Your search keyword '"Yoseph Addadi"' showing total 57 results

1. Exocytosis of the silicified cell wall of diatoms involves extensive membrane disintegration

Author

Diede de Haan, Lior Aram, Hadas Peled-Zehavi, Yoseph Addadi, Oz Ben-Joseph, Ron Rotkopf, Nadav Elad, Katya Rechav, and Assaf Gal

Subjects

Science

Abstract

Exocytosis is a fundamental cellular process. Here, the authors report an unusual exocytosis mechanism in the silicified cell wall of diatoms, in which membrane patches are discarded.

Published

2023

2. ICAMs are dispensable for influenza clearance and anti-viral humoral and cellular immunity

Author

Stav Kozlovski, Ofer Regev, Anita Sapoznikov, Marina Kizner, Hagit Achdout, Ekaterina Petrovich-Kopitman, Jacob Elkahal, Yoseph Addadi, Fernanda Vargas E. Silva Castanheira, Sara W. Feigelson, Paul Kubes, Noam Erez, Natalio Garbi, and Ronen Alon

Subjects

leukocyte trafficking, integrins, endothelium, inflammation, memory, Immunologic diseases. Allergy, RC581-607

Abstract

αLβ2 (LFA-1) mediated interactions with ICAM-1 and ICAM-2 predominate leukocyte-vascular interactions, but their functions in extravascular cell-cell communications is still debated. The roles of these two ligands in leukocyte trafficking, lymphocyte differentiation, and immunity to influenza infections were dissected in the present study. Surprisingly, double ICAM-1 and ICAM-2 knock out mice (herein ICAM-1/2-/- mice) infected with a lab adapted H1N1 influenza A virus fully recovered from infection, elicited potent humoral immunity, and generated normal long lasting anti-viral CD8+ T cell memory. Furthermore, lung capillary ICAMs were dispensable for both NK and neutrophil entry to virus infected lungs. Mediastinal lymph nodes (MedLNs) of ICAM-1/2-/- mice poorly recruited naïve T cells and B lymphocytes but elicited normal humoral immunity critical for viral clearance and effective CD8+ differentiation into IFN-γ producing T cells. Furthermore, whereas reduced numbers of virus specific effector CD8+ T cells accumulated inside infected ICAM-1/2-/- lungs, normal virus-specific TRM CD8+ cells were generated inside these lungs and fully protected ICAM-1/2-/- mice from secondary heterosubtypic infections. B lymphocyte entry to the MedLNs and differentiation into extrafollicular plasmablasts, producing high affinity anti-influenza IgG2a antibodies, were also ICAM-1 and ICAM-2 independent. A potent antiviral humoral response was associated with accumulation of hyper-stimulated cDC2s in ICAM null MedLNs and higher numbers of virus-specific T follicular helper (Tfh) cells generated following lung infection. Mice selectively depleted of cDC ICAM-1 expression supported, however, normal CTL and Tfh differentiation following influenza infection, ruling out essential co-stimulatory functions of DC ICAM-1 in CD8+ and CD4+ T cell differentiation. Collectively our findings suggest that lung ICAMs are dispensable for innate leukocyte trafficking to influenza infected lungs, for the generation of peri-epithelial TRM CD8+ cells, and long term anti-viral cellular immunity. In lung draining LNs, although ICAMs promote lymphocyte homing, these key integrin ligands are not required for influenza-specific humoral immunity or generation of IFN-γ effector CD8+ T cells. In conclusion, our findings suggest unexpected compensatory mechanisms that orchestrate protective anti-influenza immunity in the absence of vascular and extravascular ICAMs.

Published

2023

3. Actin-dependent astrocytic infiltration is a key step for axon defasciculation during remodeling

Author

Neta Marmor-Kollet, Victoria Berkun, Gideon Cummings, Hadas Keren-Shaul, Eyal David, Yoseph Addadi, and Oren Schuldiner

Subjects

CP: Neuroscience, CP: Cell biology, Biology (General), QH301-705.5

Abstract

Summary: Astrocytes are essential for synapse formation, maturation, and plasticity; however, their function during developmental neuronal remodeling is largely unknown. To identify astrocytic molecules required for axon pruning of mushroom body (MB) γ neurons in Drosophila, we profiled astrocytes before (larva) and after (adult) remodeling. Focusing on genes enriched in larval astrocytes, we identified 12 astrocytic genes that are required for axon pruning, including the F-actin regulators Actin-related protein 2/3 complex, subunit 1 (Arpc1) and formin3 (form3). Interestingly, perturbing astrocytic actin dynamics does not affect their gross morphology, migration, or transforming growth factor β (TGF-β) secretion. In contrast, actin dynamics is required for astrocyte infiltration into the axon bundle at the onset of pruning. Remarkably, decreasing axonal adhesion facilitates infiltration by Arpc1 knockdown (KD) astrocytes and promotes axon pruning. Conversely, increased axonal adhesion reduces lobe infiltration by wild-type (WT) astrocytes. Together, our findings suggest that actin-dependent astrocytic infiltration is a key step in axon pruning, thus promoting our understanding of neuron-glia interactions during remodeling.

Published

2023

4. Application of 3D MAPs pipeline identifies the morphological sequence chondrocytes undergo and the regulatory role of GDF5 in this process

Author

Sarah Rubin, Ankit Agrawal, Johannes Stegmaier, Sharon Krief, Neta Felsenthal, Jonathan Svorai, Yoseph Addadi, Paul Villoutreix, Tomer Stern, and Elazar Zelzer

Subjects

Science

Abstract

Inability to image large numbers of growth plate chondrocytes while retaining their spatial context during analysis has hindered the study of bone development. Here, the authors present a pipeline called 3D MAPs and use it to uncover morphogenic behaviors and growth strategies in normal bones as well as aberrations in Gdf5 KO bones.

Published

2021

5. ICAM-1 on Breast Cancer Cells Suppresses Lung Metastasis but Is Dispensable for Tumor Growth and Killing by Cytotoxic T Cells

Author

Ofer Regev, Marina Kizner, Francesco Roncato, Maya Dadiani, Massimo Saini, Francesc Castro-Giner, Olga Yajuk, Stav Kozlovski, Nehora Levi, Yoseph Addadi, Ofra Golani, Shifra Ben-Dor, Zvi Granot, Nicola Aceto, and Ronen Alon

Subjects

adhesion, killing, metastasis, integrins, neutrophils, vasculature, Immunologic diseases. Allergy, RC581-607

Abstract

Breast tumors and their derived circulating cancer cells express the leukocyte β2 integrin ligand Intercellular adhesion molecule 1 (ICAM-1). We found that elevated ICAM-1 expression in breast cancer cells results in a favorable outcome and prolonged survival of breast cancer patients. We therefore assessed the direct in vivo contribution of ICAM-1 expressed by breast cancer cells to breast tumorigenesis and lung metastasis in syngeneic immunocompetent mice hosts using spontaneous and experimental models of the lung metastasis of the C57BL/6-derived E0771 cell line, a luminal B breast cancer subtype. Notably, the presence of ICAM-1 on E0771 did not alter tumor growth or the leukocyte composition in the tumor microenvironment. Interestingly, the elimination of Tregs led to the rapid killing of primary tumor cells independently of tumor ICAM-1 expression. The in vivo elimination of a primary E0771 tumor expressing the ovalbumin (OVA) model neoantigen by the OVA-specific OVA-tcr-I mice (OT-I) transgenic cytotoxic T lymphocytes (CTLs) also took place normally in the absence of ICAM-1 expression by E0771 breast cancer target cells. The whole lung imaging of these cells by light sheet microscopy (LSM) revealed that both Wild type (WT)- and ICAM-1-deficient E0771 cells were equally disseminated from resected tumors and accumulated inside the lung vasculature at similar magnitudes. ICAM-1-deficient breast cancer cells developed, however, much larger metastatic lesions than their control counterparts. Strikingly, the vast majority of these cells gave rise to intravascular tumor colonies both in spontaneous and experimental metastasis models. In the latter model, ICAM-1 expressing E0771- but not their ICAM-1-deficient counterparts were highly susceptible to elimination by neutrophils adoptively transferred from E0771 tumor-bearing donor mice. Ex vivo, neutrophils derived from tumor-bearing mice also killed cultured E0771 cells via ICAM-1-dependent interactions. Collectively, our results are a first indication that ICAM-1 expressed by metastatic breast cancer cells that expand inside the lung vasculature is involved in innate rather than in adaptive cancer cell killing. This is also a first indication that the breast tumor expression of ICAM-1 is not required for CTL-mediated killing but can function as a suppressor of intravascular breast cancer metastasis to lungs.

Published

2022

6. The petrous bone contains high concentrations of osteocytes: One possible reason why ancient DNA is better preserved in this bone.

Author

Jamal Ibrahim, Vlad Brumfeld, Yoseph Addadi, Sarah Rubin, Steve Weiner, and Elisabetta Boaretto

Subjects

Medicine, Science

Abstract

The characterization of ancient DNA in fossil bones is providing invaluable information on the genetics of past human and other animal populations. These studies have been aided enormously by the discovery that ancient DNA is relatively well preserved in the petrous bone compared to most other bones. The reasons for this better preservation are however not well understood. Here we examine the hypothesis that one reason for better DNA preservation in the petrous bone is that fresh petrous bone contains more DNA than other bones. We therefore determined the concentrations of osteocyte cells occluded inside lacunae within the petrous bone and compared these concentrations to other bones from the domestic pig using high resolution microCT. We show that the concentrations of osteocyte lacunae in the inner layer of the pig petrous bone adjacent to the otic chamber are about three times higher (around 95,000 lacunae per mm3) than in the mastoid of the temporal bone (around 28,000 lacunae per mm3), as well as the cortical bone of the femur (around 27,000 lacunae per mm3). The sizes and shapes of the lacuna in the inner layer of the petrous bone are similar to those in the femur. We also show that the pig petrous bone lacunae do contain osteocytes using a histological stain for DNA. We therefore confirm and significantly expand upon previous observations of osteocytic lacuna concentrations in the petrous bone, supporting the notion that one possible reason for better preservation of ancient DNA in the petrous bone is that this bone initially contains at least three times more DNA than other bones. Thus during diagenesis more DNA is likely to be preserved in the petrous bone compared to other bones.

Published

2022

7. Whole Organ Blood and Lymphatic Vessels Imaging (WOBLI)

Author

Roni Oren, Liat Fellus-Alyagor, Yoseph Addadi, Filip Bochner, Hila Gutman, Shani Blumenreich, Hagit Dafni, Nava Dekel, Michal Neeman, and Shlomi Lazar

Subjects

Medicine, Science

Abstract

Abstract Thin section histology is limited in providing 3D structural information, particularly of the intricate morphology of the vasculature. Availability of high spatial resolution imaging for thick samples, would overcome the restriction dictated by low light penetration. Our study aimed at optimizing the procedure for efficient and affordable tissue clearing, along with an appropriate immunofluorescence labeling that will be applicable for high resolution imaging of blood and lymphatic vessels. The new procedure, termed whole organ blood and lymphatic vessels imaging (WOBLI), is based on two previously reported methods, CLARITY and ScaleA2. We used this procedure for the analysis of isolated whole ovary, uterus, lung and liver. These organs were subjected to passive clearing, following fixation, immunolabeling and embedding in hydrogel. Cleared specimens were immersed in ScaleA2 solution until transparency was achieved and imaged using light sheet microscopy. We demonstrate that WOBLI allows detailed analysis and generation of structural information of the lymphatic and blood vasculature from thick slices and more importantly, from whole organs. We conclude that WOBLI offers the advantages of morphology and fluorescence preservation with efficient clearing. Furthermore, WOBLI provides a robust, cost-effective method for generation of transparent specimens, allowing high resolution, 3D-imaging of blood and lymphatic vessels networks.

Published

2018

8. Distinct origins and molecular mechanisms contribute to lymphatic formation during cardiac growth and regeneration

Author

Dana Gancz, Brian C Raftrey, Gal Perlmoter, Rubén Marín-Juez, Jonathan Semo, Ryota L Matsuoka, Ravi Karra, Hila Raviv, Noga Moshe, Yoseph Addadi, Ofra Golani, Kenneth D Poss, Kristy Red-Horse, Didier YR Stainier, and Karina Yaniv

Subjects

lymphatics, cardiac, regeneration, Medicine, Science, Biology (General), QH301-705.5

Abstract

In recent years, there has been increasing interest in the role of lymphatics in organ repair and regeneration, due to their importance in immune surveillance and fluid homeostasis. Experimental approaches aimed at boosting lymphangiogenesis following myocardial infarction in mice, were shown to promote healing of the heart. Yet, the mechanisms governing cardiac lymphatic growth remain unclear. Here, we identify two distinct lymphatic populations in the hearts of zebrafish and mouse, one that forms through sprouting lymphangiogenesis, and the other by coalescence of isolated lymphatic cells. By tracing the development of each subset, we reveal diverse cellular origins and differential response to signaling cues. Finally, we show that lymphatic vessels are required for cardiac regeneration in zebrafish as mutants lacking lymphatics display severely impaired regeneration capabilities. Overall, our results provide novel insight into the mechanisms underlying lymphatic formation during development and regeneration, opening new avenues for interventions targeting specific lymphatic populations.

Published

2019

9. Transcriptional Regulation of Vascular Endothelial Growth Factor C by Oxidative and Thermal Stress Is Mediated by Lens Epithelium-Derived Growth Factor/p75

Author

Batya Cohen, Yoseph Addadi, Stav Sapoznik, Gila Meir, Vyacheslav Kalchenko, Alon Harmelin, Shifra Ben-Dor, and Michal Neeman

Subjects

Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Vascular endothelial growth factor C (VEGF-C) plays a critical role in tumor lymphangiogenesis and lymph node metastasis. We report here that VEGF-C expression is regulated by microenvironmental stress including hyperthermia and oxidative stress. Furthermore, we show that this stress response is mediated by transcriptional activation mediated by lens epithelium-derived growth factor (LEDGF/p75). Ectopic expression of LEDGF/p75 in C6 rat glioma and in H1299 human non-small cell lung carcinoma induced VEGF-C expression in vitro, whereas in subcutaneous mouse tumor xenografts, LEDGF/p75 stimulated VEGF-C expression and augmented angiogenesis and lymphangiogenesis. Conversely, overexpression of a LEDGF/p75 native antisense or LEDGF/p75-targeted short interfering RNA downmodulated VEGF-C expression. LEDGF seemed to conferred this activity on binding to a conserved stress response element (STRE) located in the VEGF-C gene because mutating the STRE was sufficient for the suppression of basal and stress-induced activations of the VEGF-C promoter. Thus, the study reported here identified a role for LEDGF/p75 in stress-regulated transcriptional control of VEGF-C expression. These results provide a possible link for LEDGF/p75 in tumor lymphangiogenesis and cancer metastasis. Hence, our data suggest the LEDGF-VEGF-C axis as a putative biomarker for the detection of stress-induced lymphangiogenesis and LEDGF as a potential target for antimetastatic therapy.

Published

2009

10. The hemodynamic basis for positional- and inter-fetal dependent effects in dual arterial supply of mouse pregnancies.

Author

Tal Raz, Reut Avni, Yoseph Addadi, Yoni Cohen, Ariel J Jaffa, Brian Hemmings, Joel R Garbow, and Michal Neeman

Subjects

Medicine, Science

Abstract

In mammalian pregnancy, maternal cardiovascular adaptations must match the requirements of the growing fetus(es), and respond to physiologic and pathologic conditions. Such adaptations are particularly demanding for mammals bearing large-litter pregnancies, with their inherent conflict between the interests of each individual fetus and the welfare of the entire progeny. The mouse is the most common animal model used to study development and genetics, as well as pregnancy-related diseases. Previous studies suggested that in mice, maternal blood flow to the placentas occurs via a single arterial uterine loop generated by arterial-arterial anastomosis of the uterine artery to the uterine branch of the ovarian artery, resulting in counter bi-directional blood flow. However, we provide here experimental evidence that each placenta is actually supplied by two distinct arterial inputs stemming from the uterine artery and from the uterine branch of the ovarian artery, with position-dependent contribution of flow from each source. Moreover, we report significant positional- and inter-fetal dependent alteration of placental perfusion, which were detected by in vivo MRI and fluorescence imaging. Maternal blood flow to the placentas was dependent on litter size and was attenuated for placentas located centrally along the uterine horn. Distinctive apposing, inter-fetal hemodynamic effects of either reduced or elevated maternal blood flow, were measured for placenta of normal fetuses that are positioned adjacent to either pathological, or to hypovascular Akt1-deficient placentas, respectively. The results reported here underscore the critical importance of confounding local and systemic in utero effects on phenotype presentation, in general and in the setting of genetically modified mice. The unique robustness and plasticity of the uterine vasculature architecture, as reported in this study, can explain the ability to accommodate varying litter sizes, sustain large-litter pregnancies and overcome pathologic challenges. Remarkably, the dual arterial supply is evolutionary conserved in mammals bearing a single offspring, including primates.

Published

2012

11. Supplementary Figure 2 from In vivo Imaging of the Systemic Recruitment of Fibroblasts to the Angiogenic Rim of Ovarian Carcinoma Tumors

Author

Michal Neeman, Leoni A. Kunz-Schughart, Alon Harmelin, Vyacheslav Kalchenko, Yoseph Addadi, and Dorit Granot

Abstract

Supplementary Figure 2 from In vivo Imaging of the Systemic Recruitment of Fibroblasts to the Angiogenic Rim of Ovarian Carcinoma Tumors

Published

2023

12. Data from In vivo Imaging of the Systemic Recruitment of Fibroblasts to the Angiogenic Rim of Ovarian Carcinoma Tumors

Author

Michal Neeman, Leoni A. Kunz-Schughart, Alon Harmelin, Vyacheslav Kalchenko, Yoseph Addadi, and Dorit Granot

Abstract

Tumor-associated stroma, in general, and tumor fibroblasts and myofibroblasts, in particular, play a role in tumor progression. We previously reported that myofibroblast infiltration into implanted ovarian carcinoma spheroids marked the exit of tumors from dormancy and that these cells contributed to vascular stabilization in ovarian tumors by expression of angiopoietin-1 and angiopoietin-2. Ex vivo labeling of fibroblasts with either magnetic resonance or optical probes rendered them detectable for in vivo imaging. Thus, magnetic resonance imaging (MRI) follow-up was feasible by biotin-bovine serum albumin-gadolinium diethylenetriaminepentaacetic acid or iron oxide particles, whereas labeling with near-IR and fluorescent vital stains enabled in vivo visualization by near-IR imaging and two-photon microscopy. Using this approach, we show here that prelabeled fibroblasts given i.p. to CD-1 nude mice can be followed in vivo by MRI and optical imaging over several days, revealing their extensive recruitment into the stroma of remote s.c. MLS human epithelial ovarian carcinoma tumors. Two-photon microscopy revealed the alignment of these invading fibroblasts in the outer rim of the tumor, colocalizing with the angiogenic neovasculature. Such angiogenic vessels remained confined to the stroma tracks within the tumor and did not penetrate the tumor nodules. These results provide dynamic evidence for the role of tumor fibroblasts in maintenance of functional tumor vasculature and offer means for image-guided targeting of these abundant stroma cells to the tumor as a possible mechanism for cellular cancer therapy. [Cancer Res 2007;67(19):9180–9]

Published

2023

13. Data from p53 Status in Stromal Fibroblasts Modulates Tumor Growth in an SDF1-Dependent Manner

Author

Moshe Oren, Michal Neeman, Ron N. Apte, Yaron Carmi, Guillermina Lozano, Dorit Granot, Neta Moskovits, and Yoseph Addadi

Abstract

The p53 tumor suppressor exerts a variety of cell-autonomous effects that are aimed to thwart tumor development. In addition, however, there is growing evidence for cell nonautonomous tumor suppressor effects of p53. In the present study, we investigated the impact of stromal p53 on tumor growth. Specifically, we found that ablation of p53 in fibroblasts enabled them to promote more efficiently the growth of tumors initiated by PC3 prostate cancer-derived cells. This stimulatory effect was dependent on the increased expression of the chemokine SDF-1 in the p53-deficient fibroblasts. Notably, fibroblasts harboring mutant p53 protein were more effective than p53-null fibroblasts in promoting tumor growth. The presence of either p53-null or p53-mutant fibroblasts led also to a markedly elevated rate of metastatic spread of the PC3 tumors. These findings implicate p53 in a cell nonautonomous tumor suppressor role within stromal fibroblasts, through suppressing the production of tumor stimulatory factors by these cells. Moreover, expression of mutant p53 by tumor stroma fibroblasts might exert a gain of function effect, further accelerating tumor development. Cancer Res; 70(23); 9650–8. ©2010 AACR.

Published

2023

14. Supplementary Methods, Figures 1-4, Table 1 from p53 Status in Stromal Fibroblasts Modulates Tumor Growth in an SDF1-Dependent Manner

Author

Moshe Oren, Michal Neeman, Ron N. Apte, Yaron Carmi, Guillermina Lozano, Dorit Granot, Neta Moskovits, and Yoseph Addadi

Abstract

Supplementary Methods, Figures 1-4, Table 1 from p53 Status in Stromal Fibroblasts Modulates Tumor Growth in an SDF1-Dependent Manner

Published

2023

15. Supplementary Movie 1 from In vivo Imaging of the Systemic Recruitment of Fibroblasts to the Angiogenic Rim of Ovarian Carcinoma Tumors

Author

Michal Neeman, Leoni A. Kunz-Schughart, Alon Harmelin, Vyacheslav Kalchenko, Yoseph Addadi, and Dorit Granot

Abstract

Supplementary Movie 1 from In vivo Imaging of the Systemic Recruitment of Fibroblasts to the Angiogenic Rim of Ovarian Carcinoma Tumors

Published

2023

16. Supplementary Figure 1 from In vivo Imaging of the Systemic Recruitment of Fibroblasts to the Angiogenic Rim of Ovarian Carcinoma Tumors

Author

Michal Neeman, Leoni A. Kunz-Schughart, Alon Harmelin, Vyacheslav Kalchenko, Yoseph Addadi, and Dorit Granot

Abstract

Supplementary Figure 1 from In vivo Imaging of the Systemic Recruitment of Fibroblasts to the Angiogenic Rim of Ovarian Carcinoma Tumors

Published

2023

17. Dataset for Image Analysis with QuPath Workshop, MICC Cell Observatory, March 2023

Author

Ofra Golani and Yoseph Addadi

Abstract

Image files used during "Image Analysis with QuPath" Workshop at the Weizmann Institute. All other Workshop Material is available on our Github:https://github.com/WIS-MICC-CellObservatory/QuPathTutorial All images were cropped from a whole slide (which is too big to upload, and can be provided upon request) Imaged by: Yoseph Addadi Tissue:Tonsil Microscope: Akoya PhenoImager (followed by channel unmixing) Channels: DAPI Nuclei white Opal480 CD8 cyan Opal520 PDL1 green Opal570 Ki67 yellow Opal620 CD68 orange Opal690 PanCK red Opal780 CD20 magenta &nbsp

Published

2023

18. Energy Transport in Dichroic Metallo‐organic Crystals: Selective Inclusion of Spatially Resolved Arrays of Donor and Acceptor Dyes in Different Nanochannels**

Author

Qiang Wen, Naveen Malik, Yoseph Addadi, Maren Weißenfels, Vivek Singh, Linda J. W. Shimon, Michal Lahav, and Milko E. van der Boom

Subjects

General Medicine, General Chemistry, Catalysis

Abstract

In this study, the precise positioning and alignment of arrays of two different guest molecules in a crystalline host matrix has been engineered resulting in new optically-active materials. Sub-nm differences in the diameters of two types of 1D channels is sufficient for size-selective inclusion of dyes. Energy transport occurs between the arrays of different dyes that are included in parallel-positioned nanochannels by Förster resonance energy transfer (FRET). Dichromism and diattenuation of individual micro-sized crystals are dependent on their relative position under polarized light. This angular-dependent behavior is a result of the geometricallyconstrained orientation of the dyes by the crystallographic packing of the host matrix and is concentration dependent.

Published

2022

19. DestVI identifies continuums of cell types in spatial transcriptomics data

Author

Romain Lopez, Baoguo Li, Hadas Keren-Shaul, Pierre Boyeau, Merav Kedmi, David Pilzer, Adam Jelinski, Ido Yofe, Eyal David, Allon Wagner, Can Ergen, Yoseph Addadi, Ofra Golani, Franca Ronchese, Michael I. Jordan, Ido Amit, and Nir Yosef

Subjects

Gene Expression Profiling, 1.1 Normal biological development and functioning, Human Genome, Biomedical Engineering, Bioengineering, Applied Microbiology and Biotechnology, Mice, Underpinning research, Neoplasms, Exome Sequencing, Genetics, Molecular Medicine, Animals, Generic health relevance, Single-Cell Analysis, Transcriptome, Software, Biotechnology

Abstract

Most spatial transcriptomics technologies are limited by their resolution, with spot sizes larger than that of a single cell. Although joint analysis with single-cell RNA sequencing can alleviate this problem, current methods are limited to assessing discrete cell types, revealing the proportion of cell types inside each spot. To identify continuous variation of the transcriptome within cells of the same type, we developed Deconvolution of Spatial Transcriptomics profiles using Variational Inference (DestVI). Using simulations, we demonstrate that DestVI outperforms existing methods for estimating gene expression for every cell type inside every spot. Applied to a study of infected lymph nodes and of a mouse tumor model, DestVI provides high-resolution, accurate spatial characterization of the cellular organization of these tissues and identifies cell-type-specific changes in gene expression between different tissue regions or between conditions. DestVI is available as part of the open-source software package scvi-tools ( https://scvi-tools.org ).

Published

2022

20. Glyconanofluorides as Immunotracers with a Tunable Core Composition for Sensitive Hotspot Magnetic Resonance Imaging of Inflammatory Activity

Author

Reut Mashiach, Alisa Lubart, Andrea Galisova, Amnon Bar-Shir, David Kain, Dana Cohen, Hyla Allouche-Arnon, Pablo Blinder, Yoseph Addadi, and Lothar Houben

Subjects

Materials science, 19F MRI, General Physics and Astronomy, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Article, Fluorides, Paramagnetism, nanocrystals, In vivo, glyconanoparticles, medicine, Animals, General Materials Science, chemistry.chemical_classification, medicine.diagnostic_test, Biomolecule, General Engineering, Spin–lattice relaxation, Magnetic resonance imaging, biomimetic, 021001 nanoscience & nanotechnology, Magnetic Resonance Imaging, 0104 chemical sciences, chemistry, inflammation, Nanoparticles, multicolor MRI, 0210 nano-technology, Biomedical engineering

Abstract

Nature-inspired nanosized formulations based on an imageable, small-sized inorganic core scaffold, on which biomolecules are assembled to form nanobiomimetics, hold great promise for both early diagnostics and developed therapeutics. Nevertheless, the fabrication of nanobiomimetics that allow noninvasive background-free mapping of pathological events with improved sensitivity, enhanced specificity, and multiplexed capabilities remains a major challenge. Here, we introduce paramagnetic glyconanofluorides as small-sized (

Published

2021

21. Characterization and possible function of an enigmatic reflector in the eye of the shrimp Litopenaeus vannamei

Author

Steve Weiner, Lia Addadi, Eyal Merary Wormser, Venkata Jayasurya Yallapragada, Vlad Brumfeld, Nathan Schiffmann, Amir Sagi, Benjamin A. Palmer, Iddo Pinkas, Eliahu D. Aflalo, and Yoseph Addadi

Subjects

0303 health sciences, Materials science, Birefringence, Reflector (photography), genetic structures, business.industry, Scattering, High-refractive-index polymer, Spherulite (polymer physics), 010402 general chemistry, 01 natural sciences, 0104 chemical sciences, Core (optical fiber), 03 medical and health sciences, Optical phenomena, Optics, sense organs, Physical and Theoretical Chemistry, business, Single crystal, 030304 developmental biology

Abstract

Reflective assemblies of high refractive index organic crystals are used to produce striking optical phenomena in organisms based on light reflection and scattering. In aquatic animals, organic crystal-based reflectors are used both for image-formation and to increase photon capture. Here we report the characterization of a poorly-documented reflector in the eye of the shrimp L. vannamei lying 150 μm below the retina, which we term the proximal reflective layer (PR-layer). The PR-layer is made from a dense but disordered array of polycrystalline isoxanthopterin nanoparticles, similar to those recently reported in the tapetum of the same animal. Each spherical nanoparticle is composed of numerous isoxanthopterin single crystal plates arranged in concentric lamellae around an aqueous core. The highly reflective plate faces of the crystals are all aligned tangentially to the particle surface with the optical axes projecting radially outwards, forming a birefringent spherulite which efficiently scatters light. The nanoparticle assemblies form a broadband reflective sheath around the screening pigments of the eye, resulting in pronounced eye-shine when the animal is viewed from a dorsal-posterior direction, rendering the eye pigments inconspicuous. We assess possible functions of the PR-layer and conclude that it likely functions as a camouflage device to conceal the dark eye pigments in an otherwise largely transparent animal.

Published

2020

22. Exocytosis of the silicified cell wall of diatoms involves extensive membrane disintegration

Author

Diede de Haan, Lior Aram, Hadas Peled-Zehavi, Yoseph Addadi, Oz Ben-Joseph, Ron Rotkopf, Nadav Elad, Katya Rechav, and Assaf Gal

Subjects

Multidisciplinary, Chemistry, Endocytic cycle, General Physics and Astronomy, General Chemistry, General Biochemistry, Genetics and Molecular Biology, Exocytosis, Organelle membrane, Cell wall, Membrane, Organelle, Biophysics, Ultrastructure, Extracellular

Abstract

Diatoms are unicellular algae, characterized by silica cell walls. The silica elements are formed intracellularly in a membrane-bound silica deposition vesicle (SDV), and are exocytosed after completion. How diatoms maintain membrane homeostasis during the exocytosis of these large and rigid silica elements is a long-standing enigma. We studied membrane dynamics during cell wall formation and exocytosis in two model diatom species, using live-cell confocal microscopy, transmission electron microscopy and cryo-electron tomography. Our results show that during the formation of the mineral phase it is in tight association with the SDV membranes, which are forming a precise mold of the delicate geometrical patterns. During exocytosis, the distal SDV membrane and the plasma membrane gradually detach from the mineral and disintegrate in the extracellular space, without any noticeable endocytic retrieval or extracellular repurposing. Within the cell, there is no evidence for the formation of a new plasma membrane, thus the proximal SDV membrane becomes the new barrier between the cell and its environment, and assumes the role of a new plasma membrane. These results provide direct structural observations of diatom silica exocytosis, and point to an extraordinary mechanism in which membrane homeostasis is maintained by discarding, rather than recycling, significant membrane patches.Significance StatementExocytosis is a fundamental process for cell metabolism, communication, and growth. During exocytosis, an intracellular vesicle fuses with the plasma membrane to release its contents. In classical exocytosis, where the exocytosed vesicles are much smaller than the cell, membrane homeostasis is maintained by recycling excess membranes back into the cell. However, an extreme case of exocytosis is the extrusion of large and rigid cell wall elements by unicellular marine algae. During this process, the cell needs to deal with a potential doubling of its plasma membrane. This study reports on a unique exocytosis mechanism used by these organisms, in which the cells cope with the geometrical and physical challenges of exocytosis by releasing a significant amount of membranes to the extracellular space.

Published

2021

23. TP53 missense mutations in PDAC are associated with enhanced fibrosis and an immunosuppressive microenvironment

Author

Giuseppina Lambiase, Ravid Straussman, Ron Rotkopf, Michal Lotem, Abby Kapsack, Martino Maddalena, Giuseppe Mallel, Moshe Oren, Eyal Ben-Isaac, Emma Hajaj, Nishanth Belugali Nataraj, Sharathchandra Arandkar, Michal Shreberk-Shaked, Yosef Yarden, Raya Eilam, Saptaparna Mukherjee, Bianca Pellegrino, Ori Hassin, Ofra Golani, and Yoseph Addadi

Subjects

Tumor microenvironment, Multidisciplinary, Tumor suppressor gene, endocrine system diseases, Cancer, Biology, Biological Sciences, medicine.disease, medicine.disease_cause, medicine.anatomical_structure, Immune system, Cancer cell, Cancer research, medicine, KRAS, Pancreas, CD8

Abstract

Pancreatic ductal adenocarcinoma (PDAC) is a highly lethal cancer, which is refractory to all currently available treatments and bears dismal prognosis. About 70% of all PDAC cases harbor mutations in the TP53 tumor suppressor gene. Many of those are missense mutations, resulting in abundant production of mutant p53 (mutp53) protein in the cancer cells. Analysis of human PDAC patient data from The Cancer Genome Atlas (TCGA) revealed a negative association between the presence of missense mutp53 and infiltration of CD8(+) T cells into the tumor. Moreover, CD8(+) T cell infiltration was negatively correlated with the expression of fibrosis-associated genes. Importantly, silencing of endogenous mutp53 in KPC cells, derived from mouse PDAC tumors driven by mutant Kras and mutp53, down-regulated fibrosis and elevated CD8(+) T cell infiltration in the tumors arising upon orthotopic injection of these cells into the pancreas of syngeneic mice. Moreover, the tumors generated by mutp53-silenced KPC cells were markedly smaller than those elicited by mutp53-proficient control KPC cells. Altogether, our findings suggest that missense p53 mutations may contribute to worse PDAC prognosis by promoting a more vigorous fibrotic tumor microenvironment and impeding the ability of the immune system to eliminate the cancer cells.

Published

2021

24. B cell dissemination patterns during the germinal center reaction revealed by whole-organ imaging

Author

Liat Stoler-Barak, Ziv Shulman, Adi Biram, Yoseph Addadi, Natalia Davidzohn, and Ofra Golani

Subjects

0301 basic medicine, Immunology, Receptors, Antigen, B-Cell, Context (language use), Mice, Transgenic, Technical Advances and Resources, 03 medical and health sciences, 0302 clinical medicine, Antigen, Cell Movement, Fluorescence microscope, medicine, Immunology and Allergy, Animals, B cell, Research Articles, Cell Proliferation, Mice, Knockout, B-Lymphocytes, Microscopy, Confocal, biology, Chemistry, Cell growth, breakpoint cluster region, Germinal center, Germinal Center, Molecular biology, Mice, Inbred C57BL, 030104 developmental biology, medicine.anatomical_structure, Microscopy, Fluorescence, biology.protein, Lymph Nodes, Antibody, 030215 immunology

Abstract

Antibody-mediated long-lasting protection from harmful pathogens depends on collaboration of immune cells within immunological niches. Stoler-Barak et al. introduce an approach that enables the visualization of all the germinal center niches and activated B cells within intact lymph nodes., Germinal centers (GCs) are sites wherein B cells proliferate and mutate their immunoglobulins in the dark zone (DZ), followed by affinity-based selection in the light zone (LZ). Here, we mapped the location of single B cells in the context of intact lymph nodes (LNs) throughout the GC response, and examined the role of BCR affinity in dictating their position. Imaging of entire GC structures and proximal single cells by light-sheet fluorescence microscopy revealed that individual B cells that previously expressed AID are located within the LN cortex, in an area close to the GC LZ. Using in situ photoactivation, we demonstrated that B cells migrate from the LZ toward the GC outskirts, while DZ B cells are confined to the GC. B cells expressing very-low-affinity BCRs formed GCs but were unable to efficiently disperse within the follicles. Our findings reveal that BCR affinity regulates B cell positioning during the GC response.

Published

2019

25. Reduced Lamin A/C Does Not Facilitate Cancer Cell Transendothelial Migration but Compromises Lung Metastasis

Author

Ofer Regev, Ronen Alon, Yossi Ovadya, Francesco Roncato, Gabi Gerlitz, Sandeep Kumar Yadav, Yoseph Addadi, Ester Feldmesser, Sérgio F. de Almeida, Marina Kizner, Nehora Levi, João C. Sabino, Diana Drago-Garcia, Sara W. Feigelson, Lukasz Kaczmarczyk, and Samuel Ovadia

Subjects

0301 basic medicine, EXPRESSION, Cancer Research, animal structures, Cell, Article, Metastasis, PATHWAY, 03 medical and health sciences, MOVEMENT, 0302 clinical medicine, Downregulation and upregulation, cancer metastasis, medicine, RNA-SEQ, chemotaxis, NUCLEAR-ENVELOPE, RC254-282, REPAIR, Gene knockdown, Science & Technology, epigenetics, Chemistry, nucleus, diapedesis, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, imaging, STIFFNESS, medicine.disease, Extravasation, Cell biology, 030104 developmental biology, medicine.anatomical_structure, Oncology, DNA-DAMAGE, SENESCENCE, 030220 oncology & carcinogenesis, Cancer cell, embryonic structures, Nuclear lamina, GROWTH, Life Sciences & Biomedicine, Lamin, extravasation

Abstract

Simple Summary The nucleus is the largest and stiffest organelle of tumor cells. Cancer metastasis depends on the ability of cancer cells circulating in the blood to exit blood vessels and survive in target organs. The roles of the shell (lamina) of the nucleus in cancer cell migration and survival in distinct organs of metastasis are still unclear. A-type lamins are key lamina components that increase nuclear stiffness and reduce squeezing capacity through highly rigid barriers. We addressed how reduced expression of A-lamins (lamin A/C) affects cancer cell survival and crossing of endothelial barriers and lung capillaries and found that reduced lamin A/C expression impairs cancer growth in spheroids and restricts cancer metastasis to lungs without improving cancer cell squeezing and extravasation from lung vessels, the key platform for cancer entry into lungs. Abstract The mechanisms by which the nuclear lamina of tumor cells influences tumor growth and migration are highly disputed. Lamin A and its variant lamin C are key lamina proteins that control nucleus stiffness and chromatin conformation. Downregulation of lamin A/C in two prototypic metastatic lines, B16F10 melanoma and E0771 breast carcinoma, facilitated cell squeezing through rigid pores, and reduced heterochromatin content. Surprisingly, both lamin A/C knockdown cells grew poorly in 3D spheroids within soft agar, and lamin A/C deficient cells derived from spheroids transcribed lower levels of the growth regulator Yap1. Unexpectedly, the transendothelial migration of both cancer cells in vitro and in vivo, through lung capillaries, was not elevated by lamin A/C knockdown and their metastasis in lungs was even dramatically reduced. Our results are the first indication that reduced lamin A/C content in distinct types of highly metastatic cancer cells does not elevate their transendothelial migration (TEM) capacity and diapedesis through lung vessels but can compromise lung metastasis at a post extravasation level.

Published

2021

26. Application of 3D MAPs pipeline identifies the morphological sequence chondrocytes undergo and the regulatory role of GDF5 in this process

Author

Johannes Stegmaier, Ankit Agrawal, Tomer Stern, Yoseph Addadi, Elazar Zelzer, Paul Villoutreix, Sarah Rubin, Neta Felsenthal, Sharon Krief, Jonathan Svorai, MIT Academy of Engineering [Pune] (MIT AOE), Savitribai Phule Pune University [India], Aix-Marseille Université - Faculté d'odontologie (AMU ODONTO), Aix Marseille Université (AMU), Laboratoire d'Informatique et Systèmes (LIS), Aix Marseille Université (AMU)-Université de Toulon (UTLN)-Centre National de la Recherche Scientifique (CNRS), Institut de Biologie du Développement de Marseille (IBDM), and Aix Marseille Université (AMU)-Collège de France (CdF (institution))-Centre National de la Recherche Scientifique (CNRS)

Subjects

Intravital Microscopy, [SDV]Life Sciences [q-bio], Science, Long bone, Morphogenesis, General Physics and Astronomy, Computational biology, SMAD, Biology, GDF5, General Biochemistry, Genetics and Molecular Biology, Chondrocyte, Chondrocytes, Imaging, Three-Dimensional, Growth Differentiation Factor 5, medicine, Animals, Growth Plate, Process (anatomy), Cell Proliferation, Mice, Knockout, Multidisciplinary, Tibia, Cell growth, DATA processing & computer science, Cell Differentiation, General Chemistry, X-Ray Microtomography, Embryo, Mammalian, Phenotype, medicine.anatomical_structure, Animals, Newborn, Models, Animal, Female, ddc:500, ddc:004

Abstract

Nature Communications 12(1), 5363 (2021). doi:10.1038/s41467-021-25714-0, Published by Nature Publishing Group UK, [London]

Published

2020

27. Characterization and possible function of an enigmatic reflector in the eye of the shrimp

Author

Nathan, Schiffmann, Eyal Merary, Wormser, Vlad, Brumfeld, Yoseph, Addadi, Iddo, Pinkas, Venkata Jayasurya, Yallapragada, Eliahu D, Aflalo, Amir, Sagi, Benjamin A, Palmer, Steve, Weiner, and Lia, Addadi

Subjects

Light, Microscopy, Fluorescence, Optical Phenomena, Crustacea, Microscopy, Electron, Scanning, Animals, Nanoparticles, Retina, Xanthopterin

Abstract

Reflective assemblies of high refractive index organic crystals are used to produce striking optical phenomena in organisms based on light reflection and scattering. In aquatic animals, organic crystal-based reflectors are used both for image-formation and to increase photon capture. Here we report the characterization of a poorly-documented reflector in the eye of the shrimp L. vannamei lying 150 μm below the retina, which we term the proximal reflective layer (PR-layer). The PR-layer is made from a dense but disordered array of polycrystalline isoxanthopterin nanoparticles, similar to those recently reported in the tapetum of the same animal. Each spherical nanoparticle is composed of numerous isoxanthopterin single crystal plates arranged in concentric lamellae around an aqueous core. The highly reflective plate faces of the crystals are all aligned tangentially to the particle surface with the optical axes projecting radially outwards, forming a birefringent spherulite which efficiently scatters light. The nanoparticle assemblies form a broadband reflective sheath around the screening pigments of the eye, resulting in pronounced eye-shine when the animal is viewed from a dorsal-posterior direction, rendering the eye pigments inconspicuous. We assess possible functions of the PR-layer and conclude that it likely functions as a camouflage device to conceal the dark eye pigments in an otherwise largely transparent animal.

Published

2020

28. Ex utero mouse embryogenesis from pre-gastrulation to late organogenesis

Author

Daoud Sheban, Shahd Ashouokhi, Rada Massarwa, Sharon Slomovich, Yoseph Addadi, Hadas Keren-Shaul, Alejandro Aguilera-Castrejon, Noa Novershtern, Sergey Viukov, Yoach Rais, Jacob H. Hanna, Mirie Zerbib, Raanan Shlomo, Lior Lasman, Nir Livnat, Bernardo Oldak, Nadir Ghanem, Yonatan Stelzer, Valeriya Chugaeva, Shadi Tarazi, Itay Maza, Chen Itzkovich, Tom Shani, Jonathan Bayerl, Saifeng Cheng, and Muneef Ayyash

Subjects

Male, Time Factors, Organogenesis, Morphogenesis, Mammalian embryology, Embryonic Development, Biology, In Vitro Techniques, Embryo Culture Techniques, 03 medical and health sciences, Mice, 0302 clinical medicine, Animals, 030304 developmental biology, 0303 health sciences, Multidisciplinary, Embryogenesis, Gastrulation, Uterus, Embryo, Embryo, Mammalian, Embryonic stem cell, Cell biology, In utero, embryonic structures, Female, 030217 neurology & neurosurgery

Abstract

The mammalian body plan is established shortly after the embryo implants into the maternal uterus, and our understanding of post-implantation developmental processes remains limited. Although pre- and peri-implantation mouse embryos are routinely cultured in vitro1,2, approaches for the robust culture of post-implantation embryos from egg cylinder stages until advanced organogenesis remain to be established. Here we present highly effective platforms for the ex utero culture of post-implantation mouse embryos, which enable the appropriate development of embryos from before gastrulation (embryonic day (E) 5.5) until the hindlimb formation stage (E11). Late gastrulating embryos (E7.5) are grown in three-dimensional rotating bottles, whereas extended culture from pre-gastrulation stages (E5.5 or E6.5) requires a combination of static and rotating bottle culture platforms. Histological, molecular and single-cell RNA sequencing analyses confirm that the ex utero cultured embryos recapitulate in utero development precisely. This culture system is amenable to the introduction of a variety of embryonic perturbations and micro-manipulations, the results of which can be followed ex utero for up to six days. The establishment of a system for robustly growing normal mouse embryos ex utero from pre-gastrulation to advanced organogenesis represents a valuable tool for investigating embryogenesis, as it eliminates the uterine barrier and allows researchers to mechanistically interrogate post-implantation morphogenesis and artificial embryogenesis in mammals. A new culture system makes it possible to grow mouse embryos and study their development outside the uterus up to the point of late organogenesis.

Published

2020

29. Brain pathology and cerebellar purkinje cell loss in a mouse model of chronic neuronopathic Gaucher disease

Author

Ron Rotkopf, Raya Eilam, Noa Wigoda, Yoseph Addadi, Alfred H. Merrill, Soo Min Cho, Yael Pewzner-Jung, Rebecca Haffner-Krausz, Tomer-Meir Salame, Shani Blumenreich, Natalia Santos Ferreira, Nir Sharabi, Raphael Schiffmann, Ayelet Vardi, Nadav Yayon, Inbal E. Biton, Tammar Joseph, Michael Tsoory, Anthony H. Futerman, Vlad Brumfeld, and Ori Brenner

Subjects

0301 basic medicine, Cerebellum, Pathology, medicine.medical_specialty, Parkinson's disease, Transgene, Cerebellar Purkinje cell, Neuropathology, 03 medical and health sciences, Mice, Purkinje Cells, 0302 clinical medicine, Medicine, Animals, Humans, Doxycycline, Gaucher Disease, Microglia, business.industry, General Neuroscience, Brain, medicine.disease, Sphingolipid, Disease Models, Animal, 030104 developmental biology, medicine.anatomical_structure, Glucosylceramidase, business, 030217 neurology & neurosurgery, medicine.drug

Abstract

Gaucher disease (GD) is currently the focus of considerable attention due primarily to the association between the gene that causes GD (GBA) and Parkinson's disease. Mouse models exist for the systemic (type 1) and for the acute neuronopathic forms (type 2) of GD. Here we report the generation of a mouse that phenotypically models chronic neuronopathic type 3 GD. Gba-/-;Gbatg mice, which contain a Gba transgene regulated by doxycycline, accumulate moderate levels of the offending substrate in GD, glucosylceramide, and live for up to 10 months, i.e. significantly longer than mice which model type 2 GD. Gba-/-;Gbatg mice display behavioral abnormalities at ∼4 months, which deteriorate with age, along with significant neuropathology including loss of Purkinje neurons. Gene expression is altered in the brain and in isolated microglia, although the changes in gene expression are less extensive than in mice modeling type 2 disease. Finally, bone deformities are consistent with the Gba-/-;Gbatg mice being a genuine type 3 GD model. Together, the Gba-/-;Gbatg mice share pathological pathways with acute neuronopathic GD mice but also display differences that might help understand the distinct disease course and progression of type 2 and 3 patients.

Published

2020

30. Author response: Distinct origins and molecular mechanisms contribute to lymphatic formation during cardiac growth and regeneration

Author

Ofra Golani, Noga Moshe, Kenneth D. Poss, Rubén Marín-Juez, Jonathan Semo, Ravi Karra, Kristy Red-Horse, Yoseph Addadi, Gal Perlmoter, Didier Y.R. Stainier, Brian C. Raftrey, Dana Gancz, Karina Yaniv, Hila Raviv, and Ryota L. Matsuoka

Subjects

Lymphatic system, Regeneration (biology), Biology, Cell biology

Published

2019

31. Fibroblast recruitment as a tool for ovarian cancer detection and targeted therapy

Author

Gila Meir, Hagit Dafni, Lian Narunsky Haziza, Ami Fishman, Yoseph Addadi, Roni Oren, Michal Neeman, and Ron Rotkopf

Subjects

0301 basic medicine, Cancer Research, Pathology, medicine.medical_specialty, image guided therapy, medicine.medical_treatment, Mice, Nude, Carcinoma, Ovarian Epithelial, Article, Targeted therapy, 03 medical and health sciences, Peritoneal cavity, Ovarian tumor, Mice, 0302 clinical medicine, Ovarian carcinoma, Cell Line, Tumor, medicine, Animals, Humans, Neoplasms, Glandular and Epithelial, cell based therapy, Survival rate, Cell Line, Transformed, Fluorescent Dyes, Ovarian Neoplasms, Vascular Endothelial Growth Factor Receptor-1, business.industry, s-FLT1, Haplorhini, Fibroblasts, Debulking, medicine.disease, 3. Good health, ovarian carcinoma, 030104 developmental biology, medicine.anatomical_structure, Oncology, Tumor progression, 030220 oncology & carcinogenesis, Heterografts, Female, Ovarian cancer, business

Abstract

Metastatic ovarian cancer, the most lethal of gynecologic malignancies, is typically managed by debulking surgery, followed by chemotherapy. However, despite significant efforts, survival rate remains low. We have previously demonstrated, in mouse models, a specific systemic homing of labeled fibroblasts to solid ovarian tumors. Here, we demonstrate the feasibility of utilizing this specific homing of genetically modified fibroblasts for detection and targeted therapy of orthotopic metastatic ovarian carcinoma model in immune-deficient mice. Using an in vivo metastatic mouse model for ovarian cancer, we demonstrated that fibroblasts expressing fluorescent reporters injected intra-peritoneally, were specifically recruited to peritoneal tumor nodules (resulting in 93-100% co-localization). We further used fibroblasts over expressing the soluble receptor variant of VEGFR1 (s-Flt1). Mice bearing tumors were injected weekly with either control or s-Flt1 expressing fibroblasts. Injection of s-Flt1 expressing fibroblasts resulted in a significant reduction in the ascites volume, reduced vascularization of adherent metastases, and improved overall survival. Using fluorescently labeled fibroblasts for tumor detection with readily available intra-operative fluorescence imaging tools may be useful for tumor staging and directing biopsies or surgical efforts during exploratory or debulking surgery. Fibroblasts may serve as a beacon pointing to the otherwise invisible metastases in the peritoneal cavity of ovarian cancer patients. Utilizing the recruited fibroblasts also for targeted delivery of anti angiogenic or antitumor molecules may aid in controlling tumor progression. Thus, these results suggest a novel approach for targeting ovarian tumor metastases for both tumor detection and therapy.

Published

2016

32. Multiscale analysis of 3D nuclear morphology reveals new insights into growth plate organization in mice

Author

Paul Villoutreix, Elazar Zelzer, Johannes Stegmaier, Sarah Rubin, Yoseph Addadi, and Tomer Stern

Subjects

0303 health sciences, Orientation (computer vision), Cellular differentiation, Biology, Cell morphology, Embryonic stem cell, Sphericity, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, Fluorescence microscope, Biophysics, medicine, Developmental biology, Nucleus, 030217 neurology & neurosurgery, 030304 developmental biology

Abstract

The shape of the nucleus is tightly associated with cell morphology, the mechanical environment, and differentiation and transcriptional states. Yet, imaging of nuclei in three dimensions while preserving the spatial context of the tissue has been highly challenging. Here, using the embryonic tibial growth plate as a model for cell differentiation, we study nuclear morphology by imaging cleared samples by light-sheet fluorescence microscopy. Next, we quickly segmented tens of thousands of nuclei using several open-source tools including machine learning. Finally, segmented nuclei underwent morphometric analysis and 3D spatial reconstruction using newly designed algorithms. Our method revealed differences in nuclear morphology between chondrocytes at different differentiation stages. Additionally, we identified different morphological patterns in opposing growth plates, such as gradients of volume and surface area, as well as features characteristic of specific growth plate zones, such as sphericity and orientation. Altogether, this work supports a link between nuclear morphology and cell differentiation. Moreover, it demonstrates the suitability of our approach for studying the relationships between nuclear morphology and organ development.Author summaryThere has been a growing interest in the relationship between nuclear morphology and its regulation of gene expression. However, to study global patterns of nuclear morphology within a tissue we must address the problem of acquiring and analyzing multiscale data, ranging from the tissue level through to subcellular resolution. We have established a new pipeline that enables acquisition and segmentation of hundreds of thousands of nuclei at a resolution that allows quantitative analysis. Moreover we have developed new algorithms that allow superimposing morphological aspects of hundreds of thousands of nuclei onto a visual representation of the entire tissue, allowing us to study nuclear morphology at an organ level. Using mouse growth plates as a model for the relationship between nuclear morphology and tissue differentiation, we show that nuclei change different aspects of their morphology during chondrocyte differentiation. Growth plates are usually described generically in the literature, suggesting they lack unique characteristics. We challenge this dogma by showing that morphological features such as volume distribute differently in opposing growth plates. Altogether, this work highlights the possible role of nuclear shape in the regulation of cell differentiation and demonstrates that our approach enables the study of nuclear morphology patterns within a tissue.

Published

2018

33. Bone morphology is regulated modularly by global and regional genetic programs

Author

Shai Eyal, Yoseph Addadi, Sarah Rubin, Deneen M. Wellik, Kyriel M. Pineault, Shiri Kult, Tomer-Meir Salame, Dena Leshkowitz, Elazar Zelzer, Sharon Krief, and Neta Felsenthal

Subjects

Male, Lineage (genetic), Regulator, Mice, Transgenic, Computational biology, SOX9, Biology, Bone and Bones, Tendons, 03 medical and health sciences, Mice, 0302 clinical medicine, Pregnancy, GLI3, Basic Helix-Loop-Helix Transcription Factors, Animals, Genes, Developmental, Hox gene, Molecular Biology, 030304 developmental biology, Homeodomain Proteins, 0303 health sciences, Bone Development, Ligaments, Mechanism (biology), Scleraxis, Pre-B-Cell Leukemia Transcription Factor 1, Gene Expression Regulation, Developmental, SOX9 Transcription Factor, Genetic program, Embryo, Mammalian, Organ Specificity, Female, 030217 neurology & neurosurgery, Developmental Biology, Research Article

Abstract

Bone protrusions provide stable anchoring sites for ligaments and tendons and define the unique morphology of each long bone. Despite their importance, the mechanism by which superstructures are patterned is unknown. Here, we identify components of the genetic program that control the patterning of Sox9+/Scx+ superstructure progenitors in mouse and show that this program includes both global and regional regulatory modules. Using light-sheet fluorescence microscopy combined with genetic lineage labeling, we mapped the broad contribution of the Sox9+/Scx+ progenitors to the formation of bone superstructures. Then, by combining literature-based evidence, comparative transcriptomic analysis and genetic mouse models, we identified Gli3 as a global regulator of superstructure patterning, whereas Pbx1, Pbx2, Hoxa11 and Hoxd11 act as proximal and distal regulators, respectively. Moreover, by demonstrating a dose-dependent pattern regulation in Gli3 and Pbx1 compound mutations, we show that the global and regional regulatory modules work in a coordinated manner. Collectively, our results provide strong evidence for genetic regulation of superstructure patterning, which further supports the notion that long bone development is a modular process. This article has an associated ‘The people behind the papers’ interview.

Published

2018

34. Whole Organ Blood and Lymphatic Vessels Imaging (WOBLI)

Author

Nava Dekel, Shani Blumenreich, Yoseph Addadi, Hila Gutman, Shlomi Lazar, Liat Fellus-Alyagor, Hagit Dafni, Michal Neeman, Filip Bochner, and Roni Oren

Subjects

0301 basic medicine, Materials science, Science, High resolution, Fluorescent Antibody Technique, Article, 03 medical and health sciences, Immunolabeling, Mice, Imaging, Three-Dimensional, High spatial resolution, Animals, Lung, Lymphatic Vessels, Multidisciplinary, Tissue clearing, Ovary, Uterus, ScaleA2 solution, 030104 developmental biology, Lymphatic system, Liver, Microscopy, Fluorescence, Light sheet fluorescence microscopy, Medicine, Blood Vessels, Female, Biomedical engineering, Clearance

Abstract

Thin section histology is limited in providing 3D structural information, particularly of the intricate morphology of the vasculature. Availability of high spatial resolution imaging for thick samples, would overcome the restriction dictated by low light penetration. Our study aimed at optimizing the procedure for efficient and affordable tissue clearing, along with an appropriate immunofluorescence labeling that will be applicable for high resolution imaging of blood and lymphatic vessels. The new procedure, termed whole organ blood and lymphatic vessels imaging (WOBLI), is based on two previously reported methods, CLARITY and ScaleA2. We used this procedure for the analysis of isolated whole ovary, uterus, lung and liver. These organs were subjected to passive clearing, following fixation, immunolabeling and embedding in hydrogel. Cleared specimens were immersed in ScaleA2 solution until transparency was achieved and imaged using light sheet microscopy. We demonstrate that WOBLI allows detailed analysis and generation of structural information of the lymphatic and blood vasculature from thick slices and more importantly, from whole organs. We conclude that WOBLI offers the advantages of morphology and fluorescence preservation with efficient clearing. Furthermore, WOBLI provides a robust, cost-effective method for generation of transparent specimens, allowing high resolution, 3D-imaging of blood and lymphatic vessels networks.

Published

2018

35. Ovarian Carcinoma: Quantitative Biexponential MR Imaging Relaxometry Reveals the Dynamic Recruitment of Ferritin-expressing Fibroblasts to the Angiogenic Rim of Tumors

Author

Senzeni Mpofu, Michal Neeman, Batya Cohen, Raya Eilam, Yoseph Addadi, Moriel H. Vandsburger, and Marina Radoul

Subjects

education.field_of_study, Relaxometry, Pathology, medicine.medical_specialty, biology, business.industry, Population, Cell Fraction, 030218 nuclear medicine & medical imaging, Ferritin, Neovascularization, 03 medical and health sciences, 0302 clinical medicine, In vivo, Cell culture, 030220 oncology & carcinogenesis, Ovarian carcinoma, biology.protein, Medicine, Radiology, Nuclear Medicine and imaging, medicine.symptom, education, business

Abstract

Ferritin heavy chain overexpression in combination with R2 mapping enables quantitative in vivo examination of cell recruitment, and when combined with biexponential MR relaxometry, enables in vivo measurement of reporter gene–expressing cell fraction in a mixed cell population.

Published

2013

36. Multimodal Correlative Preclinical Whole Body Imaging and Segmentation

Author

Yoseph Addadi, Reut Avni, Hagit Dafni, Yafit Brenner, Inbal E. Biton, Ayelet Akselrod-Ballin, and Michal Neeman

Subjects

Correlative, Whole body imaging, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Image processing, 02 engineering and technology, Biology, Multimodal Imaging, Article, 030218 nuclear medicine & medical imaging, Machine Learning, 03 medical and health sciences, Mice, 0302 clinical medicine, 0202 electrical engineering, electronic engineering, information engineering, medicine, Image Processing, Computer-Assisted, Animals, Segmentation, Computer vision, Whole Body Imaging, Animal Structures, Multidisciplinary, medicine.diagnostic_test, business.industry, Optical Imaging, Magnetic resonance imaging, Magnetic Resonance Imaging, Hierarchical clustering, 020201 artificial intelligence & image processing, Tomography, Artificial intelligence, business, Tomography, X-Ray Computed

Abstract

Segmentation of anatomical structures and particularly abdominal organs is a fundamental problem for quantitative image analysis in preclinical research. This paper presents a novel approach for whole body segmentation of small animals in a multimodal setting of MR, CT and optical imaging. The algorithm integrates multiple imaging sequences into a machine learning framework, which generates supervoxels by an efficient hierarchical agglomerative strategy and utilizes multiple SVM-kNN classifiers each constrained by a heatmap prior region to compose the segmentation. We demonstrate results showing segmentation of mice images into several structures including the heart, lungs, liver, kidneys, stomach, vena cava, bladder, tumor, and skeleton structures. Experimental validation on a large set of mice and organs, indicated that our system outperforms alternative state of the art approaches. The system proposed can be generalized to various tissues and imaging modalities to produce automatic atlas-free segmentation, thereby enabling a wide range of applications in preclinical studies of small animal imaging.

Published

2016

37. Removable Nanocoatings for siRNA Polyplexes

Author

Milena Špírková, Cestmir Konak, Yoseph Addadi, Vladimir Subr, Twan Lammers, Libor Kostka, Karel Ulbrich, and Michal Neeman

Subjects

Hydrodynamic radius, Polymers, Surface Properties, Biomedical Engineering, Pharmaceutical Science, Nanoparticle, Bioengineering, engineering.material, chemistry.chemical_compound, Coating, Polymer chemistry, Side chain, Copolymer, Methacrylamide, Molecule, Disulfides, RNA, Small Interfering, Pharmacology, chemistry.chemical_classification, Molecular Structure, Organic Chemistry, Thiones, Stereoisomerism, Polymer, chemistry, Chemical engineering, engineering, Nanoparticles, Biotechnology

Abstract

To assist in overcoming the inherent instability of nucleic acid-containing polyplexes in physiological solutions, we have here set out to develop removable nanocoatings for modifying the surface of siRNA-based nanoparticles. Here, N-(2-hydroxypropyl)methacrylamide (HPMA) based copolymers containing carbonylthiazolidine-2-thione (TT) reactive groups in their side chains bound via disulfide spacers to the polymeric backbone were synthesized, and these copolymers were used to coat the surface of polyplexes formed by the self-assembly of anti-Luciferase siRNA with the polycations polyethylene imine (PEI) and poly(HPMA)-grafted poly(l-lysine) (GPL). The coating process was monitored by analyzing changes in the weight-average molecular weight (M(w)), the hydrodynamic radius (R(h)), and the zeta-potential (ζ) of the polyplexes, using both static (SLS) and dynamic (DLS) light scattering methods. The outlined methods resulted in the attachment of, on average, 28 polymer molecules to the surface of the polyplexes, forming a ∼5-nm-thick hydrophilic stealth coating. Initial efforts to develop RGD-targeted coated polyplexes are also described. Atomic force microscopy (AFM) showed an angular polyplex structure and confirmed the narrow size distribution of the coated nanoparticles. The stability of the polymer-coated and uncoated polyplexes was evaluated by gel electrophoresis and by turbidity measurements, and it was found that modifying the surface of the siRNA-containing polyplexes substantially improved their stability in physiological solutions. Using polymer-coated GPL-based polyplexes containing anti-Luciferase siRNA, we finally also obtained some initial proof-of-principle for time- and concentration-dependent target-specific gene silencing, suggesting that these systems hold significant potential for further in vitro and in vivo evaluation.

Published

2011

38. Combined application of dynamic light scattering imaging and fluorescence intravital microscopy in vascular biology

Author

Igor Meglinski, Yoseph Addadi, Keren Ziv, Alon Harmelin, Michal Neeman, Vyacheslav Kalchenko, and Noa Madar-Balakirski

Subjects

Microscope, Materials science, Physics and Astronomy (miscellaneous), business.industry, law.invention, Speckle pattern, Optics, Lymphatic system, In vivo, law, Fluorescence microscope, Lymph, business, human activities, Instrumentation, Image resolution, Intravital microscopy, Biomedical engineering

Abstract

The dynamic light scattering imaging (DLSI) system combined with the conventional fluorescence intravital microscope (FIM) has been applied for the examination of blood and lymph vessels in the mouse ear in vivo. While the CCD camera can be shared by both techniques the combined application of DLSI and FIM allows rapid switching between the modalities. In current study temporal speckles fluctuations are used for rendering blood vessels structure and monitoring blood perfusion with the higher spatial resolution, whereas FIM provides the images of lymphatic vessels. The results clearly demonstrate that combined application of DLSI and FIM approaches provides synchronic in vivo images of blood and lymph vessels with higher contrast and specificity. The use of this new dual-modal diagnostic system is particularly important and has a great potential to significantly expand the capabilities of vascular diagnostics providing synchronic in vivo images of blood and lymph vessels.

Published

2010

39. RGD-labeled USPIO Inhibits Adhesion and Endocytotic Activity of αvβ3-Integrin–expressing Glioma Cells and Only Accumulates in the Vascular Tumor Compartment

Author

Michael Eisenhut, Hanswalter Zentgraf, Eva C. Woenne, Margareta M. Mueller, Jochen Huppert, Michal Neeman, Wolfhard Semmler, Fabian Kiessling, Chunfu Zhang, Stefan Zwick, Jabadurai Jayapaul, and Yoseph Addadi

Subjects

Umbilical Veins, Pathology, medicine.medical_specialty, Endothelium, Cell Survival, Integrin, Contrast Media, Fluorescent Antibody Technique, Mice, Nude, Mice, Cell Line, Tumor, Glioma, Cell Adhesion, medicine, Animals, Humans, Compartment (development), Radiology, Nuclear Medicine and imaging, Magnetite Nanoparticles, Cell adhesion, Cells, Cultured, Ovarian Neoplasms, biology, business.industry, Dextrans, Adhesion, Integrin alphaVbeta3, medicine.disease, Magnetic Resonance Imaging, Endocytosis, Ferrosoferric Oxide, Cell biology, medicine.anatomical_structure, Cell culture, biology.protein, Female, Endothelium, Vascular, Glioblastoma, business, Oligopeptides, Neoplasm Transplantation, Blood vessel

Abstract

To investigate the biologic effect of arginine-glycine-aspartic acid (RGD)-labeled ultrasmall superparamagnetic iron oxide (USPIO) (referred to as RGD-USPIO) on human umbilical vein endothelial cells (HUVECs), ovarian carcinoma (MLS) cells, and glioblastoma (U87MG) cells and on U87MG xenografts in vivo.All experiments were approved by the governmental review committee on animal care.USPIOs were coated with integrin-specific (RGD) or unspecific (arginine-alanine-aspartic acid [RAD]) peptides. USPIO uptake in HUVECs, MLS cells, and U87MG cells and in U87MG tumor xenografts was determined with T2 magnetic resonance (MR) relaxometry in 16 nude mice. Cells and tumors were characterized by using immunofluorescence microscopy. Trypan blue staining and lactate dehydrogenase assay were used to assess cytotoxicity. Statistical evaluation was performed by using a Mann-Whitney test or a linear mixed model with random intercept for the comparison of data from different experiments. Post hoc pairwise comparisons were adjusted according to a Tukey test.HUVECs and MLS cells internalized RGD-USPIOs significantly more than unspecific probes. Controversially, U87MG cells accumulated RGD-USPIOs to a lesser extent than USPIO. Furthermore, only in U87MG cells, free RGD and alpha(v)beta(3) integrin-blocking antibodies strongly reduced endocytosis of nonspecific USPIOs. This was accompanied by a loss of cadherin-dependent intercellular contacts, which could not be attributed to cell damage. In U87MG tumors, RGD-USPIO accumulated exclusively at the neovasculature but not within tumor cells. The vascular accumulation of RGD-USPIO caused significantly higher changes of the R2 relaxation rate of tumors than observed for USPIO.In glioma cells with unstable intercellular contacts, inhibition of alpha(v)beta(3) integrins by antibodies and RGD and RGD-USPIO disintegrated intercellular contacts and reduced endocytotic activity, illustrating the risk of inducing biologic effects by using molecular MR probes.

Published

2009

40. In vivo Imaging of the Systemic Recruitment of Fibroblasts to the Angiogenic Rim of Ovarian Carcinoma Tumors

Author

Yoseph Addadi, Dorit Granot, Vyacheslav Kalchenko, Leoni A. Kunz-Schughart, Michal Neeman, and Alon Harmelin

Subjects

Ovarian Neoplasms, Cancer Research, Pathology, medicine.medical_specialty, Spectroscopy, Near-Infrared, Stromal cell, Neovascularization, Pathologic, Fibroblasts, Biology, Magnetic Resonance Imaging, Article, Mice, Ovarian tumor, Oncology, Stroma, Cell Movement, Tumor progression, In vivo, Ovarian carcinoma, medicine, Animals, Humans, Female, Preclinical imaging, Ex vivo

Abstract

Tumor-associated stroma, in general, and tumor fibroblasts and myofibroblasts, in particular, play a role in tumor progression. We previously reported that myofibroblast infiltration into implanted ovarian carcinoma spheroids marked the exit of tumors from dormancy and that these cells contributed to vascular stabilization in ovarian tumors by expression of angiopoietin-1 and angiopoietin-2. Ex vivo labeling of fibroblasts with either magnetic resonance or optical probes rendered them detectable for in vivo imaging. Thus, magnetic resonance imaging (MRI) follow-up was feasible by biotin-bovine serum albumin-gadolinium diethylenetriaminepentaacetic acid or iron oxide particles, whereas labeling with near-IR and fluorescent vital stains enabled in vivo visualization by near-IR imaging and two-photon microscopy. Using this approach, we show here that prelabeled fibroblasts given i.p. to CD-1 nude mice can be followed in vivo by MRI and optical imaging over several days, revealing their extensive recruitment into the stroma of remote s.c. MLS human epithelial ovarian carcinoma tumors. Two-photon microscopy revealed the alignment of these invading fibroblasts in the outer rim of the tumor, colocalizing with the angiogenic neovasculature. Such angiogenic vessels remained confined to the stroma tracks within the tumor and did not penetrate the tumor nodules. These results provide dynamic evidence for the role of tumor fibroblasts in maintenance of functional tumor vasculature and offer means for image-guided targeting of these abundant stroma cells to the tumor as a possible mechanism for cellular cancer therapy. [Cancer Res 2007;67(19):9180–9]

Published

2007

41. Ovarian Dendritic Cells Act as a Double-Edged Pro-Ovulatory and Anti-Inflammatory Sword

Author

Gil Mor, Inna Solomonov, Ari Tadmor, Naama Meterani, Tal Raz, Nava Dekel, Michal Neeman, Nava Nevo, Irit Sagi, Yoseph Addadi, and Adva Cohen-Fredarow

Subjects

Ovulation, endocrine system, media_common.quotation_subject, Anti-Inflammatory Agents, Ovary, Inflammation, Mice, Transgenic, Biology, Chorionic Gonadotropin, Mice, Endocrinology, Immune system, Ovarian Follicle, Corpus Luteum, medicine, Animals, Diphtheria Toxin, Ovarian follicle, Lymphangiogenesis, Molecular Biology, Progesterone, media_common, Original Research, Ovum, Cumulus Cells, General Medicine, Dendritic Cells, Cell sorting, Antigens, Differentiation, Cell biology, CD11c Antigen, Transplantation, Mice, Inbred C57BL, medicine.anatomical_structure, Immunology, Oocytes, Female, medicine.symptom, Corpus luteum

Abstract

Ovulation and inflammation share common attributes, including immune cell invasion into the ovary. The present study aims at deciphering the role of dendritic cells (DCs) in ovulation and corpus luteum formation. Using a CD11c-EYFP transgenic mouse model, ovarian transplantation experiments, and fluorescence-activated cell sorting analyses, we demonstrate that CD11c-positive, F4/80-negative cells, representing DCs, are recruited to the ovary under gonadotropin regulation. By conditional ablation of these cells in CD11c-DTR transgenic mice, we revealed that they are essential for expansion of the cumulus-oocyte complex, release of the ovum from the ovarian follicle, formation of a functional corpus luteum, and enhanced lymphangiogenesis. These experiments were complemented by allogeneic DC transplantation after conditional ablation of CD11c-positive cells that rescued ovulation. The pro-ovulatory effects of these cells were mediated by up-regulation of ovulation-essential genes. Interestingly, we detected a remarkable anti-inflammatory capacity of ovarian DCs, which seemingly serves to restrict the ovulatory-associated inflammation. In addition to discovering the role of DCs in ovulation, this study implies the extended capabilities of these cells, beyond their classic immunologic role, which is relevant also to other biological systems.

Published

2014

42. Utilizing mitochondrial events as biomarkers for imaging apoptosis

Author

Yoseph Addadi, M Eifer, Atan Gross, N Yivgi-Ohana, and Michal Neeman

Subjects

Yellow fluorescent protein, Cancer Research, Time Factors, Immunology, Mice, Nude, Apoptosis, macromolecular substances, Mitochondrion, Mitochondrial apoptosis-induced channel, Mice, 03 medical and health sciences, Cellular and Molecular Neuroscience, Bimolecular fluorescence complementation, 0302 clinical medicine, Bcl-2-associated X protein, Bacterial Proteins, intravital microscopy, Biomarkers, Tumor, Tumor Cells, Cultured, Animals, Humans, protein interaction, programmed cell death, Caspase, bcl-2-Associated X Protein, 030304 developmental biology, 0303 health sciences, biology, Cytochrome c, fungi, Cytochromes c, Cell Biology, molecular imaging, Molecular biology, High-Throughput Screening Assays, Mitochondria, Rats, Cell biology, Luminescent Proteins, Microscopy, Fluorescence, 030220 oncology & carcinogenesis, biology.protein, Female, Original Article

Abstract

Cells undergoing apoptosis show a plethora of time-dependent changes. The available tools for imaging apoptosis in live cells rely either on the detection of the activity of caspases, or on the visualization of exposure of phosphatidyl serine in the outer leaflet of the cell membrane. We report here a novel method for the detection of mitochondrial events during apoptosis, namely translocation of Bax to mitochondria and release of cytochrome c (Cyt c) using bimolecular fluorescence complementation. Expression of split yellow fluorescent protein (YFP) fragments fused to Bax and Cyt c, resulted in robust induction of YFP fluorescence at the mitochondria of apoptotic cells with very low background. In vivo expression of split YFP protein fragments in liver hepatocytes and intra-vital imaging of subcutaneous tumor showed elevated YFP fluorescence upon apoptosis induction. Thus, YFP complementation could be applied for high-throughput screening and in vivo molecular imaging of mitochondrial events during apoptosis.

Published

2011

43. p53 Status in Stromal Fibroblasts Modulates Tumor Growth in an SDF1-Dependent Manner

Author

Guillermina Lozano, Dorit Granot, Neta Moskovits, Michal Neeman, Yaron Carmi, Yoseph Addadi, Ron N. Apte, and Moshe Oren

Subjects

Male, Cancer Research, Stromal cell, Tumor suppressor gene, Immunoblotting, Transplantation, Heterologous, Cell, Mice, SCID, Biology, Article, Mice, 03 medical and health sciences, 0302 clinical medicine, Cell Line, Tumor, medicine, Animals, Humans, Stromal cell-derived factor 1, Stromal tumor, Luciferases, Fibroblast, Cells, Cultured, 030304 developmental biology, Mice, Knockout, 0303 health sciences, Reverse Transcriptase Polymerase Chain Reaction, Prostatic Neoplasms, Neoplasms, Experimental, Fibroblasts, Embryo, Mammalian, Chemokine CXCL12, Tumor Burden, Mice, Inbred C57BL, Transplantation, medicine.anatomical_structure, Oncology, Cell culture, 030220 oncology & carcinogenesis, Luminescent Measurements, Mutation, Cancer research, biology.protein, Stromal Cells, Tumor Suppressor Protein p53

Abstract

The p53 tumor suppressor exerts a variety of cell-autonomous effects that are aimed to thwart tumor development. In addition, however, there is growing evidence for cell nonautonomous tumor suppressor effects of p53. In the present study, we investigated the impact of stromal p53 on tumor growth. Specifically, we found that ablation of p53 in fibroblasts enabled them to promote more efficiently the growth of tumors initiated by PC3 prostate cancer-derived cells. This stimulatory effect was dependent on the increased expression of the chemokine SDF-1 in the p53-deficient fibroblasts. Notably, fibroblasts harboring mutant p53 protein were more effective than p53-null fibroblasts in promoting tumor growth. The presence of either p53-null or p53-mutant fibroblasts led also to a markedly elevated rate of metastatic spread of the PC3 tumors. These findings implicate p53 in a cell nonautonomous tumor suppressor role within stromal fibroblasts, through suppressing the production of tumor stimulatory factors by these cells. Moreover, expression of mutant p53 by tumor stroma fibroblasts might exert a gain of function effect, further accelerating tumor development. Cancer Res; 70(23); 9650–8. ©2010 AACR.

Published

2010

44. Combined use of fluorescent and dynamic light scattering imaging for applications in vascular biology

Author

Keren Ziv, Vyacheslav Kalchenko, Alon Harmelin, Yoseph Addadi, and Michal Neeman

Subjects

Microscope, Optics, Dynamic light scattering, law, business.industry, Fluorescence microscope, Beam expander, Image sensor, Laser, business, Fluorescence, Image resolution, law.invention

Abstract

We present an application of custom-designed Dynamic Light Scattering Imager (DLSI) in combination with conventional fluorescence intravital microscope (FIVM). The proposed technology was used for simultaneous examination of blood and lymphatic vessels in the mouse ear or tumor development. DLSI comprised a 650 nm diode laser with beam expander. Temporal fluctuations of laser interference pattern were used for rendering blood vessels anatomy and perfusion with a high spatial resolution. Concomitantly, various fluorescent contrast materials were used for labeling and visualization of lymphatic vessels or the tumor cells. The modular design of FIVM-DLSI allowed easy switching between different models of microscopes while conventional image sensors could be employed for both fluorescence and DLS imaging. We demonstrated that coupling with DLSI expands the fluorescent microscope imaging capabilities and does not compromise its ability to image with a high spatial resolution.

Published

2008

45. Removable Nanocoatings for siRNA Polyplexes.

Author

Libor Kostka, Čestmír Koňák, Vladimír Šubr, Milena Špírková, Yoseph Addadi, Michal Neeman, Twan Lammers, and Karel Ulbrich

Published

2011

46. BCR affinity differentially regulates colonization of the subepithelial dome and infiltration into germinal centers within Peyer’s patches

Author

Eitan Winter, Anneli Strömberg, Mats Bemark, Yoseph Addadi, Ziv Shulman, Adi Biram, Ran Salomon, Gur Yaari, Rony Dahan, and Liat Stoler-Barak

Subjects

0301 basic medicine, Immunoglobulin A, Immunology, Population, Receptors, Antigen, B-Cell, Mice, Transgenic, 03 medical and health sciences, Mice, Peyer's Patches, 0302 clinical medicine, Immune system, Antigen, medicine, Immunology and Allergy, Animals, education, Clonal Selection, Antigen-Mediated, B cell, Mice, Knockout, education.field_of_study, B-Lymphocytes, biology, B cell selection, Germinal center, T-Lymphocytes, Helper-Inducer, Germinal Center, Molecular biology, 3. Good health, 030104 developmental biology, medicine.anatomical_structure, Microscopy, Fluorescence, biology.protein, Antibody, 030215 immunology, Signal Transduction

Abstract

Gut-derived antigens trigger immunoglobulin A (IgA) immune responses that are initiated by cognate B cells in Peyer's patches (PPs). These cells colonize the subepithelial domes (SEDs) of the PPs and subsequently infiltrate pre-existing germinal centers (GCs). Here we defined the pre-GC events and the micro-anatomical site at which affinity-based B cell selection occurred in PPs. Using whole-organ imaging, we showed that the affinity of the B cell antigen receptor (BCR) regulated the infiltration of antigen-specific B cells into GCs but not clonal competition in the SED. Follicular helper-like T cells resided in the SED and promoted its B cell colonization, independently of the magnitude of BCR affinity. Imaging and immunoglobulin sequencing indicated that selective clonal expansion ensued during infiltration into GCs. Thus, in contrast to the events in draining lymph nodes and spleen, in PPs, T cells promoted mainly the population expansion of B cells without clonal selection during pre-GC events. These findings have major implications for the design of oral vaccines.

47. Visualizing vascular permeability and lymphatic drainage using labeled serum albumin

Author

Katrien Vandoorne, Michal Neeman, and Yoseph Addadi

Subjects

Diagnostic Imaging, Cancer Research, Pathology, medicine.medical_specialty, Physiology, Angiogenesis, Clinical Biochemistry, Serum albumin, Biotin, Vascular permeability, Biology, Article, 030218 nuclear medicine & medical imaging, Capillary Permeability, Lymphatic System, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Interstitial space, medicine, Animals, Humans, Serum Albumin, Staining and Labeling, Albumin, Serum Albumin, Bovine, Pentetic Acid, Vascular endothelial growth factor, Lymphatic system, chemistry, Permeability (electromagnetism), 030220 oncology & carcinogenesis, biology.protein

Abstract

During the early stages of angiogenesis, following stimulation of endothelial cells by vascular endothelial growth factor (VEGF), the vascular wall is breached, allowing high molecular weight proteins to leak from the vessels to the interstitial space. This hallmark of angiogenesis results in deposition of a provisional matrix, elevation of the interstitial pressure and induction of interstitial convection. Albumin, the major plasma protein appears to be an innocent bystander that is significantly affected by these changes, and thus can be used as a biomarker for vascular permeability associated with angiogenesis. Traditionally, albumin leak in superficial organs was followed by colorimetry or morphometry with the use of albumin binding vital dyes. Over the last years, the introduction of tagged-albumin that can be detected by various imaging methods, such as magnetic resonance imaging and positron emission tomography, opened new possibilities for quantitative three dimension dynamic analysis of permeability in any organ. Using these tools it is now possible to follow not only vascular permeability, but also interstitial convection and lymphatic drain. Active uptake of tagged albumin by caveolae-mediated endocytosis opens the possibility for using labeled albumin for vital staining of cells and cell tracking. This approach was used for monitoring recruitment of perivascular stroma fibroblasts associated with tumor angiogenesis.

48. Nuclear lamin A/C promotes cancer cell survival and lung metastasis without restricting transendothelial migration

Author

Francesco Roncato, Marina Kizner, Sandeep Kumar Yadav, Diana Drago-Garcia, Ofer Regev, Ronen Alon, Ester Feldmesser, Sérgio F. de Almeida, Yossi Ovadya, Gabi Gerlitz, Nehora Levi, Sara W. Feigelson, Lukasz Kaczmarczyk, Samuel Ovadia, Yoseph Addadi, and João C. Sabino

Subjects

0303 health sciences, Gene knockdown, animal structures, Chemistry, Melanoma, Cell, medicine.disease, In vitro, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, Downregulation and upregulation, 030220 oncology & carcinogenesis, embryonic structures, Cancer cell, medicine, Cancer research, Nuclear lamina, Lamin, 030304 developmental biology

Abstract

The mechanisms by which the nuclear lamina of tumor cells controls their migration and survival are poorly understood. Lamin A and its variant lamin C are key nuclear lamina proteins that control nucleus stiffness and chromatin conformation. Downregulation of lamin A/C levels in two metastatic lines, B16F10 melanoma and E0771 breast carcinoma, facilitated cell squeezing through rigid pores, elevated nuclear deformability and reduced heterochromatin. Unexpectedly, the transendothelial migration of both cancer cells in vitro and in vivo, through lung capillaries, was not elevated by lamin A/C knockdown. Both cancer cells with lamin A/C knockdown grew normally in primary tumors and in vitro on rigid surfaces. Strikingly, however, both lamin A/C deficient melanoma and breast cancer cells grew poorly in 3D spheroids expanded in soft agar cultures. Experimental lung metastasis of both lamin A/C knockdown cells was also markedly reduced. Taken together, our results suggest that high content of lamin A/C in multiple cancer cells promotes cancer cell survival and ability to generate lung metastasis without compromising cancer cell emigration from lung vessels.

49. Transcriptional Regulation of Vascular Endothelial Growth Factor C by Oxidative and Thermal Stress Is Mediated by Lens Epithelium-Derived Growth Factor/p75

Author

Alon Harmelin, Gila Meir, Michal Neeman, Stav Sapoznik, Shifra Ben-Dor, Batya Cohen, Vyacheslav Kalchenko, and Yoseph Addadi

Subjects

Cancer Research, Small interfering RNA, Chromatin Immunoprecipitation, Lung Neoplasms, Angiogenesis, medicine.medical_treatment, Immunoblotting, Molecular Sequence Data, Vascular Endothelial Growth Factor C, Biology, Response Elements, Transfection, lcsh:RC254-282, 03 medical and health sciences, chemistry.chemical_compound, Mice, 0302 clinical medicine, Carcinoma, Non-Small-Cell Lung, medicine, Animals, Humans, RNA, Messenger, RNA, Small Interfering, Luciferases, Promoter Regions, Genetic, In Situ Hybridization, 030304 developmental biology, Regulation of gene expression, 0303 health sciences, Base Sequence, Reverse Transcriptase Polymerase Chain Reaction, Growth factor, Glioma, Hyperthermia, Induced, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Lymphangiogenesis, Rats, Vascular endothelial growth factor, Oxidative Stress, Vascular endothelial growth factor C, chemistry, Gene Expression Regulation, 030220 oncology & carcinogenesis, Mutation, Cancer research, Intercellular Signaling Peptides and Proteins, Ectopic expression, Research Article

Abstract

Vascular endothelial growth factor C (VEGF-C) plays a critical role in tumor lymphangiogenesis and lymph node metastasis. We report here that VEGF-C expression is regulated by microenvironmental stress including hyperthermia and oxidative stress. Furthermore, we show that this stress response is mediated by transcriptional activation mediated by lens epithelium-derived growth factor (LEDGF/p75). Ectopic expression of LEDGF/p75 in C6 rat glioma and in H1299 human non-small cell lung carcinoma induced VEGF-C expression in vitro, whereas in subcutaneous mouse tumor xenografts, LEDGF/p75 stimulated VEGF-C expression and augmented angiogenesis and lymphangiogenesis. Conversely, overexpression of a LEDGF/p75 native antisense or LEDGF/p75-targeted short interfering RNA downmodulated VEGF-C expression. LEDGF seemed to conferred this activity on binding to a conserved stress response element (STRE) located in the VEGF-C gene because mutating the STRE was sufficient for the suppression of basal and stress-induced activations of the VEGF-C promoter. Thus, the study reported here identified a role for LEDGF/p75 in stress-regulated transcriptional control of VEGF-C expression. These results provide a possible link for LEDGF/p75 in tumor lymphangiogenesis and cancer metastasis. Hence, our data suggest the LEDGF-VEGF-C axis as a putative biomarker for the detection of stress-induced lymphangiogenesis and LEDGF as a potential target for antimetastatic therapy.

50. LGR5 expressing skin fibroblasts define a major cellular hub perturbed in scleroderma

Author

Chamutal Gur, Shuang-Yin Wang, Fadi Sheban, Mor Zada, Baoguo Li, Fadi Kharouf, Hagit Peleg, Suhail Aamar, Adam Yalin, Daniel Kirschenbaum, Yolanda Braun-Moscovici, Diego Adhemar Jaitin, Tomer meir-salame, Efrat Hagai, Bjørt K. Kragesteen, Batia Avni, Sigal Grisariu, Chamutal Bornstein, Shir Shlomi-Loubaton, Eyal David, Rony Shreberk-Hassidim, Vered Molho-Pessach, Dalit Amar, Tomer Tzur, Rottem Kuint, Moshe Gross, Oren Barboy, Adi Moshe, Liat Fellus-Alyagor, Dana Hirsch, Yoseph Addadi, Shlomit Erenfeld, Moshe Biton, Tehila Tzemach, Anat Elazary, Yaakov Naparstek, Reut Tzemach, Assaf Weiner, Amir Giladi, Alexandra Balbir-Gurman, and Ido Amit

Subjects

Scleroderma, Systemic, Humans, Fibroblasts, Fibrosis, Cells, Cultured, Article, General Biochemistry, Genetics and Molecular Biology, Receptors, G-Protein-Coupled, Skin

Abstract

Systemic sclerosis (scleroderma, SSc) is an incurable autoimmune disease with high morbidity and mortality rates. Here, we conducted a population-scale single-cell genomic analysis of skin and blood samples of 56 healthy controls and 97 SSc patients at different stages of the disease. We found immune compartment dysfunction only in a specific subtype of diffuse SSc patients but global dysregulation of the stromal compartment, particularly in a previously undefined subset of LGR5(+)-scleroderma-associated fibroblasts (ScAFs). ScAFs are perturbed morphologically and molecularly in SSc patients. Single-cell multiome profiling of stromal cells revealed ScAF-specific markers, pathways, regulatory elements, and transcription factors underlining disease development. Systematic analysis of these molecular features with clinical metadata associates specific ScAF targets with disease pathogenesis and SSc clinical traits. Our high-resolution atlas of the sclerodermatous skin spectrum will enable a paradigm shift in the understanding of SSc disease and facilitate the development of biomarkers and therapeutic strategies.