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14. Candidate genes for behavioural ecology

Author

Fitzpatrick, M.J., Ben-Shahar, Y., Smid, H.M., Vet, L.E.M., Robinson, G., Sokolowski, M., Fitzpatrick, M.J., Ben-Shahar, Y., Smid, H.M., Vet, L.E.M., Robinson, G., and Sokolowski, M.

Abstract

In spite of millions of years of evolutionary divergence, the conservation of gene function is common across distant lineages. As such, genes that are known to influence behaviour in one organism are likely to influence similar behaviours in other organisms. Recent studies of the evolution of behaviour and morphological adaptation support this notion. Thus, the candidate gene approach offers great potential to expand our understanding of behavioural ecology. Changes in the expression of candidate genes can reveal their contribution to behavioural variation and/or phenotypic plasticity. Knowledge of gene function also enables experimental manipulation of behaviour in the lab and in the field. The candidate gene approach provides an accessible and useful tool for generating insights about animals that are not typically associated with genetic experimentation., In spite of millions of years of evolutionary divergence, the conservation of gene function is common across distant lineages. As such, genes that are known to influence behaviour in one organism are likely to influence similar behaviours in other organisms. Recent studies of the evolution of behaviour and morphological adaptation support this notion. Thus, the candidate gene approach offers great potential to expand our understanding of behavioural ecology. Changes in the expression of candidate genes can reveal their contribution to behavioural variation and/or phenotypic plasticity. Knowledge of gene function also enables experimental manipulation of behaviour in the lab and in the field. The candidate gene approach provides an accessible and useful tool for generating insights about animals that are not typically associated with genetic experimentation.

Published
2005

16. Neutrophil Extracellular Traps in Pediatric Inflammatory Bowel Disease: A Potential Role in Ulcerative Colitis.

Author

Shukrun R, Fidel V, Baron S, Unger N, Ben-Shahar Y, Cohen S, Elhasid R, and Yerushalmy-Feler A

Subjects
Humans, Child, Female, Male, Adolescent, Crohn Disease pathology, Crohn Disease metabolism, Crohn Disease blood, Crohn Disease immunology, Neutrophil Activation, Inflammatory Bowel Diseases pathology, Inflammatory Bowel Diseases metabolism, Inflammatory Bowel Diseases blood, Child, Preschool, Case-Control Studies, Biopsy, Pilot Projects, Extracellular Traps metabolism, Colitis, Ulcerative pathology, Colitis, Ulcerative metabolism, Colitis, Ulcerative blood, Colitis, Ulcerative immunology, Neutrophils metabolism, Neutrophils pathology
Abstract

Inflammatory bowel disease (IBD), encompassing Crohn's disease (CD) and ulcerative colitis (UC), is a chronic inflammatory condition of the gut affecting both adults and children. Neutrophil extracellular traps (NETs) are structures released by activated neutrophils, potentially contributing to tissue damage in various diseases. This study aimed to explore the presence and role of NETs in pediatric IBD. We compared intestinal biopsies and peripheral blood from 20 pediatric IBD patients (UC and CD) to controls. Biopsy staining and techniques for neutrophil activation were used to assess neutrophil infiltration and NET formation. We also measured the enzymatic activity of key NET proteins and evaluated NET formation in UC patients in remission. Both UC and CD biopsies showed significantly higher levels of neutrophils and NETs compared to controls ( p < 0.01), with UC exhibiting the strongest association. Peripheral blood neutrophils from UC patients at diagnosis displayed increased NET formation compared to controls and CD patients. Interestingly, NET formation normalized in UC patients following remission-inducing treatment. This pilot study suggests a potential role for NETs in pediatric IBD, particularly UC. These findings warrant further investigation into the mechanisms of NET involvement and the potential for targeting NET formation as a therapeutic strategy.

Published
2024
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17. Real-time, specific, and label-free transistor-based sensing of organophosphates in liquid.

Author

Samueli R, Babbar S, Ben-Shahar Y, Samanta S, Bhattarai S, Harilal S, Feldheim G, Pikhay E, Shehter I, Elkayam A, Bashouti MY, Akabayov B, Ron I, Roizin Y, and Shalev G

Abstract

Organophosphates (OP), commonly used in agriculture and as chemical warfare agents, pose significant environmental risks, necessitating real-time, low-cost OP detection methods. In particular, liquid-phase OP sensing with minimal sample volumes is crucial. While several methods allow rapid detection of low concentrations of OP vapors, they are effective only in the short term, while vapors are still being produced. Many OP compounds are semi-volatile, leading to the contamination of water, soil, and surfaces, posing a risk of secondary, long-term exposure. Detecting this contamination requires methods that can be directly applied to droplets of the affected medium. Currently, no method provides the desired combination of ultra-sensitivity, quantitative detection, rapid response, and low-cost for detecting OPs in liquid samples. This study aims to demonstrate quantitative, low-cost, real-time, specific, and label-free OP sensing in ultra-small samples using a transistor-based approach. The current work employs the 2-(4-Aminophenyl)-1,1,1,3,3,3-hexafluoro-2-propanol (aminophenyl-HFIP) functionalized meta-nano-channel field-effect chemical sensor (MNChem sensor) to monitor the organophosphate, diethyl cyanophosphonate (DCNP), in liquid samples. The silicon component of the MNChem is fabricated using a complementary metal-oxide semiconductor (CMOS) process, and the amine-based chemical functionalization of the sensing area is performed post-fabrication. The MNChem sensor provides electrostatic control over the source-drain current (I DS ), allowing an optimized channel configuration that efficiently transduces localized OP recognition events into significant I DS variations. Sensing is performed using 0.5 μL buffer solution to simulate a miniature field-deployable sensor for on-site liquid analysis. We report the sensing of DCNP with a limit-of-detection of 100 fg/mL, a dynamic range of 9 orders of magnitude, and excellent linearity (≥0.97) and sensitivity. Control measurements confirm the specificity and reliability of the sensor's response, validating its applicability. This study introduces a novel method for OP detection in contaminated droplets using a low-cost disposable transistor technology., Competing Interests: Declaration of competing interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Gil Shalev reports financial support was provided by The study was funded by the Israeli Ministry of Defense CBRN Defense Division. If there are other authors, they declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Inc. All rights reserved.)

Published
2024
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18. Extended total colonic aganglionosis and total intestinal aganglionosis: Challenging enemies.

Author

Eshel Fuhrer A, Govorukhina O, Becker G, Ben-Shahar Y, Moran-Lev H, and Sukhotnik I

Subjects
Humans, Retrospective Studies, Female, Male, Infant, Newborn, Infant, Hirschsprung Disease surgery
Abstract

Aim: Extended total colonic aganglionosis (ETCA) represents uncommon forms of Hirschsprung disease (HD), with aganglionosis extending into the proximal small bowel. ETCA management is challenging and associated with poor outcomes and high mortality. This study compares management and outcomes of ETCA to more common HD forms., Methods: A retrospective cohort of HD patients (2012-2023) from two institutions. Three HD forms were compared: short-segment HD (SSHD, n = 19), long-segment HD or total colonic aganglionosis (LS/TCA, n = 9) and ETCA (n = 7)., Results: Normally innervated segments in ETCA patients ranged 0-70 cm. Median times to first surgery were; ETCA = 3 days versus TCA = 21 days (p = 0.017) and SSHD = 95 days (p < 0.001), respectively. Median number of surgeries were; ETCA = 4, versus TCA = 2 (p = 0.17) and SSHD = 1 (p = 0.002), respectively. All the patients underwent a definitive pull-through procedure, except four ETCA patients with a permanent jejunostomy and residual aganglionic segment of 57-130 cm. ETCA patients had 92% lower odds of enterocolitis (14%) compared to TCA patients (67%, p = 0.054), and comparable odds to SSHD patients (16%, p = 0.92). ETCA mortality was 14%., Conclusion: Extended total colonic aganglionosis patients require earlier and multiple interventions. Leaving an aganglionic segment may be advantageous, without increasing risk for enterocolitis. Tailored surgical treatment and rehabilitation programmes may prevent mortality and need for transplantation., (© 2024 The Author(s). Acta Paediatrica published by John Wiley & Sons Ltd on behalf of Foundation Acta Paediatrica.)

Published
2024
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19. Vibrational spectroscopy characterization of impregnated activated carbon adsorption of H 2 S.

Author

Katz S, Pevzner A, Amitay-Rosen T, Marx S, Rotter H, Ben-Shahar Y, Aviram L, Lybman A, Shepelev V, and Nir I

Subjects
Adsorption, Spectroscopy, Fourier Transform Infrared methods, Filtration methods, Carbon chemistry, Hydrogen Sulfide chemistry, Spectrum Analysis, Raman methods, Charcoal chemistry, Copper chemistry
Abstract

Activated carbon filters are used for the removal of hazardous gases from the air. This research applied vibrational spectroscopy methods, including Fourier-transform infrared spectroscopy and Raman spectroscopy to characterize hydrogen sulfide adsorption on impregnated carbon materials with metals having reactivity toward hydrogen sulfide. The Fourier-transform infrared spectroscopy results demonstrated the formation of a new chemical bond between the impregnating metals and the sulfur, indicated by the appearance of a new band at 618 cm -1 . The Raman spectra results showed that for the copper-impregnated activated carbon with the highest hydrogen sulfide adsorption capacity, a new vibrational band at 475 cm -1 evolved, indicating a copper-sulfur bond. In addition, upshifts in the carbon D sub-bands were observed after efficient hydrogen sulfide adsorption, along with a larger area of the approximately 1500 cm -1 band. Therefore, Fourier-transform infrared spectroscopy and Raman spectroscopy combination can potentially indicate H 2 S adsorption on impregnated activated carbon filters.

Published
2024
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20. Suggested role for neutrophil extracellular trap formation in Ewing sarcoma immune microenvironment.

Author

Shukrun R, Baron S, Fidel V, Shusterman A, Sher O, Kollender N, Levin D, Peled Y, Gortzak Y, Ben-Shahar Y, Caspi R, Gordon S, Manisterski M, and Elhasid R

Subjects
Humans, Child, Neoplasm Recurrence, Local, Prognosis, Neutrophils pathology, Tumor Microenvironment, Sarcoma, Ewing genetics, Extracellular Traps
Abstract

Ewing sarcoma (EWS) is a highly aggressive cancer with a survival rate of 70%-80% for patients with localized disease and under 30% for those with metastatic disease. Tumor-infiltrating neutrophils (TIN) can generate extracellular net-like DNA structures known as neutrophil extracellular traps (NETs). However, little is known about the presence and prognostic significance of tumor-infiltrating NETs in EWS. Herein, we investigated 46 patients diagnosed with EWS and treated in the Tel Aviv Medical Center between 2010 and 2021. TINs and NETs were identified in diagnostic biopsies of EWS by immunofluorescence. In addition, NETs were investigated in neutrophils isolated from peripheral blood samples of EWS patients at diagnosis and following neoadjuvant chemotherapy. The relationships between the presence of TINs and NETs, pathological and clinical features, and outcomes were analyzed. Our results demonstrate that TIN and NETs at diagnosis were higher in EWS patients with metastatic disease compared with those with local disease. High NET formation at diagnosis predicted poor response to neoadjuvant chemotherapy, relapse, and death from disease (p < 0.05). NET formation in peripheral blood samples at diagnosis was significantly elevated among patients with EWS compared with pediatric controls and decreased significantly following neoadjuvant chemotherapy. In conclusion, NET formation seems to have a role in the EWS immune microenvironment. Their presence can refine risk stratification, predict chemotherapy resistance and survival, and serve as a therapeutic target in patients with EWS., (© 2023 The Authors. Cancer Science published by John Wiley & Sons Australia, Ltd on behalf of Japanese Cancer Association.)

Published
2024
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21. The mechanism of intestinal stem cells differentiation after ischemia-reperfusion injury in a rat model.

Author

Ben-Shahar Y, Vasserman V, Pollak Y, Kremer K, and Sukhotnik I

Subjects
Animals, Rats, Intestines, Cell Differentiation, Stem Cells, beta Catenin genetics, Reperfusion Injury
Abstract

Purpose: Notch and Wnt/β-catenin signaling are responsible for regulation of intestinal stem cells (ISCs) proliferation and differentiation. The purpose of the study was to evaluate Wnt/β-catenin and Notch signaling roles in regulation of ISC differentiation following ischemia-reperfusion (IR) injury in a rat., Methods: Rats were assigned into two groups: Sham rats underwent laparotomy without vascular intervention and IR rats underwent occlusion of SMA and portal vein for 20 min followed by 48 h of reperfusion. Wnt/β-catenin and Notch-related gene expression were determined using Real-Time PCR. Enterocyte proliferation, differentiation and Wnt-related proteins were determined by immunohistochemistry., Results: IR rats demonstrated a significant decrease in β-catenin gene expression, a decrease in cyclin D1 and β-catenin positive cells in jejunum and ileum compared to Sham rats. IR rats demonstrated a significant increase in Notch-related gene expression in jejunum and ileum compared to Sham rats. The number of secretory cells was higher mainly in the jejunum and number of absorptive cells was significantly lower in jejunum and lower in ileum in IR rats compared to Sham rats., Conclusions: Intestinal stem-cell differentiation is toward secretory cells 48 h after IR injury; however, Wnt/β-catenin pathway inhibition and Notch-related gene expression stimulation suggest crosstalk between pathways., (© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published
2023
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22. Neutrophils extracellular traps formation may serve as a biomarker for disease activity in oligoarticular juvenile idiopathic arthritis: a pilot study.

Author

Heshin-Bekenstein M, Baron S, Schulert G, Shusterman A, Fidel V, Ben-Shahar Y, Shukrun R, Binenbaum Y, and Elhasid R

Subjects
Child, Humans, Neutrophils, Pilot Projects, Biomarkers, Arthritis, Juvenile diagnosis, Arthritis, Juvenile drug therapy, Extracellular Traps
Abstract

Background: Juvenile idiopathic arthritis (JIA) is the most common chronic rheumatic disease in children, causing significant morbidity. Despite the dramatic improvement in treatment, many patients do not achieve complete remission, and biomarkers for subclinical disease, flares, and response to treatment are lacking. Neutrophils and neutrophil extracellular traps (NETs) play key roles in the pathogenesis of autoimmune and inflammatory conditions. In this study, we characterized neutrophil enzyme activity and NETs formation in oligoarticular and polyarticular JIA and explored their association with disease activity., Methods: Neutrophils from 6 healthy controls and 7 patients with oligoarticular and polyarticular JIA were freshly isolated at time of diagnosis and after glucocorticoid intra-articular injection. Enzymatic activity of neutrophil granular enzymes was monitored by colorimetry and PMA-activated NETs formation was assessed using fluorescent microscopy., Results: In this pilot and feasibility study, we revealed that NETs were significantly increased in oligoarticular JIA patients at time of diagnosis compared to healthy controls. Anti-inflammatory treatment using intra-articular steroid injection normalized NETs formation in these patients. Correlation between NETs formation and clinical Juvenile Activity Disease Activity Score-10 (cJADAS-10) was linear and significant (P = 0.007) in oligo but not in poly JIA patients., Conclusions: This is the first study exploring the link of NETs formation with oligo and poly JIA activity. We demonstrated a statistically significant linear correlation between cJADAS-10 and NETs formation in oligo but not in poly JIA patients. Hence, we suggest that NETs may reflect clinical disease activity in JIA, and may serve as a putative biomarker. Further work is needed to validate these initial results and determine the dynamics of NETs formation in JIA., (© 2023. The Author(s).)

Published
2023
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23. Stimuli Response of Eu 3+ -Based Metallo-Supramolecular Polymers toward Pharmaceutical Amines.

Author

Ben-Shahar Y, Shamai Yamin T, Marx S, Karton-Lifshin N, and Marciano D

Subjects
Europium chemistry, Polymers chemistry, Pharmaceutical Preparations, Amines, Lanthanoid Series Elements
Abstract

Metallo-supramolecular polymers offer a highly controllable platform for sensing. Their modular characteristics obtained by the ability of varying both building blocks, the metal ion and the organic ligand, provide tunability of their optical and chemical properties. Specifically, polymers based on lanthanide ions and conjugated aromatic ligands exhibit enhanced luminescence properties that can be altered by external stimulation. Herein, using europium-based polymers, we demonstrate the ability to detect different pharmaceutical amines, including in complex biological media, based on their luminescence quenching efficiency as a result of their polymer dissociation capacity. A combination of absorption, luminescence, and NMR measurements reveals combined static and dynamic quenching mechanisms that enable selective sensing of strong basic amines with high p K a values.

Published
2023
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24. Rich Landscape of Colloidal Semiconductor-Metal Hybrid Nanostructures: Synthesis, Synergetic Characteristics, and Emerging Applications.

Author

Ben-Shahar Y, Stone D, and Banin U

Abstract

Nanochemistry provides powerful synthetic tools allowing one to combine different materials on a single nanostructure, thus unfolding numerous possibilities to tailor their properties toward diverse functionalities. Herein, we review the progress in the field of semiconductor-metal hybrid nanoparticles (HNPs) focusing on metal-chalcogenides-metal combined systems. The fundamental principles of their synthesis are discussed, leading to a myriad of possible hybrid architectures including Janus zero-dimensional quantum dot-based systems and anisotropic quasi 1D nanorods and quasi-2D platelets. The properties of HNPs are described with particular focus on emergent synergetic characteristics. Of these, the light-induced charge-separation effect across the semiconductor-metal nanojunction is of particular interest as a basis for the utilization of HNPs in photocatalytic applications. The extensive studies on the charge-separation behavior and its dependence on the HNPs structural characteristics, environmental and chemical conditions, and light excitation regime are surveyed. Combining the advanced synthetic control with the charge-separation effect has led to demonstration of various applications of HNPs in different fields. A particular promise lies in their functionality as photocatalysts for a variety of uses, including solar-to-fuel conversion, as a new type of photoinitiator for photopolymerization and 3D printing, and in novel chemical and biomedical uses.

Published
2023
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25. A pleiotropic chemoreceptor facilitates the production and perception of mating pheromones.

Author

Vernier CL, Leitner N, Zelle KM, Foltz M, Dutton S, Liang X, Halloran S, Millar JG, and Ben-Shahar Y

Abstract

Optimal mating decisions depend on the robust coupling of signal production and perception because independent changes in either could carry a fitness cost. However, since the perception and production of mating signals are often mediated by different tissues and cell types, the mechanisms that drive and maintain their coupling remain unknown for most animal species. Here, we show that in Drosophila, behavioral responses to, and the production of, a putative inhibitory mating pheromone are co-regulated by Gr8a , a member of the Gustatory receptor gene family. Specifically, through behavioral and pheromonal data, we found that Gr8a independently regulates the behavioral responses of males and females to a putative inhibitory pheromone, as well as its production in the fat body and oenocytes of males. Overall, these findings provide a relatively simple molecular explanation for how pleiotropic receptors maintain robust mating signaling systems at the population and species levels., Competing Interests: The authors declare no competing interests., (© 2022 The Authors.)

Published
2022
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26. The role of gastrostomy feeding during intestinal rehabilitation for children with short bowel syndrome.

Author

Eshel Fuhrer A, Moran-Lev H, Dranitzki Y, Ben-Shahar Y, and Sukhotnik I

Subjects
Child, Humans, Infant, Newborn, Enteral Nutrition, Gastrostomy, Retrospective Studies, Intestines, Short Bowel Syndrome
Abstract

Purpose: Following extensive bowel resection, many children with short bowel syndrome (SBS) are routinely offered a placement of gastrostomy tube (G-tube) for feeding. This nutritional pathway is aimed to accommodate the gastric and small bowel motor disturbances related to SBS, and to promote weaning off parenteral nutrition (PN) to achieve enteral autonomy (EA). The aim of this study was to investigate the effect of gastrostomy feeding in outcomes of children with SBS., Methods: A retrospective cohort of all SBS children managed at our multidisciplinary Intestinal Rehabilitation Center as part of an Intestinal Rehabilitation Program. SBS was defined as PN dependence for more than six weeks following extensive bowel resection. Patients treated with G-tube feeding were compared with patients without G-tube in terms of PN duration, reaching EA, physical development, and surgical parameters., Results: A total of 36 SBS patients diagnosed between 2003 and 2022 were included. The most common etiologies included congenital intestinal atresia (31%) and necrotizing enterocolitis (25%). SBS-G-tube (group A) contained 20 children, and SBS (group B) contained 16 children. A total of 21 children reached EA (58%); ten from group A (50%), and 11 from group B (69%) (p > 0.05). Within EA patients, mean PN duration was 49 ± 44 months in group A, and 24 ± 33 months in group B (p > 0.05). Patients who reached EA had 22% longer residual small bowel when compared with PN-dependent patients (p = 0.003). However, the outcomes were adjusted for residual small and large bowel length and percentages, a residual ileocecal valve, and a colon in continuity with no differences between the groups. Two-thirds of children from group A reported G-tube related complications (mechanical, bleeding, or infections). We did not find differences in mean height and weight percentiles between the groups (p > 0.05)., Conclusion: We did not find significant advantage of gastrostomy feeding in reaching EA. Because there are surgical and mechanical complications related to this procedure, further prospective studies are required to determine G-tube relevance for children with SBS., (© 2022. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published
2022
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27. Motility disorders in children with intestinal failure: a national tertiary referral center experience.

Author

Eshel Fuhrer A, Sukhotnik S, Moran-Lev H, Kremer K, Ben-Shahar Y, and Sukhotnik I

Subjects
Infant, Child, Humans, Female, Retrospective Studies, Tertiary Care Centers, Treatment Outcome, Intestinal Failure, Short Bowel Syndrome surgery, Liver Transplantation adverse effects
Abstract

Purpose: Intestinal dysmotility (ID) problems are common in patients with pediatric-onset intestinal failure (IF) and short bowel syndrome (SBS), leading to significant morbidity and delays in the advancement of enteral nutrition (EN). We aimed to investigate the clinical features and complications of ID in children with IF and SBS., Methods: Retrospective chart review of all children with IF and/or SBS who required parenteral nutrition (PN) > 6 weeks or small-intestinal resection ≥ 50%. Patients were divided into SBS and non-SBS groups. SBS group was divided into two subgroups: with and without ID. Patients with ID were identified (clinically, radiologically and functionally) and analyzed with regard to demographics, intestinal anatomy, complications and outcomes (short and long term)., Results: A total of 42 children with IF were treated in our institution during 2003-2022. In non-SBS group (n = 10), ID was the most common cause of IF (80%). SBS-group included 32 children; 18 children (56%) developed ID. The clinical profile of SBS-ID patients (vs SBS) was: female gender (56%), remaining small bowel length ≤ 55 cm, estimated residual small bowel ≤ 28% (p = 0.045) and absence of ICV (56%). Common symptoms of the SBS-ID group were: food intolerance (61%), abdominal distension (50%), vomiting (44%), malabsorption and severe constipation. Complications included FTT (67%) (p = 0.003), bacterial overgrowth with subsequent bloodstream infection (33%) (p = 0.75), and lactic acidosis (11%). Lengthening procedure (STEP) was performed in 11 SBS-ID patients (61%) (p = 0.002). In all patients, STEP operation "rescued" their dysfunctional intestine. Eight of these patients (73%) were weaned from TPN. Survival rate was 100%; however, one SBS-ID patient is a candidate for combined intestinal and liver transplantation., Conclusions: ID is the most common complication of SBS and is the most common cause of IF in non-SBS patients. ID has a high morbidity rate and various clinical manifestations. Successful treatment of these infants may be achieved with the use of tapering enteroplasty., (© 2022. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published
2022
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28. Genetic and viral approaches to record or manipulate neurons in insects.

Author

Dierick HA, Ben-Shahar Y, Raman B, and Gabbiani F

Subjects
Animals, Calcium, Insecta genetics, Neurons, Neurosciences, Optogenetics
Abstract

The development of genetically encoded tools to record and manipulate neurons in vivo has greatly increased our understanding of how neuronal activity affects behavior. Recent advances enable the use of these tools in species not typically considered genetically tractable. This progress is revolutionizing neuroscience in general, and insect neuroethology in particular. Here we cover the latest innovations and some of their applications in phylogenetically diverse insect species. We discuss the importance and implications of these approaches for both basic and translational research. We focus on genetically encoded and virally encoded tools used for calcium imaging, optogenetics, and synaptic silencing. Finally, we discuss potential future developments of universally applicable, modular, and user-friendly genetic toolkits for neuroethological studies of insect behavior., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published
2021
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29. The foraging gene as a modulator of division of labour in social insects.

Author

Lucas C and Ben-Shahar Y

Subjects
Animals, Behavior, Animal physiology, Cyclic GMP-Dependent Protein Kinases genetics, Insecta genetics, Social Behavior
Abstract

The social ants, bees, wasps, and termites include some of the most ecologically-successful groups of animal species. Their dominance in most terrestrial environments is attributed to their social lifestyle, which enable their colonies to exploit environmental resources with remarkable efficiency. One key attribute of social insect colonies is the division of labour that emerges among the sterile workers, which represent the majority of colony members. Studies of the mechanisms that drive division of labour systems across diverse social species have provided fundamental insights into the developmental, physiological, molecular, and genomic processes that regulate sociality, and the possible genetic routes that may have led to its evolution from a solitary ancestor. Here we specifically discuss the conserved role of the foraging gene, which encodes a cGMP-dependent protein kinase (PKG). Originally identified as a behaviourally polymorphic gene that drives alternative foraging strategies in the fruit fly Drosophila melanogaster , changes in foraging expression and kinase activity were later shown to play a key role in the division of labour in diverse social insect species as well. In particular, foraging appears to regulate worker transitions between behavioural tasks and specific behavioural traits associated with morphological castes. Although the specific neuroethological role of foraging in the insect brain remains mostly unknown, studies in genetically tractable insect species indicate that PKG signalling plays a conserved role in the neuronal plasticity of sensory, cognitive and motor functions, which underlie behaviours relevant to division of labour, including appetitive learning, aggression, stress response, phototaxis, and the response to pheromones.

Published
2021
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30. The genetic architecture of larval aggregation behavior in Drosophila .

Author

McKinney RM, Valdez R, and Ben-Shahar Y

Subjects
Animals, Larva, Social Behavior, Acyltransferases genetics, Drosophila Proteins genetics, Drosophila melanogaster genetics, Feeding Behavior physiology
Abstract

Many insect species exhibit basal social behaviors such as aggregation, which play important roles in their feeding and mating ecologies. However, the evolutionary, genetic, and physiological mechanisms that regulate insect aggregation remain unknown for most species. Here, we used natural populations of Drosophila melanogaster to identify the genetic architecture that drives larval aggregation feeding behavior. By using quantitative and reverse genetic approaches, we have identified a complex neurogenetic network that plays a role in regulating the decision of larvae to feed in either solitude or as a group. Results from single gene, RNAi-knockdown experiments show that several of the identified genes represent key nodes in the genetic network that determines the level of aggregation while feeding. Furthermore, we show that a single non-coding variant in the gene CG14205 , a putative acyltransferase, is associated with both decreased mRNA expression and increased aggregate formation, which suggests that it has a specific role in inhibiting aggregation behavior. Our results identify, for the first time, the genetic components which interact to regulate naturally occurring levels of aggregation in D. melanogaster larvae.

Published
2021
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31. The Mechanisms of the Anti-Inflammatory and Anti-Apoptotic Effects of Omega-3 Polyunsaturated Fatty Acids during Methotrexate-Induced Intestinal Damage in Cell Line and in a Rat Model.

Author

Koppelmann T, Pollak Y, Ben-Shahar Y, Gorelik G, and Sukhotnik I

Subjects
Animals, Anti-Inflammatory Agents pharmacology, Cell Proliferation, Cell Survival drug effects, Cyclooxygenase 2 metabolism, Enterocytes cytology, Enterocytes drug effects, Fatty Acids, Omega-3 pharmacology, HCT116 Cells, HT29 Cells, Humans, Intestinal Mucosa drug effects, Intestinal Mucosa metabolism, Male, Mucositis chemically induced, Mucositis metabolism, Mucositis pathology, NF-kappa B metabolism, Rats, Rats, Sprague-Dawley, Anti-Inflammatory Agents administration & dosage, Apoptosis drug effects, Cytokines metabolism, Fatty Acids, Omega-3 administration & dosage, Intestinal Mucosa cytology, Methotrexate toxicity, Mucositis therapy
Abstract

Background: The aim of this study was to examine the anti-inflammatory and anti-apoptotic patterns of omega-3 polyunsaturated fatty acids (n-3 PUFAs) during methotrexate (MTX) induced intestinal damage in cell culture and in a rat model. Methods: Non-treated and treated with MTX HT 29 and HCT116cells were exposed to increasing doses of n-3 PUFAs and cell viability was evaluated using PrestoBlue ® assay. Male Sprague-Dawley rats were divided into 4 experimental groups: Control rats, CONTR+n-3 PUFA rats that were treated with oral n-3 PUFA, MTX rats were treated with MTX given IP, and MTX+n-3 PUFA rats were treated with oral n-3 PUFA before and following injection of MTX. Intestinal mucosal parameters and mucosal inflammation, enterocyte proliferation and apoptosis, TNF-α in mucosal tissue and plasma (ELISA), NF-κB, COX-2, TNF-α, Fas, FasL, Fadd, Bid, Bax and Bcl-2gene and protein levels were determined 72 h following MTX injection. Results: Exposure of HT 29 and HCT116cells to n-3 PUFA attenuated inhibiting effects of MTX on cell viability. MTX-n-3 PUFA rats demonstrated a lower intestinal injury score and enhanced intestinal repair. A significant decrease in enterocyte apoptosis in MTX+n-3 PUFA rats was accompanied by decreased TNF-α, FAS, FasL, FADD and BID mRNA levels. Decreased NF-κB, COX-2 and TNF-α levels in mucosa was accompanied by a decreased number of IELs and macrophages. Conclusions: n-3 PUFAs inhibit NF-κB/COX-2 induced production of pro-inflammatory cytokines and inhibit cell apoptosis mainly by extrinsic pathway in rats with MTX-induced intestinal damage.

Published
2021
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32. Intestinal dysmotility after bowel resection in rats is associated with decreased ghrelin and vimentin expression and loss of intestinal cells of Cajal.

Author

Sukhotnik I, Ben-Shahar Y, Pollak Y, Cohen S, Moran-Lev H, Koppelmann T, and Gorenberg M

Subjects
Animals, Anoctamin-1 genetics, Anoctamin-1 metabolism, Ghrelin genetics, Interstitial Cells of Cajal pathology, Male, Postoperative Complications pathology, Rats, Rats, Sprague-Dawley, Short Bowel Syndrome etiology, Short Bowel Syndrome pathology, Transcriptome, Vimentin genetics, Colectomy adverse effects, Gastrointestinal Motility, Ghrelin metabolism, Interstitial Cells of Cajal metabolism, Postoperative Complications metabolism, Short Bowel Syndrome metabolism, Vimentin metabolism
Abstract

This study provides novel insight into the mechanisms of intestinal dysmotility following massive small bowel resection. We show that 2 wk after bowel resection in rats, impaired intestinal motility was associated with loss of interstitial cells of Cajal (ICC; downregulation of transmembrane member 16A (TMEM16A) and c-kit expression) as well as with decreased vimentin, desmin, and ghrelin levels. Impaired intestinal motility led to a decrease in final body weight, suggesting less effective nutrient absorption. The purpose of this study was to evaluate the mechanisms of intestinal motility in a rat model of short bowel syndrome (SBS). Rats were divided into three groups: Sham rats underwent bowel transection; SBS-NSI rats underwent a 75% bowel resection and presented with normal intestinal size (NSI) at euthanasia and hypermotility patterns; SBS-DYS showed dysmotile (DYS) enlarged intestine and inhibited motility patterns. Animals were euthanized after 2 wk. Illumina's digital gene expression (DGE) analysis was used to determine the intestinal motility-related gene expression profiling in mucosal samples. Intestinal motility-related and ICC genes and protein expression in intestinal muscle layer were determined using real-time PCR, Western blotting, and immunohistochemistry. Gastrointestinal tract motility was studied by microcomputer tomography. From 10 Ca 2+ signaling pathway-related genes, six genes in jejunum and seven genes in ileum were downregulated in SBS vs. Sham animals. Downregulation of TMEM16A mRNA and protein was confirmed by real-time PCR. Rapid intestinal transit time in SBS-NSI rats correlated with a mild decrease in TMEM16A, c-kit, and vimentin mRNA and protein expression (vs/. Sham animals). SBS-DYS rats demonstrated enlarged intestinal loops and delayed small intestinal emptying (on imaging studies) that were correlated with marked downregulation in TMEM16A, c-kit, vimentin, and ghrelin mRNA and protein levels compared with the other two groups. In conclusion, 2 wk following massive bowel resection in rats, impaired intestinal motility was associated with decreased vimentin and ghrelin gene and protein levels as well as loss of ICC (c-kit and TMEM16A). NEW & NOTEWORTHY This study provides novel insight into the mechanisms of intestinal dysmotility following massive small bowel resection. We show that 2 weeks after bowel resection in rats, impaired intestinal motility was associated with loss of interstitial cells of Cajal (downregulation of TMEM 16A, and c-kit expression) as well as with decreased vimentin, desmin, and ghrelin levels. Impaired intestinal motility led to decrease in final body weight, suggesting less effective nutrient absorption.

Published
2021
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33. Cell death induction (extrinsic versus intrinsic apoptotic pathway) by intestinal ischemia-reperfusion injury in rats is time-depended.

Author

Ben-Shahar Y, Abassi Z, Pollak Y, Koppelmann T, Gorelik G, and Sukhotnik I

Subjects
Animals, Blotting, Western, Cell Proliferation, Intestinal Mucosa metabolism, Intestines physiopathology, Rats, Rats, Sprague-Dawley, Signal Transduction, Apoptosis drug effects, Reperfusion Injury metabolism
Abstract

Purpose: We investigate the mechanism of intestinal cell apoptosis and its relation to the time of reperfusion in a rat model of intestinal ischemia-reperfusion (IR)., Methods: Rats were divided into 4 groups: Sham-24 and Sham-48 rats underwent laparotomy without an intentional ischemic intervention and were sacrificed 24 or 48 h hours later; IR-24 and IR-48 rats underwent occlusion of SMA and portal vein for 20 min followed by 24 or 48 h of reperfusion, respectively. Park's injury score, cell proliferation and apoptosis were determined at sacrifice. Proliferation and apoptosis-related gene and protein expression were determined using Real-Time PCR, Western Blot and Immunohistochemistry., Results: IR-24 rats demonstrated a strong increase in cell apoptosis along with an elevated Bax and decreased Bcl-2 expression and a decrease in cell proliferation (vs Sham-24). IR-48 group showed an increase in cell proliferation and a decrease in cell apoptosis compared to IR-24 animals. IR-48 rats demonstrated an increase in apoptotic rate that was accompanied by greater TNF-α mRNA, Fas mRNA and FasL mRNA compared to Sham-48 animals., Conclusion: While cell apoptosis in IR-24 rats is regulated mainly by intrinsic apoptotic pathway, 48 h followed ischemia extrinsic apoptotic pathway is responsible for pro-apoptotic effects of IR injury.

Published
2021
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34. Visualizing Ultrafast Electron Transfer Processes in Semiconductor-Metal Hybrid Nanoparticles: Toward Excitonic-Plasmonic Light Harvesting.

Author

Camargo FVA, Ben-Shahar Y, Nagahara T, Panfil YE, Russo M, Banin U, and Cerullo G

Abstract

Recently, it was demonstrated that charge separation in hybrid metal-semiconductor nanoparticles (HNPs) can be obtained following photoexcitation of either the semiconductor or of the localized surface plasmon resonance (LSPR) of the metal. This suggests the intriguing possibility of photocatalytic systems benefiting from both plasmon and exciton excitation, the main challenge being to outcompete other ultrafast relaxation processes. Here we study CdSe-Au HNPs using ultrafast spectroscopy with high temporal resolution. We describe the complete pathways of electron transfer for both semiconductor and LSPR excitation. In the former, we distinguish hot and band gap electron transfer processes in the first few hundred fs. Excitation of the LSPR reveals an ultrafast (<30 fs) electron transfer to CdSe, followed by back-transfer from the semiconductor to the metal within 210 fs. This study establishes the requirements for utilization of the combined excitonic-plasmonic contribution in HNPs for diverse photocatalytic applications.

Published
2021
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35. Predictive Value of Alvarado Score and Pediatric Appendicitis Score in the Success of Nonoperative Management for Simple Acute Appendicitis in Children.

Author

Fuhrer AE, Sukhotnik I, Ben-Shahar Y, Weinberg M, and Koppelmann T

Subjects
Administration, Intravenous, Adolescent, Child, Female, Humans, Male, Retrospective Studies, Risk Assessment, Treatment Outcome, Anti-Bacterial Agents administration & dosage, Appendicitis drug therapy, Conservative Treatment methods
Abstract

Introduction:  During the past decade, nonoperative management (NOM) for simple acute appendicitis (SAA) in children has been proven safe with noninferior complications rate. The aim of this study was to examine Alvarado score and pediatric appendicitis score (PAS) together with other factors in predicting failure of NOM in children presenting with SAA., Materials and Methods:  Patients aged 5 to 18 years admitted to our department between 2017 and 2019 diagnosed with SAA were given a choice between surgical management and NOM. We divided the NOM patients into two groups: successful treatment and failed NOM, comparing their files for Alvarado score and PAS and other clinical and demographic factors, with a mean follow-up of 7 months. Failure was determined as need for appendectomy following conservative treatment due to any reason., Results:  A total of 85 patients answered criteria and chose NOM. Overall failure rate was 32.9%. We found no difference in the mean Alvarado score and PAS as well as in each component of both scores between success and failed NOM groups. However, when using the risk classification of the scores, we found a significant correlation between high-risk Alvarado score and failed NOM. After adjusting for age, gender, duration of symptoms, diagnosis of tip appendicitis, and presence of appendicolith, the odds of failure were four times higher among high-risk Alvarado group., Conclusion:  Alvarado score of 7 or higher, older age, and diagnosis of an appendicolith on imaging are possible predictors for failure of NOM for SAA in children., Competing Interests: None declared., (Thieme. All rights reserved.)

Published
2021
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36. Anti-TNF-α Therapy Exerts Intestinal Anti-inflammatory and Anti-apoptotic Effects After Massive Bowel Resection in a Rat.

Author

Sukhotnik I, Ben-Shahar Y, Pollak Y, Cohen S, Guz-Mark A, and Shamir R

Subjects
Animals, Apoptosis, Cell Proliferation, Disease Models, Animal, Enterocytes, Intestinal Mucosa, Intestine, Small surgery, Male, Rats, Rats, Sprague-Dawley, Tumor Necrosis Factor Inhibitors, Short Bowel Syndrome drug therapy
Abstract

Objectives: The aim of this study was to examine the effect of massive small bowel resection on proinflammatory cytokine intestinal expression and the effect of anti-TNF-α antibodies (ATA) on intestinal inflammation, epithelial cell turnover, and intestinal adaptation after bowel resection in rats., Methods: Male Sprague-Dawley rats were divided into 4 experimental groups: Sham-rats underwent bowel transection; Sham-ATA rats underwent bowel transection and were treated with ATA; SBS-animals underwent 75% bowel resection; and SBS-ATA rats underwent bowel resection and were treated with ATA similarly to Group B. Parameters of intestinal adaptation, enterocyte proliferation, and apoptosis were determined at sacrifice. TNF-α and apoptosis-related gene and protein levels were determined by Illumina's Digital Gene Expression (DGE) analysis, Real Time PCR, Western blotting, and immunohistochemistry., Results: From 25 genes related to TNF-α signalling that were investigated, 8 genes in the jejunum and 10 genes in the ileum were found to be up-regulated in resected versus sham animals. SBS rats demonstrated a significant increase in tissue and plasma TNF-α, IL-6 levels, intestinal mucosal TNF-α related gene expression, and microscopic parameters of inflammation. Treatment of resected animals with ATA resulted in a significant decrease in TNF-α levels, intestinal mucosal TNF-α-related gene expression, decreased number of intraepithelial lymphocytes and macrophages, and lower apoptotic index compared with SBS animals., Conclusions: In a rat model of SBS, ATA decreased plasma and tissue TNF-α levels, diminished mucosal inflammation, and inhibited cell apoptosis. Anti-apoptotic effects of ATA appear to be associated with an inhibited extrinsic apoptotic pathway., Competing Interests: The authors report no conflicts of interest., (Copyright © 2020 by European Society for Pediatric Gastroenterology, Hepatology, and Nutrition and North American Society for Pediatric Gastroenterology, Hepatology, and Nutrition.)

Published
2021
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37. The gut microbiome defines social group membership in honey bee colonies.

Author

Vernier CL, Chin IM, Adu-Oppong B, Krupp JJ, Levine J, Dantas G, and Ben-Shahar Y

Subjects
Animals, Bees, Group Processes, Hydrocarbons, Recognition, Psychology, Gastrointestinal Microbiome, Microbiota
Abstract

In the honey bee, genetically related colony members innately develop colony-specific cuticular hydrocarbon profiles, which serve as pheromonal nestmate recognition cues. Yet, despite high intracolony relatedness, the innate development of colony-specific chemical signatures by individual colony members is largely determined by the colony environment, rather than solely relying on genetic variants shared by nestmates. Therefore, it is puzzling how a nongenic factor could drive the innate development of a quantitative trait that is shared by members of the same colony. Here, we provide one solution to this conundrum by showing that nestmate recognition cues in honey bees are defined, at least in part, by shared characteristics of the gut microbiome across individual colony members. These results illustrate the importance of host-microbiome interactions as a source of variation in animal behavioral traits., (Copyright © 2020 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC).)

Published
2020
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38. Brain microRNAs among social and solitary bees.

Author

Kapheim KM, Jones BM, Søvik E, Stolle E, Waterhouse RM, Bloch G, and Ben-Shahar Y

Abstract

Evolutionary transitions to a social lifestyle in insects are associated with lineage-specific changes in gene expression, but the key nodes that drive these regulatory changes are unknown. We examined the relationship between social organization and lineage-specific microRNAs (miRNAs). Genome scans across 12 bee species showed that miRNA copy-number is mostly conserved and not associated with sociality. However, deep sequencing of small RNAs in six bee species revealed a substantial proportion (20-35%) of detected miRNAs had lineage-specific expression in the brain, 24-72% of which did not have homologues in other species. Lineage-specific miRNAs disproportionately target lineage-specific genes, and have lower expression levels than shared miRNAs. The predicted targets of lineage-specific miRNAs are not enriched for genes with caste-biased expression or genes under positive selection in social species. Together, these results suggest that novel miRNAs may coevolve with novel genes, and thus contribute to lineage-specific patterns of evolution in bees, but do not appear to have significant influence on social evolution. Our analyses also support the hypothesis that many new miRNAs are purged by selection due to deleterious effects on mRNA targets, and suggest genome structure is not as influential in regulating bee miRNA evolution as has been shown for mammalian miRNAs., Competing Interests: The authors declare no competing interests., (© 2020 The Authors.)

Published
2020
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39. Accelerated Intestinal Epithelial Cell Turnover Correlates with Stimulated BMP Signaling Cascade following Intestinal Ischemia-Reperfusion in a Rat.

Author

Ben-Shahar Y, Abassi Z, Kreizman Shefer H, Pollak Y, Bhattacharya U, and Sukhotnik I

Subjects
Animals, Apoptosis, Cell Proliferation, Disease Models, Animal, Enterocytes cytology, Enterocytes metabolism, Epithelial Cells pathology, Ileum metabolism, Ileum pathology, Intestinal Mucosa pathology, Jejunum metabolism, Jejunum pathology, Male, Random Allocation, Rats, Sprague-Dawley, Reperfusion Injury pathology, Bone Morphogenetic Proteins metabolism, Epithelial Cells metabolism, Ileum blood supply, Intestinal Mucosa metabolism, Jejunum blood supply, Reperfusion Injury metabolism, Signal Transduction
Abstract

Introduction:  Bone morphogenetic proteins (BMPs) are a family of proteins that regulate proliferation and differentiation of intestinal epithelial cells. The purpose of this study was to evaluate the role of BMP signaling following intestinal ischemia-reperfusion (IR) in a rat model., Materials and Methods:  Male Sprague-Dawley rats were divided into four experimental groups: Sham-24 and Sham-48 rats underwent laparotomy and were sacrificed 24 or 48 hours later, respectively; IR-24 and IR-48 rats underwent occlusion of superior mesenteric artery and portal vein for 30 minutes followed by 24 or 48 hours of reperfusion, respectively. Enterocyte proliferation and apoptosis were determined at sacrifice. BMP-related genes and protein expression were determined using real-time polymerase chain reaction, Western blot, and immunohistochemistry for 48 hours followed by IR., Results:  IR rats demonstrated a significant increase in BMP2 (twofold increase, p  < 0.05), BMP4 (sevenfold increase), STAT3 (70% increase), BMPR1 (70% increase) messenger ribonucleic acid levels in jejunum and was accompanied by a significant increase in BMP2 and BMP4 protein levels in jejunum (sixfold increase) (Western blot) and upward increase in the number of BMP-positive cells (by immunohistochemistry) in jejunal (48% increase) and ileal (56% increase) villi compared with Sham-48 animals. Elevation in BMP2 and BMP4 levels was associated with increased rates of cell proliferation and increased cell apoptosis., Conclusion:  Forty-eight hours following intestinal IR in rats, BMP signaling pathway was stimulated. The increase in BMP signaling pathway activity correlates with accelerated cell turnover., Competing Interests: None declared., (Georg Thieme Verlag KG Stuttgart · New York.)

Published
2020
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40. The neurogenetics of sexually dimorphic behaviors from a postdevelopmental perspective.

Author

Leitner N and Ben-Shahar Y

Subjects
Animals, Biological Evolution, Female, Gender Identity, Genotype, Humans, Male, Phenotype, Phylogeny, Sex, Sexual Behavior physiology, Sexual Behavior, Animal physiology, Sex Characteristics, Sexual Development genetics, Sexual Development physiology
Abstract

Most sexually reproducing animal species are characterized by two morphologically and behaviorally distinct sexes. The genetic, molecular and cellular processes that produce sexual dimorphisms are phylogenetically diverse, though in most cases they are thought to occur early in development. In some species, however, sexual dimorphisms are manifested after development is complete, suggesting the intriguing hypothesis that sex, more generally, might be considered a continuous trait that is influenced by both developmental and postdevelopmental processes. Here, we explore how biological sex is defined at the genetic, neuronal and behavioral levels, its effects on neuronal development and function, and how it might lead to sexually dimorphic behavioral traits in health and disease. We also propose a unifying framework for understanding neuronal and behavioral sexual dimorphisms in the context of both developmental and postdevelopmental, physiological timescales. Together, these two temporally separate processes might drive sex-specific neuronal functions in sexually mature adults, particularly as it pertains to behavior in health and disease., (© 2019 John Wiley & Sons Ltd and International Behavioural and Neural Genetics Society.)

Published
2020
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41. The Drosophila ERG channel seizure plays a role in the neuronal homeostatic stress response.

Author

Hill AS, Jain P, Folan NE, and Ben-Shahar Y

Subjects
Animals, Animals, Genetically Modified, Drosophila, Drosophila Proteins metabolism, Gene Knockdown Techniques, Incidence, Long QT Syndrome complications, Long QT Syndrome genetics, Neurons metabolism, Potassium Channels, Voltage-Gated metabolism, Reverse Genetics, Seizures epidemiology, Transcriptional Regulator ERG metabolism, Drosophila Proteins genetics, Heat-Shock Response genetics, Potassium Channels, Voltage-Gated genetics, Seizures genetics, Transcriptional Regulator ERG genetics
Abstract

Neuronal physiology is particularly sensitive to acute stressors that affect excitability, many of which can trigger seizures and epilepsies. Although intrinsic neuronal homeostasis plays an important role in maintaining overall nervous system robustness and its resistance to stressors, the specific genetic and molecular mechanisms that underlie these processes are not well understood. Here we used a reverse genetic approach in Drosophila to test the hypothesis that specific voltage-gated ion channels contribute to neuronal homeostasis, robustness, and stress resistance. We found that the activity of the voltage-gated potassium channel seizure (sei), an ortholog of the mammalian ERG channel family, is essential for protecting flies from acute heat-induced seizures. Although sei is broadly expressed in the nervous system, our data indicate that its impact on the organismal robustness to acute environmental stress is primarily mediated via its action in excitatory neurons, the octopaminergic system, as well as neuropile ensheathing and perineurial glia. Furthermore, our studies suggest that human mutations in the human ERG channel (hERG), which have been primarily implicated in the cardiac Long QT Syndrome (LQTS), may also contribute to the high incidence of seizures in LQTS patients via a cardiovascular-independent neurogenic pathway., Competing Interests: The authors have declared that no competing interests exist.

Published
2019
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42. RNA editing is abundant and correlates with task performance in a social bumblebee.

Author

Porath HT, Hazan E, Shpigler H, Cohen M, Band M, Ben-Shahar Y, Levanon EY, Eisenberg E, and Bloch G

Subjects
Adenosine Deaminase genetics, Adenosine Deaminase metabolism, Animals, Brain metabolism, Epigenesis, Genetic physiology, Female, Genetic Variation genetics, Genetic Variation physiology, Male, RNA isolation & purification, RNA metabolism, RNA-Binding Proteins genetics, RNA-Binding Proteins metabolism, Sequence Analysis, RNA, Bees physiology, Behavior, Animal physiology, RNA genetics, RNA Editing physiology, Social Behavior
Abstract

Colonies of the bumblebee Bombus terrestris are characterized by wide phenotypic variability among genetically similar full-sister workers, suggesting a major role for epigenetic processes. Here, we report a high level of ADAR-mediated RNA editing in the bumblebee, despite the lack of an ADAR1-homolog. We identify 1.15 million unique genomic sites, and 164 recoding sites residing in 100 protein coding genes, including ion channels, transporters, and receptors predicted to affect brain function and behavior. Some edited sites are similarly edited in other insects, cephalopods and even mammals. The global editing level of protein coding and non-coding transcripts weakly correlates with task performance (brood care vs. foraging), but not affected by dominance rank or juvenile hormone known to influence physiology and behavior. Taken together, our findings show that brain editing levels are high in naturally behaving bees, and may be regulated by relatively short-term effects associated with brood care or foraging activities.

Published
2019
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43. Effect of N-Acetylserotonin on TLR-4 and MyD88 Expression during Intestinal Ischemia-Reperfusion in a Rat Model.

Author

Sukhotnik I, Ben Shahar Y, Halabi S, Bitterman N, Dorfman T, Pollak Y, Coran A, and Bitterman A

Subjects
Animals, Apoptosis drug effects, Biomarkers metabolism, Blotting, Western, Down-Regulation, Immunohistochemistry, Intestinal Mucosa metabolism, Intestine, Small metabolism, Intestine, Small pathology, Male, Polymerase Chain Reaction, Random Allocation, Rats, Rats, Sprague-Dawley, Reperfusion Injury metabolism, Reperfusion Injury pathology, Serotonin pharmacology, Serotonin therapeutic use, Up-Regulation, Intestinal Mucosa drug effects, Intestine, Small drug effects, Myeloid Differentiation Factor 88 metabolism, Reperfusion Injury prevention & control, Serotonin analogs & derivatives, TNF Receptor-Associated Factor 6 metabolism, Toll-Like Receptor 4 metabolism
Abstract

Background:  Accumulating evidence indicates that changes in intestinal toll-like receptors (TLRs) precede histological injury in a rodent model of necrotizing enterocolitis. N-acetylserotonin (NAS) is a naturally occurring chemical intermediate in the biosynthesis of melatonin. A recent study has shown that treatment with NAS prevents gut mucosal damage and inhibits programmed cell death following intestinal ischemia-reperfusion (IR). The objective of this study was to determine the effects of NAS on TLR-4, myeloid differentiation factor 88 (Myd88), and TNF-α receptor-associated factor 6 (TRAF6) expression in intestinal mucosa following intestinal IR in a rat., Materials and Methods:  Male Sprague-Dawley rats were randomly assigned to one of the four experimental groups: 1) Sham rats underwent laparotomy; 2) Sham-NAS rats underwent laparotomy and were treated with intraperitoneal (IP) NAS (20 mg/kg); 3) IR rats underwent occlusion of both superior mesenteric artery and portal vein for 20 minutes followed by 48 hours of reperfusion; and 4) IR-NAS rats underwent IR and were treated with IP NAS immediately before abdominal closure. Intestinal structural changes, mucosal TLR-4, MyD88, and TRAF6 mucosal gene, and protein expression were examined using real-time PCR, Western blot, and immunohistochemistry., Results:  Significant mucosal damage in IR rats was accompanied by a significant upregulation of TLR-4, MyD88, and TRAF6 gene and protein expression in intestinal mucosa compared with control animals. The administration of NAS decreased the intestinal injury score, inhibited cell apoptosis, and significantly reduced the expression of TLR-4, MyD88, and TRAF6., Conclusion:  Treatment with NAS is associated with downregulation of TLR-4, MyD88, and TRAF6 expression along with a concomitant decrease in intestinal mucosal injury caused by intestinal IR in a rat., Competing Interests: None., (Georg Thieme Verlag KG Stuttgart · New York.)

Published
2019
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44. The cuticular hydrocarbon profiles of honey bee workers develop via a socially-modulated innate process.

Author

Vernier CL, Krupp JJ, Marcus K, Hefetz A, Levine JD, and Ben-Shahar Y

Subjects
Animals, Environmental Exposure, Interpersonal Relations, Bees chemistry, Bees growth & development, Hydrocarbons analysis, Integumentary System growth & development, Pheromones analysis
Abstract

Large social insect colonies exhibit a remarkable ability for recognizing group members via colony-specific cuticular pheromonal signatures. Previous work suggested that in some ant species, colony-specific pheromonal profiles are generated through a mechanism involving the transfer and homogenization of cuticular hydrocarbons (CHCs) across members of the colony. However, how colony-specific chemical profiles are generated in other social insect clades remains mostly unknown. Here we show that in the honey bee ( Apis mellifera ), the colony-specific CHC profile completes its maturation in foragers via a sequence of stereotypic age-dependent quantitative and qualitative chemical transitions, which are driven by environmentally-sensitive intrinsic biosynthetic pathways. Therefore, the CHC profiles of individual honey bees are not likely produced through homogenization and transfer mechanisms, but instead mature in association with age-dependent division of labor. Furthermore, non-nestmate rejection behaviors seem to be contextually restricted to behavioral interactions between entering foragers and guards at the hive entrance., Competing Interests: CV, JK, KM, AH, JL, YB No competing interests declared, (© 2019, Vernier et al.)

Published
2019
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45. Sonic hedgehog signaling controls gut epithelium homeostasis following intestinal ischemia-reperfusion in a rat.

Author

Ben-Shahar Y, Pollak Y, Bitterman A, Coran AG, Bejar IN, and Sukhotnik I

Subjects
Animals, Cell Proliferation, Disease Models, Animal, Enterocytes metabolism, Hedgehog Proteins genetics, Ileum blood supply, Jejunum blood supply, Male, RNA, Messenger metabolism, Rats, Sprague-Dawley, Reperfusion Injury, Signal Transduction, Hedgehog Proteins metabolism, Homeostasis, Ileum metabolism, Intestinal Mucosa metabolism, Jejunum metabolism
Abstract

Purpose: One of the major regulators of gastrointestinal tract development is the hedgehog signaling pathway. The purpose of this study was to evaluate the role of sonic hedgehog (SHh) signaling 24 and 48 h following intestinal ischemia-reperfusion (IR) in a rat., Materials and Methods: Male rats were divided into four experimental groups: (1) Sham-24 h rats underwent laparotomy and were sacrificed after 24 h, (2) Sham-48h rats underwent laparotomy and were sacrificed after 48 h, (3) IR-24h rats underwent occlusion of both superior mesenteric artery and portal vein for 20 min followed by 24 h of reperfusion, and (4) IR-48 h rats underwent ischemia for 20 min followed by 48 h of reperfusion. Intestinal structural changes, enterocyte proliferation and enterocyte apoptosis were determined by immunohistochemistry 24 and 48 h following IR. SHh-related genes and protein expression were determined using real-time PCR, Western blot and immunohistochemistry., Results: IR-24 rats demonstrated a significant decrease in Shh, Ihh, GIL and Ptch2 mRNA in jejunum and ileum compared to Sham-24 animals that was accompanied by a significant decrease in the number of SHH-positive cells (Immunohistochemistry) in jejunum (2.5-fold decrease) and ileum (37%). After 48 h, IR rats demonstrated a significant increase in Dhh, Ihh, Gil and PTCH2 mRNA in jejunum as well as in Dhh, Ihh, SMO, GIL, PTCH2 mRNA in ileum compared to IR-24 animals that was coincided with increased number of SHH-positive cells in jejunum (2.6-fold increase) and ileum (1.4-fold increase)., Conclusions: 24 h following intestinal IR, inhibited cell turnover was associated with inhibited SHh signaling pathway. Signs of intestinal recovery appeared 48 h after IR and were correlated with increase in SHh signaling pathway activity.

Published
2019
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46. Photocatalytic Hybrid Semiconductor-Metal Nanoparticles; from Synergistic Properties to Emerging Applications.

Author

Waiskopf N, Ben-Shahar Y, and Banin U

Subjects
Animals, Catalysis, Humans, Photochemical Processes, Quantum Dots chemistry
Abstract

Hybrid semiconductor-metal nanoparticles (HNPs) manifest unique combined and often synergetic properties stemming from the materials combination. These structures exhibit spatial charge separation across the semiconductor-metal junction upon light absorption, enabling their use as photocatalysts. So far, the main impetus of photocatalysis research in HNPs addresses their functionality in solar fuel generation. Recently, it was discovered that HNPs are functional in efficient photocatalytic generation of reactive oxygen species (ROS). This has opened the path for their implementation in diverse biomedical and industrial applications where high spatially temporally resolved ROS formation is essential. Here, the latest studies on the synergistic characteristics of HNPs are summarized, including their optical, electrical, and chemical properties and their photocatalytic function in the field of solar fuel generation is briefly discussed. Recent studies are then focused concerning photocatalytic ROS formation with HNPs under aerobic conditions. The emergent applications of this capacity are then highlighted, including light-induced modulation of enzymatic activity, photodynamic therapy, antifouling, wound healing, and as novel photoinitiators for 3D-printing. The superb photophysical and photocatalytic properties of HNPs offer already clear advantages for their utility in scenarios requiring on-demand light-induced radical formation and the full potential of HNPs in this context is yet to be revealed., (© 2018 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published
2018
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47. Charge Carrier Dynamics in Photocatalytic Hybrid Semiconductor-Metal Nanorods: Crossover from Auger Recombination to Charge Transfer.

Author

Ben-Shahar Y, Philbin JP, Scotognella F, Ganzer L, Cerullo G, Rabani E, and Banin U

Abstract

Hybrid semiconductor-metal nanoparticles (HNPs) manifest unique, synergistic electronic and optical properties as a result of combining semiconductor and metal physics via a controlled interface. These structures can exhibit spatial charge separation across the semiconductor-metal junction upon light absorption, enabling their use as photocatalysts. The combination of the photocatalytic activity of the metal domain with the ability to generate and accommodate multiple excitons in the semiconducting domain can lead to improved photocatalytic performance because injecting multiple charge carriers into the active catalytic sites can increase the quantum yield. Herein, we show a significant metal domain size dependence of the charge carrier dynamics as well as the photocatalytic hydrogen generation efficiencies under nonlinear excitation conditions. An understanding of this size dependence allows one to control the charge carrier dynamics following the absorption of light. Using a model hybrid semiconductor-metal CdS-Au nanorod system and combining transient absorption and hydrogen evolution kinetics, we reveal faster and more efficient charge separation and transfer under multiexciton excitation conditions for large metal domains compared to small ones. Theoretical modeling uncovers a competition between the kinetics of Auger recombination and charge separation. A crossover in the dominant process from Auger recombination to charge separation as the metal domain size increases allows for effective multiexciton dissociation and harvesting in large metal domain HNPs. This was also found to lead to relative improvement of their photocatalytic activity under nonlinear excitation conditions.

Published
2018
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48. The Impact of Environmental Mn Exposure on Insect Biology.

Author

Ben-Shahar Y

Abstract

Manganese (Mn) is an essential trace element that acts as a metal co-factor in diverse biochemical and cellular functions. However, chronic environmental exposure to high levels of Mn is a well-established risk factor for the etiology of severe, atypical parkinsonian syndrome (manganism) via its accumulation in the basal ganglia, pallidum, and striatum brain regions, which is often associated with abnormal dopamine, GABA, and glutamate neural signaling. Recent studies have indicated that chronic Mn exposure at levels that are below the risk for manganism can still cause behavioral, cognitive, and motor dysfunctions via poorly understood mechanisms at the molecular and cellular levels. Furthermore, in spite of significant advances in understanding Mn-induced behavioral and neuronal pathologies, available data are primarily for human and rodents. In contrast, the possible impact of environmental Mn exposure on brain functions and behavior of other animal species, especially insects and other invertebrates, remains mostly unknown both in the laboratory and natural habitats. Yet, the effects of environmental exposure to metals such as Mn on insect development, physiology, and behavior could also have major indirect impacts on human health via the long-term disruptions of food webs, as well as direct impact on the economy because of the important role insects play in crop pollination. Indeed, laboratory and field studies indicate that chronic exposures to metals such as Mn, even at levels that are below what is currently considered toxic, affect the dopaminergic signaling pathway in the insect brain, and have a major impact on the behavior of insects, including foraging activity of important pollinators such as the honey bee. Together, these studies highlight the need for a better understanding of the neuronal, molecular, and genetic processes that underlie the toxicity of Mn and other metal pollutants in diverse animal species, including insects.

Published
2018
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49. The synaptic action of Degenerin/Epithelial sodium channels.

Author

Hill AS and Ben-Shahar Y

Subjects
Animals, Humans, Synaptic Transmission, Degenerin Sodium Channels metabolism, Epithelial Sodium Channels metabolism
Abstract

Degenerin/Epithelial Sodium Channels (DEG/ENaCs) are a large family of animal-specific non-voltage gated ion channels, with enriched expression in neuronal and epithelial tissues. While neuronal DEG/ENaCs were originally characterized as sensory receptor channels, recent studies indicate that several DEG/ENaC family members are also expressed throughout the central nervous system. Human genome-wide association studies have linked DEG/ENaC-coding genes with several neurologic and psychiatric disorders, including epilepsy and panic disorder. In addition, studies in rodent models further indicate that DEG/ENaC activity in the brain contributes to many behaviors, including those related to anxiety and long-term memory. Although the exact neurophysiological functions of DEG/ENaCs remain mostly unknown, several key studies now suggest that multiple family members might exert their neuronal function via the direct modulation of synaptic processes. Here, we review and discuss recent findings on the synaptic functions of DEG/ENaCs in both vertebrate and invertebrate species, and propose models for their possible roles in synaptic physiology.

Published
2018
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