Your search keyword '"Weissberg O"' showing total 9 results

1. Specific Susceptibility to COVID-19 in Adults with Down Syndrome (Mar, 10.1007/s12017-021-08651-5, 2021)

Author

Illouz, T, Biragyn, A, Frenkel-Morgenstern, M, Weissberg, O, Gorohovski, A, Merzon, E, Green, I, Iulita, F, Flores-Aguilar, L, Dierssen, M, De Toma, I, Lifshitz, H, Antonarakis, SE, Yu, EE, Herault, Y, Potier, MC, Botte, A, Roper, R, Sredni, B, Sarid, R, London, J, Mobley, W, Strydom, A, and Okun, E

Abstract

A correction to this paper has been published: https://doi.org/10.1007/s12017-021-08657-z

Published

2021

2. A hybrid verification approach: Getting deep into the design

Author

Hazelhurst, S., primary, Kamhi, G., additional, Weissberg, O., additional, and Fix, L., additional

Published

2002

3. Diversity in the utilization of different molecular classes of dissolved organic matter by heterotrophic marine bacteria.

Author

Givati S, Forchielli E, Aharonovich D, Barak N, Weissberg O, Belkin N, Rahav E, Segrè D, and Sher D

Subjects

Mediterranean Sea, Microbiota, Amino Acids metabolism, Organic Chemicals metabolism, Seawater microbiology, Heterotrophic Processes, Bacteria classification, Bacteria metabolism, Bacteria genetics, Bacteria isolation & purification

Abstract

Heterotrophic marine bacteria utilize and recycle dissolved organic matter (DOM), impacting biogeochemical cycles. It is currently unclear to what extent distinct DOM components can be used by different heterotrophic clades. Here, we ask how a natural microbial community from the Eastern Mediterranean Sea (EMS) responds to different molecular classes of DOM (peptides, amino acids, amino sugars, disaccharides, monosaccharides, and organic acids) comprising much of the biomass of living organisms. Bulk bacterial activity increased after 24 h for all treatments relative to the control, while glucose and ATP uptake decreased or remained unchanged. Moreover, while the per-cell uptake rate of glucose and ATP decreased, that of Leucin significantly increased for amino acids, reflecting their importance as common metabolic currencies in the marine environment. Pseudoalteromonadaceae dominated the peptides treatment, while different Vibrionaceae strains became dominant in response to amino acids and amino sugars. Marinomonadaceae grew well on organic acids, and Alteromonadaseae on disaccharides. A comparison with a recent laboratory-based study reveals similar peptide preferences for Pseudoalteromonadaceae , while Alteromonadaceae , for example, grew well in the lab on many substrates but dominated in seawater samples only when disaccharides were added. We further demonstrate a potential correlation between the genetic capacity for degrading amino sugars and the dominance of specific clades in these treatments. These results highlight the diversity in DOM utilization among heterotrophic bacteria and complexities in the response of natural communities., Importance: A major goal of microbial ecology is to predict the dynamics of natural communities based on the identity of the organisms, their physiological traits, and their genomes. Our results show that several clades of heterotrophic bacteria each grow in response to one or more specific classes of organic matter. For some clades, but not others, growth in a complex community is similar to that of isolated strains in laboratory monoculture. Additionally, by measuring how the entire community responds to various classes of organic matter, we show that these results are ecologically relevant, and propose that some of these resources are utilized through common uptake pathways. Tracing the path between different resources to the specific microbes that utilize them, and identifying commonalities and differences between different natural communities and between them and lab cultures, is an important step toward understanding microbial community dynamics and predicting how communities will respond to perturbations., Competing Interests: The authors declare no conflict of interest.

Published

2024

4. Phototroph-heterotroph interactions during growth and long-term starvation across Prochlorococcus and Alteromonas diversity.

Author

Weissberg O, Aharonovich D, and Sher D

Subjects

Ecosystem, Microbial Interactions, Bacteria, Prochlorococcus metabolism, Alteromonas genetics

Abstract

Due to their potential impact on ecosystems and biogeochemistry, microbial interactions, such as those between phytoplankton and bacteria, have been studied intensively using specific model organisms. Yet, to what extent interactions differ between closely related organisms, or how these interactions change over time, or culture conditions, remains unclear. Here, we characterize the interactions between five strains each of two globally abundant marine microorganisms, Prochlorococcus (phototroph) and Alteromonas (heterotroph), from the first encounter between individual strains and over more than a year of repeated cycles of exponential growth and long-term nitrogen starvation. Prochlorococcus-Alteromonas interactions had little effect on traditional growth parameters such as Prochlorococcus growth rate, maximal fluorescence, or lag phase, affecting primarily the dynamics of culture decline, which we interpret as representing cell mortality and lysis. The shape of the Prochlorococcus decline curve and the carrying capacity of the co-cultures were determined by the phototroph and not the heterotroph strains involved. Comparing various mathematical models of culture mortality suggests that Prochlorococcus death rate increases over time in mono-cultures but decreases in co-cultures, with cells potentially becoming more resistant to stress. Our results demonstrate intra-species differences in ecologically relevant co-culture outcomes. These include the recycling efficiency of N and whether the interactions are mutually synergistic or competitive. They also highlight the information-rich growth and death curves as a useful readout of the interaction phenotype., (© 2022. The Author(s).)

Published

2023

5. Single-cell measurements and modelling reveal substantial organic carbon acquisition by Prochlorococcus.

Author

Wu Z, Aharonovich D, Roth-Rosenberg D, Weissberg O, Luzzatto-Knaan T, Vogts A, Zoccarato L, Eigemann F, Grossart HP, Voss M, Follows MJ, and Sher D

Subjects

Carbon, Heterotrophic Processes, Autotrophic Processes, Photosynthesis, Prochlorococcus genetics

Abstract

Marine phytoplankton are responsible for about half of the photosynthesis on Earth. Many are mixotrophs, combining photosynthesis with heterotrophic assimilation of organic carbon, but the relative contribution of these two lifestyles is unclear. Here single-cell measurements reveal that Prochlorococcus at the base of the photic zone in the Eastern Mediterranean Sea obtain only ~20% of carbon required for growth by photosynthesis. This is supported by laboratory-calibrated calculations based on photo-physiology parameters and compared with in situ growth rates. Agent-based simulations show that mixotrophic cells could grow tens of metres deeper than obligate photo-autotrophs, deepening the nutricline by ~20 m. Time series from the North Atlantic and North Pacific indicate that, during thermal stratification, on average 8-10% of the Prochlorococcus cells live without enough light to sustain obligate photo-autotrophic populations. Together, these results suggest that mixotrophy underpins the ecological success of a large fraction of the global Prochlorococcus population and its collective genetic diversity., (© 2022. The Author(s).)

Published

2022

6. Correction to: Specific Susceptibility to COVID-19 in Adults with Down Syndrome.

Author

Illouz T, Biragyn A, Frenkel-Morgenstern M, Weissberg O, Gorohovski A, Merzon E, Green I, Iulita F, Flores-Aguilar L, Dierssen M, De Toma I, Lifshitz H, Antonarakis SE, Yu E, Herault Y, Potier MC, Botté A, Roper R, Sredni B, Sarid R, London J, Mobley W, Strydom A, and Okun E

Published

2021

7. Specific Susceptibility to COVID-19 in Adults with Down Syndrome.

Author

Illouz T, Biragyn A, Frenkel-Morgenstern M, Weissberg O, Gorohovski A, Merzon E, Green I, Iulita F, Flores-Aguilar L, Dierssen M, De Toma I, Lifshitz H, Antonarakis SE, Yu E, Herault Y, Potier MC, Botté A, Roper R, Sredni B, Sarid R, London J, Mobley W, Strydom A, and Okun E

Subjects

Adolescent, Adult, Alzheimer Disease complications, Alzheimer Disease epidemiology, Alzheimer Disease immunology, COVID-19 complications, COVID-19 prevention & control, COVID-19 Vaccines administration & dosage, COVID-19 Vaccines immunology, Comorbidity, Down Syndrome complications, Down Syndrome immunology, Female, Hospitalization, Humans, Immune System abnormalities, Incidence, Male, Pandemics prevention & control, Prevalence, Risk Factors, Vaccination methods, COVID-19 epidemiology, COVID-19 virology, Disease Susceptibility immunology, Disease Susceptibility virology, Down Syndrome epidemiology

Abstract

The current SARS-CoV-2 outbreak, which causes COVID-19, is particularly devastating for individuals with chronic medical conditions, in particular those with Down Syndrome (DS) who often exhibit a higher prevalence of respiratory tract infections, immune dysregulation and potential complications. The incidence of Alzheimer's disease (AD) is much higher in DS than in the general population, possibly increasing further the risk of COVID-19 infection and its complications. Here we provide a biological overview with regard to specific susceptibility of individuals with DS to SARS-CoV-2 infection as well as data from a recent survey on the prevalence of COVID-19 among them. We see an urgent need to protect people with DS, especially those with AD, from COVID-19 and future pandemics and focus on developing protective measures, which also include interventions by health systems worldwide for reducing the negative social effects of long-term isolation and increased periods of hospitalization., (© 2021. The Author(s).)

Published

2021

8. The Mechanisms of CHD8 in Neurodevelopment and Autism Spectrum Disorders.

Author

Weissberg O and Elliott E

Subjects

Animals, DNA-Binding Proteins genetics, Disease Models, Animal, Humans, Mice, Phenotype, Transcription Factors genetics, Autism Spectrum Disorder physiopathology, DNA-Binding Proteins physiology, Neurodevelopmental Disorders physiopathology, Transcription Factors physiology

Abstract

Chromodomain-helicase-DNA-binding protein 8 (CHD8) has been identified as one of the genes with the strongest association with autism. The CHD8 protein is a transcriptional regulator that is expressed in nearly all cell types and has been implicated in multiple cellular processes, including cell cycle, cell adhesion, neuronal development, myelination, and synaptogenesis. Considering the central role of CHD8 in the genetics of autism, a deeper understanding of the physiological functions of CHD8 is important to understand the development of the autism phenotype and potential therapeutic targets. Different CHD8 mutant mouse models were developed to determine autism-like phenotypes and to fully understand their mechanisms. Here, we review the current knowledge on CHD8, with an emphasis on mechanistic lessons gained from animal models that have been studied.

Published

2021

9. Endowing human CD8 T cells with a veto-like recognition capacity via the electroporation of MHC-I/CD3ζ mRNA.

Author

Weissberg O and Gross G

Subjects

CD3 Complex genetics, CD8-Positive T-Lymphocytes pathology, Electroporation, Graft vs Host Disease genetics, Graft vs Host Disease pathology, H-2 Antigens genetics, Humans, Jurkat Cells, CD3 Complex immunology, CD8-Positive T-Lymphocytes immunology, Graft vs Host Disease immunology, H-2 Antigens immunology

Abstract

Graft-versus-host disease (GVHD) and transplant rejection as a result of host-versus-graft (HVG) response have remained two major complications of allogeneic hematopoietic stem cell transplantation (allo-HSCT). When donors are partially HLA-mismatched unrelated or haploidentical related, their severity correlates with the degree of HLA disparity. Specific elimination of alloreactive donor or recipient T cells targeting the mismatched HLA products could markedly alleviate both complications while only minimally affecting graft-versus-tumor (GVT) response or engraftment. To redirect human CD8 T cells against alloreactive CD8 T cells we electroporate these cells with in-vitro-transcribed mRNA encoding MHC-I heavy chains fused with the signaling portion of CD3ζ. Here we show that peripheral blood human CD8 T cells expressing H-2K b /CD3ζ or H-2K d /CD3ζ respond to anti-MHC-I stimuli in a strictly specific manner. This study paves the way for further advancing this approach as a means to dampen GVHD and HVG that are caused by HLA disparity in allo-HSCT., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019