon J, and Jakobsson J

Subjects
3' Untranslated Regions, Animals, Argonaute Proteins genetics, Argonaute Proteins metabolism, Base Sequence, Brain metabolism, Brain Neoplasms genetics, Brain Neoplasms metabolism, Gene Expression Regulation, Gene Regulatory Networks, Genome, Human, Glioblastoma genetics, Glioblastoma metabolism, Humans, Mice, MicroRNAs metabolism, DNA Transposable Elements, Long Interspersed Nucleotide Elements, MicroRNAs genetics
Abstract

Transposable elements (TEs) are dynamically expressed at high levels in multiple human tissues, but the function of TE-derived transcripts remains largely unknown. In this study, we identify numerous TE-derived microRNAs (miRNAs) by conducting Argonaute2 RNA immunoprecipitation followed by small RNA sequencing (AGO2 RIP-seq) on human brain tissue. Many of these miRNAs originated from LINE-2 (L2) elements, which entered the human genome around 100-300 million years ago. L2-miRNAs derived from the 3' end of the L2 consensus sequence and thus shared very similar sequences, indicating that L2-miRNAs could target transcripts with L2s in their 3'UTR. In line with this, many protein-coding genes carried fragments of L2-derived sequences in their 3'UTR: these sequences served as target sites for L2-miRNAs. L2-miRNAs and their targets were generally ubiquitously expressed at low levels in multiple human tissues, suggesting a role for this network in buffering transcriptional levels of housekeeping genes. In addition, we also found evidence that this network is perturbed in glioblastoma. In summary, our findings uncover a TE-based post-transcriptional network that shapes transcriptional regulation in human cells., Competing Interests: The authors have declared that no competing interests exist.

Published
2019
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37. Author Correction: Rapid and efficient induction of functional astrocytes from human pluripotent stem cells.

Author

Canals I, Ginisty A, Quist E, Timmerman R, Fritze J, Miskinyte G, Monni E, Hansen MG, Hidalgo I, Bryder D, Bengzon J, and Ahlenius H

Abstract

In the version of Supplementary Fig. 1 originally published with this paper, some images in panel e were accidental duplicates of images in panel b. This error has been corrected in the online integrated supplementary information and in the Supplementary Information PDF.

Published
2019
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38. Multivoxel 1 H-MR Spectroscopy Biometrics for Preoprerative Differentiation Between Brain Tumors.

Author

Durmo F, Rydelius A, Cuellar Baena S, Askaner K, Lätt J, Bengzon J, Englund E, Chenevert TL, Björkman-Burtscher IM, and Sundgren PC

Abstract

We investigated multivoxel proton magnetic resonance spectroscopy ( 1 H-MRS) biometrics for preoperative differentiation and prognosis of patients with brain metastases (MET), low-grade glioma (LGG) and high-grade glioma (HGG). In total, 33 patients (HGG, 14; LGG, 9; and 10 MET) were included. 1 H-MRS imaging (MRSI) data were assessed and neurochemical profiles for metabolites N-acetyl aspartate (NAA) + NAAG(NAA), Cr + PCr(total creatine, tCr), Glu + Gln(Glx), lactate (Lac), myo-inositol(Ins), GPC + PCho(total choline, tCho), and total lipids, and macromolecule (tMM) signals were estimated. Metabolites were reported as absolute concentrations or ratios to tCho or tCr levels. Voxels of interest in an MRSI matrix were labeled according to tissue. Logistic regression, receiver operating characteristic, and Kaplan-Meier survival analysis was performed. Across HGG, LGG, and MET, average Ins/tCho was shown to be prognostic for overall survival (OS): low values (≤1.29) in affected hemisphere predicting worse OS than high values (>1.29), (log rank < 0.007). Lip/tCho and Ins/tCho combined showed 100% sensitivity and specificity for both HGG/LGG ( P < .001) and LGG/MET ( P < .001) measured in nonenhancing/contrast-enhancing lesional tissue. Combining tCr/tCho in perilesional edema with tCho/tCr and NAA/tCho from ipsilateral normal- appearing tissue yielded 100% sensitivity and 81.8% specificity ( P < .002) for HGG/MET. Best single biomarker: Ins/tCho for HGG/LGG and total lipid/tCho for LGG/MET showed 100% sensitivity and 75% and 100% specificity, respectively. HGG/MET; NAA/tCho showed 75% sensitivity and 84.6% specificity. Multivoxel 1H-MRSI provides prognostic information for OS for HGG/LGG/MET and a multibiometric approach for differentiation may equal or outperform single biometrics., Competing Interests: Conflict of Interest: The authors have no conflict of interest to declare

Published
2018
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39. Low-dose irradiated mesenchymal stromal cells break tumor defensive properties in vivo.

Author

Stefani FR, Eberstål S, Vergani S, Kristiansen TA, and Bengzon J

Subjects
Animals, Apoptosis, Cell Proliferation, Female, Glioblastoma blood supply, Mesenchymal Stem Cells cytology, Mesenchymal Stem Cells radiation effects, Mice, Mice, Inbred C57BL, Tumor Cells, Cultured, Glioblastoma immunology, Glioblastoma therapy, Mesenchymal Stem Cell Transplantation, Mesenchymal Stem Cells immunology
Abstract

Solid tumors, including gliomas, still represent a challenge to clinicians and first line treatments often fail, calling for new paradigms in cancer therapy. Novel strategies to overcome tumor resistance are mainly represented by multi-targeted approaches, and cell vector-based therapy is one of the most promising treatment modalities under development. Here, we show that mouse bone marrow-derived mesenchymal stromal cells (MSCs), when primed with low-dose irradiation (irMSCs), undergo changes in their immunogenic and angiogenic capacity and acquire anti-tumoral properties in a mouse model of glioblastoma (GBM). Following grafting in GL261 glioblastoma, irMSCs migrate extensively and selectively within the tumor and infiltrate predominantly the peri-vascular niche, leading to rejection of established tumors and cure in 29% of animals. The therapeutic radiation dose window is narrow, with effects seen between 2 and 15 Gy, peaking at 5 Gy. A single low-dose radiation decreases MSCs inherent immune suppressive properties in vitro as well as shapes their immune regulatory ability in vivo. Intra-tumorally grafted irMSCs stimulate the immune system and decrease immune suppression. Additionally, irMSCs enhance peri-tumoral reactive astrocytosis and display anti-angiogenic properties. Hence, the present study provides strong evidence for a therapeutic potential of low-dose irMSCs in cancer as well as giving new insight into MSC biology and applications., (© 2018 The Authors. International Journal of Cancer published by John Wiley & Sons Ltd on behalf of Union for International Cancer Control.)

Published
2018
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40. Transcription factor programming of human ES cells generates functional neurons expressing both upper and deep layer cortical markers.

Author

Miskinyte G, Grønning Hansen M, Monni E, Lam M, Bengzon J, Lindvall O, Ahlenius H, and Kokaia Z

Subjects
Animals, Basic Helix-Loop-Helix Transcription Factors genetics, Basic Helix-Loop-Helix Transcription Factors metabolism, Biomarkers metabolism, Cell Differentiation, Cell Line, Cerebral Cortex cytology, Cerebral Cortex metabolism, Genetic Vectors, Human Embryonic Stem Cells transplantation, Humans, In Vitro Techniques, Matrix Attachment Region Binding Proteins genetics, Matrix Attachment Region Binding Proteins metabolism, Mice, Nerve Tissue Proteins genetics, Nerve Tissue Proteins metabolism, Neurogenesis, Organ Culture Techniques, Pyramidal Cells cytology, Pyramidal Cells metabolism, Recombinant Proteins genetics, Recombinant Proteins metabolism, Transcription Factors genetics, Human Embryonic Stem Cells cytology, Human Embryonic Stem Cells metabolism, Neurons cytology, Neurons metabolism, Transcription Factors metabolism
Abstract

Human neurodegenerative disorders affect specific types of cortical neurons. Efficient protocols for the generation of such neurons for cell replacement, disease modeling and drug screening are highly warranted. Current methods for the production of cortical neurons from human embryonic stem (ES) cells are often time-consuming and inefficient, and the functional properties of the generated cells have been incompletely characterized. Here we have used transcription factor (TF) programming with the aim to induce rapid differentiation of human ES cells to layer-specific cortical neurons (hES-iNs). Three different combinations of TFs, NEUROGENIN 2 (NGN2) only, NGN2 plus Forebrain Embryonic Zinc Finger-Like Protein 2 (FEZF2), and NGN2 plus Special AT-Rich Sequence-Binding Protein 2 (SATB2), were delivered to human ES cells by lentiviral vectors. We observed only subtle differences between the TF combinations, which all gave rise to the formation of pyramidal-shaped cells, morphologically resembling adult human cortical neurons expressing cortical projection neuron (PN) markers and with mature electrophysiological properties. Using ex vivo transplantation to human organotypic cultures, we found that the hES-iNs could integrate into adult human cortical networks. We obtained no evidence that the hES-iNs had acquired a distinct cortical layer phenotype. Instead, our single-cell data showed that the hES-iNs, similar to fetal human cortical neurons, expressed both upper and deep layer cortical neuronal markers. Taken together, our findings provide evidence that TF programming can direct human ES cells towards cortical neurons but that the generated cells are transcriptionally profiled to generate both upper and deep layer cortical neurons. Therefore, most likely additional cues will be needed if these cells should adopt a specific cortical layer and area identity., Competing Interests: The authors have declared that no competing interests exist.

Published
2018
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41. Rapid and efficient induction of functional astrocytes from human pluripotent stem cells.

Author

Canals I, Ginisty A, Quist E, Timmerman R, Fritze J, Miskinyte G, Monni E, Hansen MG, Hidalgo I, Bryder D, Bengzon J, and Ahlenius H

Subjects
Humans, NFI Transcription Factors metabolism, Astrocytes cytology, Cell Differentiation, Pluripotent Stem Cells cytology, Pluripotent Stem Cells metabolism, SOX9 Transcription Factor metabolism
Abstract

The derivation of astrocytes from human pluripotent stem cells is currently slow and inefficient. We demonstrate that overexpression of the transcription factors SOX9 and NFIB in human pluripotent stem cells rapidly and efficiently yields homogeneous populations of induced astrocytes. In our study these cells exhibited molecular and functional properties resembling those of adult human astrocytes and were deemed suitable for disease modeling. Our method provides new possibilities for the study of human astrocytes in health and disease.

Published
2018
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42. Prolonged life of human acute hippocampal slices from temporal lobe epilepsy surgery.

Author

Wickham J, Brödjegård NG, Vighagen R, Pinborg LH, Bengzon J, Woldbye DPD, Kokaia M, and Andersson M

Subjects
Adolescent, Adult, Child, Epilepsy, Temporal Lobe metabolism, Epilepsy, Temporal Lobe pathology, Female, Hippocampus metabolism, Hippocampus pathology, Humans, Male, Middle Aged, Patch-Clamp Techniques, Epilepsy, Temporal Lobe physiopathology, Hippocampus physiopathology, Neurons
Abstract

Resected hippocampal tissue from patients with drug-resistant epilepsy presents a unique possibility to test novel treatment strategies directly in target tissue. The post-resection time for testing and analysis however is normally limited. Acute tissue slices allow for electrophysiological recordings typically up to 12 hours. To enable longer time to test novel treatment strategies such as, e.g., gene-therapy, we developed a method for keeping acute human brain slices viable over a longer period. Our protocol keeps neurons viable well up to 48 hours. Using a dual-flow chamber, which allows for microscopic visualisation of individual neurons with a submerged objective for whole-cell patch-clamp recordings, we report stable electrophysiological properties, such as action potential amplitude and threshold during this time. We also demonstrate that epileptiform activity, monitored by individual dentate granule whole-cell recordings, can be consistently induced in these slices, underlying the usefulness of this methodology for testing and/or validating novel treatment strategies for epilepsy.

Published
2018
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43. Brain Tumor Characterization Using Multibiometric Evaluation of MRI.

Author

Durmo F, Lätt J, Rydelius A, Engelholm S, Kinhult S, Askaner K, Englund E, Bengzon J, Nilsson M, Björkman-Burtscher IM, Chenevert T, Knutsson L, and Sundgren PC

Abstract

The aim was to evaluate volume, diffusion, and perfusion metrics for better presurgical differentiation between high-grade gliomas (HGG), low-grade gliomas (LGG), and metastases (MET). For this retrospective study, 43 patients with histologically verified intracranial HGG (n = 18), LGG (n = 10), and MET (n = 15) were chosen. Preoperative magnetic resonance data included pre- and post-gadolinium contrast-enhanced T1-weighted fluid-attenuated inversion recover, cerebral blood flow (CBF), cerebral blood volume (CBV), fractional anisotropy, and apparent diffusion coefficient maps used for quantification of magnetic resonance biometrics by manual delineation of regions of interest. A binary logistic regression model was applied for multiparametric analysis and receiver operating characteristic (ROC) analysis. Statistically significant differences were found for normalized-ADC-tumor (nADC-T), normalized-CBF-tumor (nCBF-T), normalized-CBV-tumor (nCBV-T), and normalized-CBF-edema (nCBF-E) between LGG and HGG, and when these metrics were combined, HGG could be distinguished from LGG with a sensitivity and specificity of 100%. The only metric to distinguish HGG from MET was the normalized-ADC-E with a sensitivity of 68.8% and a specificity of 80%. LGG can be distinguished from MET by combining edema volume (Vol-E), Vol-E/tumor volume (Vol-T), nADC-T, nCBF-T, nCBV-T, and nADC-E with a sensitivity of 93.3% and a specificity of 100%. The present study confirms the usability of a multibiometric approach including volume, perfusion, and diffusion metrics in differentially diagnosing brain tumors in preoperative patients and adds to the growing body of evidence in the clinical field in need of validation and standardization.

Published
2018
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45. Verbal memory decline from hippocampal depth electrodes in temporal lobe surgery for epilepsy.

Author

Ljung H, Nordlund A, Strandberg M, Bengzon J, and Källén K

Subjects
Adolescent, Adult, Child, Drug Resistant Epilepsy complications, Drug Resistant Epilepsy surgery, Electroencephalography, Epilepsy, Temporal Lobe complications, Female, Follow-Up Studies, Functional Laterality, Humans, Language, Magnetic Resonance Imaging, Male, Memory Disorders psychology, Middle Aged, Neuropsychological Tests, Retrospective Studies, Temporal Lobe surgery, Verbal Learning, Young Adult, Electrodes, Implanted adverse effects, Epilepsy, Temporal Lobe psychology, Epilepsy, Temporal Lobe surgery, Hippocampus, Memory Disorders etiology
Abstract

Objective: To explore whether patients with refractory mesial temporal lobe epilepsy risk aggravated verbal memory loss from intracranial electroencephalography (EEG) recording with longitudinal hippocampal electrodes in the language-dominant hemisphere., Methods: A long-term neuropsychological follow-up (mean 61.5 months, range 22-111 months) was performed in 40 patients after ictal registration with left hippocampal depth electrodes (study group, n = 16) or no invasive EEG, only extracranial registration (reference group, n = 24). The groups were equal with respect to education, age at seizure onset, epilepsy duration, and prevalence of pharmacoresistant temporal lobe epilepsy (TLE; 75%) versus seizure freedom (25%). Retrospective neuropsychological data from preoperative surgical workup (T1) and prospective follow-up neuropsychological data (T2) were compared. A ≥1 SD intrapatient decline was considered as clinically relevant deterioration of verbal memory., Results: Significant decline in verbal memory was seen in 56% of the patients in the study group compared to 21% in the reference group. At T1, there were no statistical between-group differences in memory performance. At T2, between-group comparison showed significantly greater verbal memory decline for the study group (Claeson Dahl Learning and Retention Test, Verbal Learning: p = 0.05; Rey Auditory Verbal Learning Test, Total Learning: p = 0.04; Claeson Dahl Learning and Retention Test, Verbal Retention: p = 0.04). An odds ratio (OR) of 7.1 (90% confidence interval [CI] 1.3-37.7) for verbal memory decline was seen if right temporal lobe resection (R TLR) had been performed between T1 and T2. The difference between groups remained unchanged when patients who had undergone R TLR were excluded from the analysis, with a remaining aggravated significant decline in verbal memory performance for the study group compared to the reference group., Significance: Our results suggest a risk of verbal memory deterioration after the use of depth electrodes along the longitudinal axis of the hippocampus. Until this issue is further investigated, caution regarding depth electrodes in the language-dominant hemisphere hippocampus seems advisable., (Wiley Periodicals, Inc. © 2017 International League Against Epilepsy.)

Published
2017
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46. Direct conversion of human fibroblasts to functional excitatory cortical neurons integrating into human neural networks.

Author

Miskinyte G, Devaraju K, Grønning Hansen M, Monni E, Tornero D, Woods NB, Bengzon J, Ahlenius H, Lindvall O, and Kokaia Z

Subjects
Adult, Cells, Cultured, Embryonic Stem Cells metabolism, Excitatory Postsynaptic Potentials, Fibroblasts metabolism, Homeodomain Proteins genetics, Homeodomain Proteins metabolism, Humans, MicroRNAs genetics, MicroRNAs metabolism, Nerve Tissue Proteins genetics, Nerve Tissue Proteins metabolism, Neurons metabolism, Neurons physiology, POU Domain Factors genetics, POU Domain Factors metabolism, Synapses physiology, Transcription Factors genetics, Transcription Factors metabolism, Cerebral Cortex cytology, Embryonic Stem Cells cytology, Fibroblasts cytology, Neurogenesis, Neurons cytology
Abstract

Background: Human fibroblasts can be directly converted to several subtypes of neurons, but cortical projection neurons have not been generated., Methods: Here we screened for transcription factor combinations that could potentially convert human fibroblasts to functional excitatory cortical neurons. The induced cortical (iCtx) cells were analyzed for cortical neuronal identity using immunocytochemistry, single-cell quantitative polymerase chain reaction (qPCR), electrophysiology, and their ability to integrate into human neural networks in vitro and ex vivo using electrophysiology and rabies virus tracing., Results: We show that a combination of three transcription factors, BRN2, MYT1L, and FEZF2, have the ability to directly convert human fibroblasts to functional excitatory cortical neurons. The conversion efficiency was increased to about 16% by treatment with small molecules and microRNAs. The iCtx cells exhibited electrophysiological properties of functional neurons, had pyramidal-like cell morphology, and expressed key cortical projection neuronal markers. Single-cell analysis of iCtx cells revealed a complex gene expression profile, a subpopulation of them displaying a molecular signature closely resembling that of human fetal primary cortical neurons. The iCtx cells received synaptic inputs from co-cultured human fetal primary cortical neurons, contained spines, and expressed the postsynaptic excitatory scaffold protein PSD95. When transplanted ex vivo to organotypic cultures of adult human cerebral cortex, the iCtx cells exhibited morphological and electrophysiological properties of mature neurons, integrated structurally into the cortical tissue, and received synaptic inputs from adult human neurons., Conclusions: Our findings indicate that functional excitatory cortical neurons, generated here for the first time by direct conversion of human somatic cells, have the capacity for synaptic integration into adult human cortex.

Published
2017
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47. A pilot study on the applicability of thromboelastometry in detecting brain tumour-induced hypercoagulation.

Author

Jansohn E, Bengzon J, Kander T, and Schött U

Subjects
Adult, Aged, Brain Neoplasms drug therapy, Brain Neoplasms radiotherapy, Brain Neoplasms surgery, Female, Humans, Male, Middle Aged, Pilot Projects, Reproducibility of Results, Thrombelastography methods, Blood Coagulation Disorders etiology, Brain Neoplasms complications, Thrombelastography statistics & numerical data
Abstract

Patients with intracranial tumours have an increased risk of venous thromboembolism, particularly during the first month after neurosurgery. A proposed explanation for this increased risk, are procoagulant tumour-derived substances, such as tissue factor, usually measured in peripheral blood. The aim of the present study is to investigate whether a rotational thromboelastometry (ROTEM) can measure the procoagulative activity of tumour tissue. The study included 21 patients who were undergoing a craniotomy and complete tumour resection after written consent and ethical approval were obtained. Tumour tissue was biopsied during surgery and used for in vitro spiking of patients own citrated whole blood. Blood samples with or without spiking were analyzed with ROTEM using different activating reagents. ROTEM clotting time significantly decreased (p < .001), indicating a hypercoagulative response on clot initiation that was strongest for glioma tumours. However, ROTEM clot formation time was significantly prolonged (p < .001), which was an opposite response that indicated poor initial clot propagation. ROTEM maximum lysis was increased in the tumour tissue-spiked samples (p < .001), indicating a strong fibrinolytic activity in brain tumour tissue. Tissue extracts from intracranial tumours have both procoagulant and fibrinolytic effects that are detectable with ROTEM. Glioma tumours had the strongest hypercoagulative response in our in vitro model. Larger studies are necessary to test the clinical relevance and accuracy of tumour extract spiked viscoelastic tests to predict the individual patient risk for developing a thrombotic complication.

Published
2017
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48. Identification of two distinct mesenchymal stromal cell populations in human malignant glioma.

Author

Svensson A, Ramos-Moreno T, Eberstål S, Scheding S, and Bengzon J

Subjects
Adult, Aged, Brain Neoplasms genetics, Dinoprostone, Female, Gene Expression Profiling, Glioma genetics, Humans, Low Density Lipoprotein Receptor-Related Protein-1 metabolism, Male, Mesenchymal Stem Cells metabolism, Mesenchymal Stem Cells physiology, Middle Aged, RNA, Messenger metabolism, Vascular Endothelial Growth Factor A, Brain Neoplasms pathology, Glioma pathology, Mesenchymal Stem Cells pathology
Abstract

Gene profiling has revealed that malignant gliomas can be divided into four distinct molecular subtypes, where tumors with a mesenchymal gene expression are correlated with short survival. The present investigation was undertaken to clarify whether human malignant gliomas contain endogenous mesenchymal stromal cells (MSC), fulfilling consensus criteria defined by The International Society for Cellular Therapy, recruited from the host. We found that MSC-like cells can be isolated from primary human malignant gliomas. Two distinct MSC-like cell populations, differing in their expression of the CD90 surface marker, were discovered after cell sorting. RNA sequencing revealed further genetic differences between these two cell populations and MSC-like cells lacking CD90 produced higher amounts of VEGF and PGE 2 compared to cells with the true MSC phenotype, implying that the CD90 - MSC-like cells most probably are more active in tumor vascularization and immunosuppression than their CD90 + counterpart. The results highlight the CD90 - subpopulation as an important tumor component, however, its functional effects in glioma remains to be resolved. Using the protocols presented here, it will be possible to isolate, characterize and analyze brain tumor-derived MSC-like cells in more detail and to further test their functions in vitro and in in vivo xenograft models of glioma., Competing Interests: The authors declare that they have no conflict of interest. Ethical approval All procedures performed in studies involving human participants were in accordance with the ethical standards of the institutional and/or national research committee and with the 1964 Helsinki declaration and its later amendments or comparable ethical standards.

Published
2017
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49. Metastasis Stimulation by Hypoxia and Acidosis-Induced Extracellular Lipid Uptake Is Mediated by Proteoglycan-Dependent Endocytosis.

Author

Menard JA, Christianson HC, Kucharzewska P, Bourseau-Guilmain E, Svensson KJ, Lindqvist E, Indira Chandran V, Kjellén L, Welinder C, Bengzon J, Johansson MC, and Belting M

Subjects
Acidosis metabolism, Adaptation, Physiological physiology, Blotting, Western, Cell Hypoxia physiology, Cell Line, Tumor, Chromatography, Liquid, Heparin metabolism, Humans, Laser Capture Microdissection, Mass Spectrometry, Microscopy, Electron, Microscopy, Fluorescence, Oligonucleotide Array Sequence Analysis, Polymerase Chain Reaction, Signal Transduction physiology, Endocytosis physiology, Heparin analogs & derivatives, Lipoproteins metabolism, Neoplasm Invasiveness pathology, Proteoglycans metabolism, Tumor Microenvironment physiology
Abstract

Hypoxia and acidosis are inherent stress factors of the tumor microenvironment and have been linked to increased tumor aggressiveness and treatment resistance. Molecules involved in the adaptive mechanisms that drive stress-induced disease progression constitute interesting candidates of therapeutic intervention. Here, we provide evidence of a novel role of heparan sulfate proteoglycans (HSPG) in the adaptive response of tumor cells to hypoxia and acidosis through increased internalization of lipoproteins, resulting in a lipid-storing phenotype and enhanced tumor-forming capacity. Patient glioblastoma tumors and cells under hypoxic and acidic stress acquired a lipid droplet (LD)-loaded phenotype, and showed an increased recruitment of all major lipoproteins, HDL, LDL, and VLDL. Stress-induced LD accumulation was associated with increased spheroid-forming capacity during reoxygenation in vitro and lung metastatic potential in vivo On a mechanistic level, we found no apparent effect of hypoxia on HSPGs, whereas lipoprotein receptors (VLDLR and SR-B1) were transiently upregulated by hypoxia. Importantly, however, using pharmacologic and genetic approaches, we show that stress-mediated lipoprotein uptake is highly dependent on intact HSPG expression. The functional relevance of HSPG in the context of tumor cell stress was evidenced by HSPG-dependent lipoprotein cell signaling activation through the ERK/MAPK pathway and by reversal of the LD-loaded phenotype by targeting of HSPGs. We conclude that HSPGs may have an important role in the adaptive response to major stress factors of the tumor microenvironment, with functional consequences on tumor cell signaling and metastatic potential. Cancer Res; 76(16); 4828-40. ©2016 AACR., (©2016 American Association for Cancer Research.)

Published
2016
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50. Optogenetic control of human neurons in organotypic brain cultures.

Author

Andersson M, Avaliani N, Svensson A, Wickham J, Pinborg LH, Jespersen B, Christiansen SH, Bengzon J, Woldbye DP, and Kokaia M

Subjects
Channelrhodopsins, Evoked Potentials radiation effects, GABA Antagonists pharmacology, Gene Expression, Glutamic Acid metabolism, Humans, Light, Receptors, GABA metabolism, Tissue Culture Techniques, Brain cytology, Brain physiology, Neurons physiology, Optogenetics
Abstract

Optogenetics is one of the most powerful tools in neuroscience, allowing for selective control of specific neuronal populations in the brain of experimental animals, including mammals. We report, for the first time, the application of optogenetic tools to human brain tissue providing a proof-of-concept for the use of optogenetics in neuromodulation of human cortical and hippocampal neurons as a possible tool to explore network mechanisms and develop future therapeutic strategies.

Published
2016
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