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32 results on '"Jacob, R"'

1. Fecal transplantation and butyrate improve neuropathic pain, modify immune cell profile, and gene expression in the PNS of obese mice

Author

Bonomo, Raiza R, Cook, Tyler M, Gavini, Chaitanya K, White, Chelsea R, Jones, Jacob R, Bovo, Elisa, Zima, Aleksey V, Brown, Isabelle A, Dugas, Lara R, Zakharian, Eleonora, Aubert, Gregory, Alonzo, Francis, Calcutt, Nigel A, and Mansuy-Aubert, Virginie

Subjects
Digestive Diseases, Neurodegenerative, Nutrition, Peripheral Neuropathy, Chronic Pain, Obesity, Prevention, Neurosciences, Pain Research, 2.1 Biological and endogenous factors, Aetiology, Neurological, Oral and gastrointestinal, Animals, Butyrates, Diet, High-Fat, Diet, Western, Fatty Acids, Volatile, Fecal Microbiota Transplantation, Gastrointestinal Microbiome, Gene Expression, Insulin Resistance, Lipid Metabolism, Male, Mice, Mice, Inbred C57BL, Mice, Obese, Microbiota, Neuralgia, Peripheral Nervous System, Peripheral Nervous System Diseases, obesity, neuropathy, microbiome
Abstract

Obesity affects over 2 billion people worldwide and is accompanied by peripheral neuropathy (PN) and an associated poorer quality of life. Despite high prevalence, the molecular mechanisms underlying the painful manifestations of PN are poorly understood, and therapies are restricted to use of painkillers or other drugs that do not address the underlying disease. Studies have demonstrated that the gut microbiome is linked to metabolic health and its alteration is associated with many diseases, including obesity. Pathologic changes to the gut microbiome have recently been linked to somatosensory pain, but any relationships between gut microbiome and PN in obesity have yet to be explored. Our data show that mice fed a Western diet developed indices of PN that were attenuated by concurrent fecal microbiome transplantation (FMT). In addition, we observed changes in expression of genes involved in lipid metabolism and calcium handling in cells of the peripheral nerve system (PNS). FMT also induced changes in the immune cell populations of the PNS. There was a correlation between an increase in the circulating short-chain fatty acid butyrate and pain improvement following FMT. Additionally, butyrate modulated gene expression and immune cells in the PNS. Circulating butyrate was also negatively correlated with distal pain in 29 participants with varied body mass index. Our data suggest that the metabolite butyrate, secreted by the gut microbiome, underlies some of the effects of FMT. Targeting the gut microbiome, butyrate, and its consequences may represent novel viable approaches to prevent or relieve obesity-associated neuropathies.

Published
2020

4. Multi-axis fields boost SABRE hyperpolarization.

Author

Lindale, Jacob R., Smith, Loren L., Mammen, Mathew W., Eriksson, Shannon L., Everhart, Lucas M., and Warren, Warren S.

Subjects
*MAGNETIC resonance, *CHEMICAL processes, *EVOLUTIONARY algorithms, *SIGNAL-to-noise ratio, *DEGREES of freedom, *MELT spinning
Abstract

The inherently low signal-to-noise ratio of NMR and MRI is now being addressed by hyperpolarization methods. For example, iridium-based catalysts that reversibly bind both parahydrogen and ligands in solution can hyperpolarize protons (SABRE) or heteronuclei (X-SABRE) on a wide variety of ligands, using a complex interplay of spin dynamics and chemical exchange processes, with common signal enhancements between 103 and 104 . This does not approach obvious theoretical limits, and further enhancement would be valuable in many applications (such as imaging mM concentration species in vivo). Most SABRE/X-SABRE implementations require far lower fields (μT-mT) than standard magnetic resonance (>1T), and this gives an additional degree of freedom: the ability to fully modulate fields in three dimensions. However, this has been underexplored because the standard simplifying theoretical assumptions in magnetic resonance need to be revisited. Here, we take a different approach, an evolutionary strategy algorithm for numerical optimization, multi-axis computer-aided heteronuclear transfer enhancement for SABRE (MACHETE-SABRE). We find nonintuitive but highly efficient multiaxial pulse sequences which experimentally can produce a sevenfold improvement in polarization over continuous excitation. This approach optimizes polarization differently than traditional methods, thus gaining extra efficiency. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Deciphering ocean carbon in a changing world

Author

Moran, Mary Ann, Kujawinski, Elizabeth B., Stubbins, Aron, Fatland, Rob, Aluwihare, Lihini I., Buchan, Alison, Crump, Byron C., Dorrestein, Pieter C., Dyhrman, Sonya T., Hess, Nancy J., Howe, Bill, Longnecker, Krista, Medeiros, Patricia M., Niggemann, Jutta, Obernosterer, Ingrid, Repeta, Daniel J., and Waldbauer, Jacob R.

Published
2016

8. How local partisan context conditions prosocial behaviors: Mask wearing during COVID-19

Author

Ryan Baxter-King, Jacob R. Brown, Ryan D. Enos, Arash Naeim, and Lynn Vavreck

Subjects
Multidisciplinary, COVID-19 Vaccines, Politics, Vaccination, Masks, COVID-19, Humans, Altruism, Mass Behavior, United States
Abstract

Does local partisan context influence the adoption of prosocial behavior? Using a nationwide survey of 60,000 adults and geographic data on over 180 million registered voters, we investigate whether neighborhood partisan composition affects a publicly observable and politicized behavior: wearing a mask. We find that Republicans are less likely to wear masks in public as the share of Republicans in their zip codes increases. Democratic mask wearing, however, is unaffected by local partisan context. Consequently, the partisan gap in mask wearing is largest in Republican neighborhoods, and less apparent in Democratic areas. These effects are distinct from other contextual effects such as variations in neighborhood race, income, or education. In contrast, partisan context has significantly reduced influence on unobservable public health recommendations like COVID-19 vaccination and no influence on nonpoliticized behaviors like flu vaccination, suggesting that differences in mask wearing reflect the publicly observable and politicized nature of the behavior instead of underlying differences in dispositions toward medical care.

Published
2022

12. IPM reduces insecticide applications by 95% while maintaining or enhancing crop yields through wild pollinator conservation

Author

Ian Kaplan, Jacob R. Pecenka, Laura L. Ingwell, Rick E. Foster, and Christian H. Krupke

Subjects
Integrated pest management, Conservation of Natural Resources, Insecticides, Insecta, Row crop, Biology, Insect Control, Zea mays, Crop, Citrullus, chemistry.chemical_compound, Animals, Beneficial insects, Biomass, Pollination, Multidisciplinary, Intensive farming, Crop yield, fungi, Pesticide Residues, food and beverages, Agriculture, Agronomy, chemistry, Seed treatment, Commentary, Pollen, PEST analysis
Abstract

Pest management practices in modern industrial agriculture have increasingly relied on insurance-based insecticides such as seed treatments that are poorly correlated with pest density or crop damage. This approach, combined with high invertebrate toxicity for newer products like neonicotinoids, makes it challenging to conserve beneficial insects and the services that they provide. We used a 4-y experiment using commercial-scale fields replicated across multiple sites in the midwestern United States to evaluate the consequences of adopting integrated pest management (IPM) using pest thresholds compared with standard conventional management (CM). To do so, we employed a systems approach that integrated coproduction of a regionally dominant row crop (corn) with a pollinator-dependent specialty crop (watermelon). Pest populations, pollination rates, crop yields, and system profitability were measured. Despite higher pest densities and/or damage in both crops, IPM-managed pests rarely reached economic thresholds, resulting in 95% lower insecticide use (97 versus 4 treatments in CM and IPM, respectively, across all sites, crops, and years). In IPM corn, the absence of a neonicotinoid seed treatment had no impact on yields, whereas IPM watermelon experienced a 129% increase in flower visitation rate by pollinators, resulting in 26% higher yields. The pollinator-enhancement effect under IPM management was mediated entirely by wild bees; foraging by managed honey bees was unaffected by treatments and, overall, did not correlate with crop yield. This proof-of-concept experiment mimicking on-farm practices illustrates that cropping systems in major agricultural commodities can be redesigned via IPM to exploit ecosystem services without compromising, and in some cases increasing, yields.

Published
2021

13. Large herbivores suppress liana infestation in an African savanna

Author

Jacob R. Goheen, Robert M. Pringle, Tyler R. Kartzinel, Todd M. Palmer, Matthew C. Hutchinson, Tyler C. Coverdale, Corina E. Tarnita, Mahesh Sankaran, David J. Augustine, Amanda Savagian, and Ryan D. O’Connell

Subjects
0106 biological sciences, Livestock, Defaunation, Elephants, Wildlife, Animals, Wild, Giraffes, Biology, medicine.disease_cause, 010603 evolutionary biology, 01 natural sciences, Trees, Food Preferences, Abundance (ecology), Infestation, medicine, Animals, Humans, Herbivory, Ecosystem, Environmental Restoration and Remediation, 2. Zero hunger, Herbivore, Multidisciplinary, Cynanchum, Ecology, Plant community, 15. Life on land, Biological Sciences, Liana, Exclosure, Africa, 010606 plant biology & botany
Abstract

African savannas are the last stronghold of diverse large-mammal communities, and a major focus of savanna ecology is to understand how these animals affect the relative abundance of trees and grasses. However, savannas support diverse plant life-forms, and human-induced changes in large-herbivore assemblages-declining wildlife populations and their displacement by livestock-may cause unexpected shifts in plant community composition. We investigated how herbivory affects the prevalence of lianas (woody vines) and their impact on trees in an East African savanna. Although scarce (

Published
2021

18. Extracellular vesicles secreted by human uterine stromal cells regulate decidualization, angiogenesis, and trophoblast differentiation.

Author

Qiuyan Ma, Beal, Jacob R., Bhurke, Arpita, Kannan, Athilakshmi, Jie Yu, Taylor, Robert N., Bagchi, Indrani C., and Bagchi, Milan K.

Subjects
*EXTRACELLULAR vesicles, *STROMAL cells, *TROPHOBLAST, *NEOVASCULARIZATION, *GLUCOSE transporters
Abstract

In humans, the uterus undergoes a dramatic transformation to form an endometrial stroma-derived secretory tissue, termed decidua, during early pregnancy. The decidua secretes various factors that act in an autocrine/paracrine manner to promote stromal differentiation, facilitate maternal angiogenesis, and influence trophoblast differentiation and development, which are critical for the formation of a functional placenta. Here, we investigated the mechanisms by which decidual cells communicate with each other and with other cell types within the uterine milieu. We discovered that primary human endometrial stromal cells (HESCs) secrete extracellular vesicles (EVs) during decidualization and that this process is controlled by a conserved HIF2α-RAB27B pathway. Mass spectrometry revealed that the decidual EVs harbor a variety of protein cargo, including cell signaling molecules, growth modulators, metabolic regulators, and factors controlling endothelial cell expansion and remodeling. We tested the hypothesis that EVs secreted by the decidual cells mediate functional communications between various cell types within the uterus. We demonstrated that the internalization of EVs, specifically those carrying the glucose transporter 1 (GLUT1), promotes glucose uptake in recipient HESCs, supporting and advancing the decidualization program. Additionally, delivery of HESC-derived EVs into human endothelial cells stimulated their proliferation and led to enhanced vascular network formation. Strikingly, stromal EVs also promoted the differentiation of trophoblast stem cells into the extravillous trophoblast lineage. Collectively, these findings provide a deeper understanding of the pleiotropic roles played by EVs secreted by the decidual cells to ensure coordination of endometrial differentiation and angiogenesis with trophoblast function during the progressive phases of decidualization and placentation. [ABSTRACT FROM AUTHOR]

Published
2022
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19. Nitrogen sourcing during viral infection of marine cyanobacteria

Author

John Lotus, Kathryn L. Campbell, Maureen L. Coleman, Adriana I. Rizzo, Jacob R. Waldbauer, and Lichun Zhang

Subjects
Synechococcus, 0303 health sciences, Aquatic Organisms, Multidisciplinary, biology, 030306 microbiology, Nitrogen, Photosystem II Protein Complex, Cyanophage, Biological Sciences, biology.organism_classification, Proteomics, Virus, Microbiology, Bacteriophage, 03 medical and health sciences, Viral Proteins, Lytic cycle, Bacterial Proteins, Protein biosynthesis, Bacteriophages, Gene, 030304 developmental biology
Abstract

The building blocks of a virus derived from de novo biosynthesis during infection and/or catabolism of preexisting host cell biomass, and the relative contribution of these 2 sources has important consequences for understanding viral biogeochemistry. We determined the uptake of extracellular nitrogen (N) and its biosynthetic incorporation into both virus and host proteins using an isotope-labeling proteomics approach in a model marine cyanobacterium Synechococcus WH8102 infected by a lytic cyanophage S-SM1. By supplying dissolved N as 15 N postinfection, we found that proteins in progeny phage particles were composed of up to 41% extracellularly derived N, while proteins of the infected host cell showed almost no isotope incorporation, demonstrating that de novo amino acid synthesis continues during infection and contributes specifically and substantially to phage replication. The source of N for phage protein synthesis shifted over the course of infection from mostly host derived in the early stages to more medium derived later on. We show that the photosystem II reaction center proteins D1 and D2, which are auxiliary metabolic genes (AMGs) in the S-SM1 genome, are made de novo during infection in an apparently light-dependent manner. We also identified a small set of host proteins that continue to be produced during infection; the majority are homologs of AMGs in S-SM1 or other viruses, suggesting selective continuation of host protein production during infection. The continued acquisition of nutrients by the infected cell and their utilization for phage replication are significant for both evolution and biogeochemical impact of viruses.

Published
2019

20. IPM reduces insecticide applications by 95% while maintaining or enhancing crop yields through wild pollinator conservation.

Author

Pecenka, Jacob R., Ingwell, Laura L., Foster, Rick E., Krupke, Christian H., and Kaplan, Ian

Subjects
*INSECTICIDE application, *CROP yields, *PEST control, *FARM produce, *AGRICULTURAL economics, *SPECIALTY crops
Abstract

Pest management practices in modern industrial agriculture have increasingly relied on insurance-based insecticides such as seed treatments that are poorly correlated with pest density or crop damage. This approach, combined with high invertebrate toxicity for newer products like neonicotinoids, makes it challenging to conserve beneficial insects and the services that they provide. We used a 4-y experiment using commercial-scale fields replicated across multiple sites in the midwestern United States to evaluate the consequences of adopting integrated pest management (IPM) using pest thresholds compared with standard conventional management (CM). To do so, we employed a systems approach that integrated coproduction of a regionally dominant row crop (corn) with a pollinator-dependent specialty crop (watermelon). Pest populations, pollination rates, crop yields, and system profitability were measured. Despite higher pest densities and/or damage in both crops, IPM-managed pests rarely reached economic thresholds, resulting in 95%lower insecticide use (97 versus 4 treatments in CM and IPM, respectively, across all sites, crops, and years). In IPM corn, the absence of a neonicotinoid seed treatment had no impact on yields, whereas IPM watermelon experienced a 129% increase in flower visitation rate by pollinators, resulting in 26% higher yields. The pollinator-enhancement effect under IPM management was mediated entirely by wild bees; foraging by managed honey bees was unaffected by treatments and, overall, did not correlate with crop yield. This proof-of-concept experiment mimicking on-farm practices illustrates that cropping systems in major agricultural commodities can be redesigned via IPM to exploit ecosystem services without compromising, and in some cases increasing, yields. [ABSTRACT FROM AUTHOR]

Published
2021
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21. Large herbivores suppress liana infestation in an African savanna.

Author

Coverdale, Tyler C., O'Connell, Ryan D., Hutchinson, Matthew C., Savagian, Amanda, Kartzinel, Tyler R., Palmer, Todd M., Goheen, Jacob R., Augustine, David J., Sankaran, Mahesh, Tarnita, Corina E., and Pringle, Robert M.

Subjects
LIANAS, SAVANNAS, SAVANNA ecology, ECOLOGICAL regime shifts, HERBIVORES
Abstract

African savannas are the last stronghold of diverse large-mammal communities, and a major focus of savanna ecology is to understand how these animals affect the relative abundance of trees and grasses. However, savannas support diverse plant life-forms, and human-induced changes in large-herbivore assemblages--declining wildlife populations and their displacement by livestock--may cause unexpected shifts in plant community composition. We investigated how herbivory affects the prevalence of lianas (woody vines) and their impact on trees in an East African savanna. Although scarce (<2% of tree canopy area) and defended by toxic latex, the dominant liana, Cynanchum viminale (Apocynaceae), was eaten by 15 wild large-herbivore species and was consumed in bulk by native browsers during experimental cafeteria trials. In contrast, domesticated ungulates rarely ate lianas. When we experimentally excluded all large herbivores for periods of 8 to 17 y (simulating extirpation), liana abundance increased dramatically, with up to 75% of trees infested. Piecewise exclusion of different-sized herbivores revealed functional complementarity among size classes in suppressing lianas. Liana infestation reduced tree growth and reproduction, but herbivores quickly cleared lianas from trees after the removal of 18-y-old exclosure fences (simulating rewilding). A simple model of liana contagion showed that, without herbivores, the long-term equilibrium could be either endemic (liana-tree coexistence) or an all-liana alternative stable state. We conclude that ongoing declines of wild large-herbivore populations will disrupt the structure and functioning of many African savannas in ways that have received little attention and that may not be mitigated by replacing wildlife with livestock. [ABSTRACT FROM AUTHOR]

Published
2021
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22. Aridity weakens population-level effects of multiple species interactions on Hibiscus meyeri.

Author

Morris, William F., Louthan, Allison M., Doak, Daniel F., Pringle, Robert M., Goheen, Jacob R., and Palmer, Todd M.

Subjects
HIBISCUS, ABIOTIC stress, CLIMATE change, PLANT populations, PLANT reproduction
Abstract

Predicting how species' abundances and ranges will shift in response to climate change requires a mechanistic understanding of how multiple factors interact to limit population growth. Both abiotic stress and species interactions can limit populations and potentially set range boundaries, but we have a poor understanding of when and where each is most critical. A commonly cited hypothesis, first proposed by Darwin, posits that abiotic factors (e.g., temperature, precipitation) are stronger determinants of range boundaries in apparently abiotically stressful areas ("stress" indicates abiotic factors that reduce population growth), including desert, polar, or highelevation environments, whereas species interactions (e.g., herbivory, competition) play a stronger role in apparently less stressful environments. We tested a core tenet of this hypothesis--that population growth rate is more strongly affected by species interactions in less stressful areas--using experimental manipulations of species interactions affecting a common herbaceous plant, Hibiscus meyeri (Malvaceae), across an aridity gradient in a semiarid African savanna. Population growth was more strongly affected by four distinct species interactions (competition with herbaceous and shrubby neighbors, herbivory, and pollination) in less stressful mesic areas than in more stressful arid sites. However, contrary to common assumptions, this effect did not arise because of greater density or diversity of interacting species in less stressful areas, but rather because aridity reduced sensitivity of population growth to these interactions. Our work supports classic predictions about the relative strength of factors regulating population growth across stress gradients, but suggests that this pattern results from a previously unappreciated mechanism that may apply to many species worldwide. [ABSTRACT FROM AUTHOR]

Published
2018
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23. Pleistocene to recent dietary shifts in California condors

Author

K. J. Sorenson, C. P. Chamberlain, Molly E. Church, Jacob R. Waldbauer, Seth D. Newsome, Donald R. Smith, Paul L. Koch, Robert W. Risebrough, Samuel D. Chamberlain, and Kena Fox-Dobbs

Subjects
education.field_of_study, Analysis of Variance, Carbon Isotopes, Multidisciplinary, Pleistocene, Nitrogen Isotopes, Raptors, Ecology, Population, fungi, Biology, Biological Sciences, Diet, Marine mammal, Megafauna, parasitic diseases, education, Cattle ranching
Abstract

We used carbon and nitrogen isotopes to investigate changes in the diet of California condors from the Pleistocene to the recent. During the Pleistocene, condors from California fed on both terrestrial megafauna and marine mammals. Early accounts reported condors feeding on the carcasses of marine mammals, but by the late 1700s, condor diets had shifted predominantly to terrestrial animals, following the commercial harvesting of marine mammals and the development of cattle ranching on land. At present, dairy calves provided by humans significantly augment condor diet, constituting an artificial support of the current population. Reestablishing a marine mammal component in the condor diet may be an effective strategy for fostering viable condor populations independent of direct human subsidies.

Published
2005

24. Ascorbic acid protects against endogenous oxidative DNA damage in human sperm.

Author

Fraga, C G, Motchnik, P A, Shigenaga, M K, Helbock, H J, Jacob, R A, and Ames, B N

Abstract

Damage to the DNA of germ cells can lead to mutation, which may result in birth defects, genetic diseases, and cancer. The very high endogenous rate of oxidative DNA damage and the importance of dietary ascorbic acid (AA) in preventing this damage has prompted an examination of these factors in human sperm DNA. The oxidized nucleoside 8-hydroxy-2'-deoxyguanosine (8-oxo-7,8-dihydro-2'-deoxyguanosine; oxo8dG), 1 of approximately 20 major products of oxidative damage to DNA, was measured in DNA isolated from human sperm provided by healthy subjects and compared to the seminal fluid AA levels. This relationship was studied in two groups. In a group of 24 free-living individuals 20-50 years old high levels of oxo8dG were correlated with low seminal plasma AA. The endogenous level of oxo8dG in this group was 13 fmol per microgram of DNA or approximately 25,000 adducts per sperm cell. The second group of individuals was maintained on a controlled diet that varied only in AA content. When dietary AA was decreased from 250 to 5 mg/day, the seminal fluid AA decreased by half and the level of oxo8dG in sperm DNA increased 91%. Repletion of dietary AA for 28 days (from 5 mg/day to 250 or 60 mg/day) caused a doubling in seminal fluid AA and reduced oxo8dG by 36%. These results indicate that dietary AA protects human sperm from endogenous oxidative DNA damage that could affect sperm quality and increase risk of genetic defects, particularly in populations with low AA such as smokers.

Published
1991
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25. In VitroProduction of Mouse Mammary Tumor Virus in a Mouse Mammary Tumor Ascites Line

Author

Keydar, Jafa, Gilead, Zvee, Hartman, Jacob R., and Ben-Shaul, Yehuda

Abstract

An ascites line derived from a spontaneous mouse mammary carcinoma produces, on explantation and cultivation in vitro, large amounts of oncornavirus particles. The biochemical, biophysical, and electron microscopic characteristics of the virions are described. Molecular hybridization and immunological methods identify these virions as mouse mammary tumor virus.

Published
1973
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26. Human influenza virus hemagglutinin is expressed in monkey cells using simian virus 40 vectors

Author

Debi P. Nayak, George C. Fareed, and Jacob R. Hartman

Subjects
Multidisciplinary, biology, viruses, DNA, Recombinant, Hemagglutinin (influenza), Hemagglutinins, Viral, Simian virus 40, Origin of replication, Virology, Molecular biology, PBR322, Virus, Cell Line, Restriction enzyme, Plasmid, Gene Expression Regulation, Influenza A virus, Complementary DNA, Chlorocebus aethiops, DNA, Viral, biology.protein, Animals, Cloning, Molecular, Gene, Research Article
Abstract

We have cloned and expressed the hemagglutinin (HA) gene of a human influenza virus (A/WSN/33) in monkey kidney cells by linking it to deleted simian virus 40 (SV40) genomes that contain the entire early gene region, the origin of replication, and late leader sequences. The HA gene (1775 base pairs long) was originally inserted by the dG . dC tailing technique into the multicopy plasmid of Escherichia coli, pBR322, using cDNA made from viral RNA. The cloned gene was further modified by treatment with nuclease Bal 31 to remove the dG . dC tails and some of the untranslated sequences and recloned in E. coli after addition of BamHI restriction endonuclease linkers. A number of SV40 and HA recombinants (SV--HA) were constructed by inserting recloned HA DNA into the late gene region of SV40. The SV--HA recombinants, when complemented in a lytic infection of monkey cells by the helper function of SV40 early deletion mutants expressed influenza HA as detected by immunofluorescence and immunoprecipitation of in vivo-labeled proteins using either heterogeneous anti-influenza rabbit antibodies or monoclonal antibodies against HA. Furthermore, the WSN HA expressed by the SV--HA recombinants was also glycosylated and possessed the same molecular weight (approximately 70,000) as the uncleaved HA of WSN virus in monkey cells.

Published
1982

27. Chitin utilization by marine picocyanobacteria and the evolution of a planktonic lifestyle.

Author

Capovilla G, Braakman R, Fournier GP, Hackl T, Schwartzman J, Lu X, Yelton A, Longnecker K, Soule MCK, Thomas E, Swarr G, Mongera A, Payette JG, Castro KG, Waldbauer JR, Kujawinski EB, Cordero OX, and Chisholm SW

Subjects
Chitin, Ecosystem, Phylogeny, Carbon, Plankton genetics, Chitosan, Prochlorococcus genetics
Abstract

Marine picocyanobacteria Prochlorococcus and Synechococcus , the most abundant photosynthetic cells in the oceans, are generally thought to have a primarily single-celled and free-living lifestyle. However, while studying the ability of picocyanobacteria to supplement photosynthetic carbon fixation with the use of exogenous organic carbon, we found the widespread occurrence of genes for breaking down chitin, an abundant source of organic carbon that exists primarily as particles. We show that cells that encode a chitin degradation pathway display chitin degradation activity, attach to chitin particles, and show enhanced growth under low light conditions when exposed to chitosan, a partially deacetylated soluble form of chitin. Marine chitin is largely derived from arthropods, which underwent major diversifications 520 to 535 Mya, close to when marine picocyanobacteria are inferred to have appeared in the ocean. Phylogenetic analyses confirm that the chitin utilization trait was acquired at the root of marine picocyanobacteria. Together this leads us to postulate that attachment to chitin particles allowed benthic cyanobacteria to emulate their mat-based lifestyle in the water column, initiating their expansion into the open ocean, seeding the rise of modern marine ecosystems. Subsequently, transitioning to a constitutive planktonic life without chitin associations led to cellular and genomic streamlining along a major early branch within Prochlorococcus . Our work highlights how the emergence of associations between organisms from different trophic levels, and their coevolution, creates opportunities for colonizing new environments. In this view, the rise of ecological complexity and the expansion of the biosphere are deeply intertwined processes.

Published
2023
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28. Extracellular vesicles secreted by human uterine stromal cells regulate decidualization, angiogenesis, and trophoblast differentiation.

Author

Ma Q, Beal JR, Bhurke A, Kannan A, Yu J, Taylor RN, Bagchi IC, and Bagchi MK

Subjects
Cell Differentiation, Endothelial Cells cytology, Endothelial Cells physiology, Female, Humans, Neovascularization, Physiologic, Pregnancy, Stromal Cells cytology, Stromal Cells physiology, Decidua cytology, Decidua physiology, Extracellular Vesicles physiology, Trophoblasts cytology, Trophoblasts physiology
Abstract

In humans, the uterus undergoes a dramatic transformation to form an endometrial stroma-derived secretory tissue, termed decidua, during early pregnancy. The decidua secretes various factors that act in an autocrine/paracrine manner to promote stromal differentiation, facilitate maternal angiogenesis, and influence trophoblast differentiation and development, which are critical for the formation of a functional placenta. Here, we investigated the mechanisms by which decidual cells communicate with each other and with other cell types within the uterine milieu. We discovered that primary human endometrial stromal cells (HESCs) secrete extracellular vesicles (EVs) during decidualization and that this process is controlled by a conserved HIF2α-RAB27B pathway. Mass spectrometry revealed that the decidual EVs harbor a variety of protein cargo, including cell signaling molecules, growth modulators, metabolic regulators, and factors controlling endothelial cell expansion and remodeling. We tested the hypothesis that EVs secreted by the decidual cells mediate functional communications between various cell types within the uterus. We demonstrated that the internalization of EVs, specifically those carrying the glucose transporter 1 (GLUT1), promotes glucose uptake in recipient HESCs, supporting and advancing the decidualization program. Additionally, delivery of HESC-derived EVs into human endothelial cells stimulated their proliferation and led to enhanced vascular network formation. Strikingly, stromal EVs also promoted the differentiation of trophoblast stem cells into the extravillous trophoblast lineage. Collectively, these findings provide a deeper understanding of the pleiotropic roles played by EVs secreted by the decidual cells to ensure coordination of endometrial differentiation and angiogenesis with trophoblast function during the progressive phases of decidualization and placentation.

Published
2022
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29. How local partisan context conditions prosocial behaviors: Mask wearing during COVID-19.

Author

Baxter-King R, Brown JR, Enos RD, Naeim A, and Vavreck L

Subjects
COVID-19 Vaccines, Humans, Mass Behavior, United States, Vaccination psychology, Altruism, COVID-19 epidemiology, COVID-19 prevention & control, Masks, Politics
Abstract

Does local partisan context influence the adoption of prosocial behavior? Using a nationwide survey of 60,000 adults and geographic data on over 180 million registered voters, we investigate whether neighborhood partisan composition affects a publicly observable and politicized behavior: wearing a mask. We find that Republicans are less likely to wear masks in public as the share of Republicans in their zip codes increases. Democratic mask wearing, however, is unaffected by local partisan context. Consequently, the partisan gap in mask wearing is largest in Republican neighborhoods, and less apparent in Democratic areas. These effects are distinct from other contextual effects such as variations in neighborhood race, income, or education. In contrast, partisan context has significantly reduced influence on unobservable public health recommendations like COVID-19 vaccination and no influence on nonpoliticized behaviors like flu vaccination, suggesting that differences in mask wearing reflect the publicly observable and politicized nature of the behavior instead of underlying differences in dispositions toward medical care.

Published
2022
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30. Molecular mechanism to recruit galectin-3 into multivesicular bodies for polarized exosomal secretion.

Author

Bänfer S, Schneider D, Dewes J, Strauss MT, Freibert SA, Heimerl T, Maier UG, Elsässer HP, Jungmann R, and Jacob R

Subjects
Animals, Dogs, Endosomes ultrastructure, Exosomes ultrastructure, Madin Darby Canine Kidney Cells, Microscopy, Electron, Multivesicular Bodies ultrastructure, DNA-Binding Proteins metabolism, Endosomal Sorting Complexes Required for Transport metabolism, Endosomes metabolism, Exosomes metabolism, Galectin 3 metabolism, Multivesicular Bodies metabolism, Transcription Factors metabolism, Vacuolar Proton-Translocating ATPases metabolism
Abstract

The beta-galactoside binding lectin galectin-3 (Gal3) is found intracellularly and in the extracellular space. Secretion of this lectin is mediated independently of the secretory pathway by a not yet defined nonclassical mechanism. Here, we found Gal3 in the lumen of exosomes. Superresolution and electron microscopy studies visualized Gal3 recruitment and sorting into intraluminal vesicles. Exosomal Gal3 release depends on the endosomal sorting complex required for transport I (ESCRT-I) component Tsg101 and functional Vps4a. Either Tsg101 knockdown or expression of dominant-negative Vps4a E228Q causes an intracellular Gal3 accumulation at multivesicular body formation sites. In addition, we identified a highly conserved tetrapeptide P(S/T)AP motif in the amino terminus of Gal3 that mediates a direct interaction with Tsg101. Mutation of the P(S/T)AP motif results in a loss of interaction and a dramatic decrease in exosomal Gal3 secretion. We conclude that Gal3 is a member of endogenous non-ESCRT proteins which are P(S/T)AP tagged for exosomal release., Competing Interests: The authors declare no conflict of interest.

Published
2018
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31. Mutant p53 promotes tumor progression and metastasis by the endoplasmic reticulum UDPase ENTPD5.

Author

Vogiatzi F, Brandt DT, Schneikert J, Fuchs J, Grikscheit K, Wanzel M, Pavlakis E, Charles JP, Timofeev O, Nist A, Mernberger M, Kantelhardt EJ, Siebolts U, Bartel F, Jacob R, Rath A, Moll R, Grosse R, and Stiewe T

Subjects
Animals, Apoptosis, Calnexin metabolism, Calreticulin metabolism, Carcinogenesis metabolism, Cell Line, Tumor, Disease Progression, Female, Glycoproteins metabolism, Glycosylation, Humans, Male, Mice, Mutant Proteins genetics, Mutant Proteins physiology, Mutation, Neoplasm Invasiveness, Prognosis, RNA Interference, RNA, Small Interfering metabolism, Sp1 Transcription Factor metabolism, Endoplasmic Reticulum metabolism, Neoplasm Metastasis, Oncogene Proteins metabolism, Pyrophosphatases metabolism, Tumor Suppressor Protein p53 genetics, Tumor Suppressor Protein p53 physiology
Abstract

Mutations in the p53 tumor suppressor gene are the most frequent genetic alteration in cancer and are often associated with progression from benign to invasive stages with metastatic potential. Mutations inactivate tumor suppression by p53, and some endow the protein with novel gain of function (GOF) properties that actively promote tumor progression and metastasis. By comparative gene expression profiling of p53-mutated and p53-depleted cancer cells, we identified ectonucleoside triphosphate diphosphohydrolase 5 (ENTPD5) as a mutant p53 target gene, which functions as a uridine 5'-diphosphatase (UDPase) in the endoplasmic reticulum (ER) to promote the folding of N-glycosylated membrane proteins. A comprehensive pan-cancer analysis revealed a highly significant correlation between p53 GOF mutations and ENTPD5 expression. Mechanistically, mutp53 is recruited by Sp1 to the ENTPD5 core promoter to induce its expression. We show ENTPD5 to be a mediator of mutant p53 GOF activity in clonogenic growth, architectural tissue remodeling, migration, invasion, and lung colonization in an experimental metastasis mouse model. Our study reveals folding of N-glycosylated membrane proteins in the ER as a mechanism underlying the metastatic progression of tumors with mutp53 that could provide new possibilities for cancer treatment., Competing Interests: The authors declare no conflict of interest.

Published
2016
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32. Transcription factor IRF4 determines germinal center formation through follicular T-helper cell differentiation.

Author

Bollig N, Brüstle A, Kellner K, Ackermann W, Abass E, Raifer H, Camara B, Brendel C, Giel G, Bothur E, Huber M, Paul C, Elli A, Kroczek RA, Nurieva R, Dong C, Jacob R, Mak TW, and Lohoff M

Subjects
Adoptive Transfer, Animals, B-Lymphocytes immunology, B-Lymphocytes metabolism, CD4-Positive T-Lymphocytes immunology, CD4-Positive T-Lymphocytes metabolism, CD4-Positive T-Lymphocytes transplantation, Cell Survival immunology, Female, Flow Cytometry, Gene Expression, Germinal Center cytology, Germinal Center metabolism, Interferon Regulatory Factors genetics, Interferon Regulatory Factors metabolism, Interleukins genetics, Interleukins immunology, Interleukins metabolism, Leishmania major immunology, Leishmaniasis, Cutaneous genetics, Leishmaniasis, Cutaneous immunology, Leishmaniasis, Cutaneous parasitology, Lymph Nodes cytology, Lymph Nodes immunology, Lymph Nodes metabolism, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Peyer's Patches immunology, Peyer's Patches metabolism, Plasma Cells immunology, Plasma Cells metabolism, Reverse Transcriptase Polymerase Chain Reaction, T-Lymphocytes, Helper-Inducer metabolism, T-Lymphocytes, Helper-Inducer transplantation, Cell Differentiation immunology, Germinal Center immunology, Interferon Regulatory Factors immunology, T-Lymphocytes, Helper-Inducer immunology
Abstract

Follicular T-helper (T(FH)) cells cooperate with GL7(+)CD95(+) germinal center (GC) B cells to induce antibody maturation. Herein, we identify the transcription factor IRF4 as a T-cell intrinsic precondition for T(FH) cell differentiation and GC formation. After immunization with protein or infection with the protozoon Leishmania major, draining lymph nodes (LNs) of IFN-regulatory factor-4 (Irf4(-/-)) mice lacked GCs and GC B cells despite developing normal initial hyperplasia. GCs were also absent in Peyer's patches of naive Irf4(-/-) mice. Accordingly, CD4(+) T cells within the LNs and Peyer's patches failed to express the T(FH) key transcription factor B-cell lymphoma-6 and other T(FH)-related molecules. During chronic leishmaniasis, the draining Irf4(-/-) LNs disappeared because of massive cell death. Adoptive transfer of WT CD4(+) T cells or few L. major primed WT T(FH) cells reconstituted GC formation, GC B-cell differentiation, and LN cell survival. In support of a T-cell intrinsic IRF4 activity, Irf4(-/-) T(FH) cell differentiation was not rescued by close neighborhood to transferred WT T(FH) cells. Together with its known B lineage-specific roles during plasma cell maturation and class switch, our study places IRF4 in the center of antibody production toward T-cell-dependent antigens.

Published
2012
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