Your search keyword '"Nicolai M."' showing total 1,180 results

1. Spatial decoupling of taxon richness, phylogenetic diversity and threat status in the megagenus Erica (Ericaceae)

Author

Michael D. Pirie, Dirk U. Bellstedt, Roderick W. Bouman, Jaime Fagúndez, Berit Gehrke, Martha Kandziora, Nicholas C. Le Maitre, Seth D. Musker, Ethan Newman, Nicolai M. Nürk, E. G. H. Oliver, Sebastian Pipins, Timotheus van der Niet, and Félix Forest

Subjects

Botany, QK1-989

Abstract

Estimates of the number of vascular plant species currently under threat of extinction are shockingly high, with the highest extinction rates reported for narrow-range, woody plants, especially in biodiversity hotspots with Mediterranean and tropical climates. The large genus Erica is a prime example, as a large proportion of its 851 species, all shrubs or small trees, are endemic to the Cape Floristic Region (CFR) of South Africa. Almost two hundred are known to be threatened and a further hundred are ‘Data Deficient’. We need to target conservation efforts and research to fill the most problematic knowledge gaps. This can be especially challenging in large genera, such as Erica, with numerous threatened species that are closely related. One approach involves combining knowledge of phylogenetic diversity with that of IUCN threat status to identify the most Evolutionarily Distinct and Globally Endangered (EDGE) species. We present an expanded and improved phylogenetic hypothesis for Erica (representing 65% of described species diversity) and combine this with available threat and distribution data to identify species and geographic areas that could be targeted for conservation effort to maximise preservation of phylogenetic diversity (PD). The resulting 39 EDGE taxa include 35 from the CFR. A further 32 high PD, data deficient taxa are mostly from outside the CFR, reflecting the low proportion of assessed taxa outside South Africa. The most taxon-rich areas are found in the south-western CFR. They are not the most phylogenetically diverse, but do include the most threatened PD. These results can be cross-referenced to existing living and seed-banked ex situ collections and used to target new and updated threat assessments and conservation action.

Published

2024

2. Genus Erica: An identification aid version 4.00

Author

E. G. H. Oliver, Nigel Forshaw, Inge M. Oliver, Fritz Volk, A. W. S. Schumann, Laurence J. Dorr, Rendert D. Hoekstra, Seth D. Musker, Nicolai M. Nürk, Michael D. Pirie, and Anthony G. Rebelo

Subjects

Botany, QK1-989

Abstract

Species identification is fundamental to all aspects of biology and conservation. The process can be challenging, particularly in groups including many closely related or similar species. The problem is confounded by the absence of an up-to-date taxonomic revision, but even with such a resource all but professional botanists may struggle to recognise key species, presenting a substantial barrier to vital work such as surveys, threat assessments, and seed collection for ex situ conservation. Genus Erica: An Identification Aid is a tool to help both amateurs and professionals identify (using a limited number of accessible characteristics) and find information about the 851 species and many subspecific taxa of the genus Erica. We present an updated version 4.00, with new features including integrating distribution data from GBIF and iNaturalist, links to taxonomic resources through World Flora Online, and a probability function for identifications, that is freely available for PCs. It remains a work in progress: We discuss routes forward for collaboratively improving this resource.

Published

2024

3. Preventing species extinctions: A global conservation consortium for Erica

Author

Michael D. Pirie, Robbie Blackhall‐Miles, Greg Bourke, Dan Crowley, Ismail Ebrahim, Félix Forest, Michael Knaack, Rupert Koopman, Alex Lansdowne, Nicolai M. Nürk, Jo Osborne, Timothy R. Pearce, Daniel Rohrauer, Martin Smit, and Victoria Wilman

Subjects

biodiversity crisis, Botanic Gardens Conservation International, Erica, global conservation consortia, species extinctions, Environmental sciences, GE1-350, Botany, QK1-989

Abstract

Societal Impact Statement Human‐caused habitat destruction and transformation is resulting in a cascade of impacts to biological diversity, of which arguably the most fundamental is species extinctions. The Global Conservation Consortia (GCC) are a means to pool efforts and expertise across national boundaries and between disciplines in the attempt to prevent such losses in focal plant groups. GCC Erica coordinates an international response to extinction threats in one such group, the heaths, or heathers, of which hundreds of species are found only in South Africa's spectacularly diverse Cape Floristic Region. Summary Effectively combating the biodiversity crisis requires coordinated conservation efforts. Botanic Gardens Conservation International (BGCI) and numerous partners have established Global Conservation Consortia (GCC) to collaboratively develop and implement comprehensive conservation strategies for priority threatened plant groups. Through these networks, institutions with specialised collections and staff can leverage ongoing work to optimise impact for threatened plant species. The genus Erica poses a challenge similar in scale to that of the largest other GCC group, Rhododendron, but almost 700 of the around 800 known species of Erica are concentrated in a single biodiversity hotspot, the Cape Floristic Region (CFR) of South Africa. Many species are known to be threatened, suffering the immediate impacts of habitat destruction, invasive species, changes in natural fire regimes and climate change. Efforts to counter these threats face general challenges: disproportionate burden of in situ conservation falling on a minority of the community, limited knowledge of species‐rich groups, shortfalls in assessing and monitoring threat, lack of resources for in situ and limitations of knowledge for ex situ conservation efforts and in communicating the value of biological diversity to a public who may never encounter it in the wild. GCC Erica brings together the world's Erica experts, conservationists and the botanical community, including botanic gardens, seed banks and organisations in Africa, Madagascar, Europe, the United States, Australia and beyond. We are collaboratively pooling our unique sets of skills and resources to address these challenges in working groups for conservation prioritisation, conservation in situ, horticulture, seed banking, systematic research and outreach.

Published

2022

4. Acute frataxin knockdown in induced pluripotent stem cell-derived cardiomyocytes activates a type I interferon response

Author

M. Grazia Cotticelli, Shujuan Xia, Rachel Truitt, Nicolai M. Doliba, Andrea V. Rozo, John W. Tobias, Taehee Lee, Justin Chen, Jill S. Napierala, Marek Napierala, Wenli Yang, and Robert B. Wilson

Subjects

friedreich ataxia, cardiomyopathy, mtdna, interferon, innate immunity, Medicine, Pathology, RB1-214

Published

2023

5. Role and mechanism of REG2 depletion in insulin secretion augmented by glutathione peroxidase-1 overproduction

Author

Xi Yan, Zeping Zhao, Jeremy Weaver, Tao Sun, Jun-Won Yun, Carol A. Roneker, Fenghua Hu, Nicolai M. Doliba, Charles Chipley W. McCormick, Marko Z. Vatamaniuk, and Xin Gen Lei

Subjects

Regenerating islet-derived protein, Glutathione peroxidase, L-type voltage-dependent calcium channel, Glucose-stimulated insulin secretion, Protein-protein interaction, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

We previously reported a depletion of murine regenerating islet-derived protein 2 (REG2) in pancreatic islets of glutathione peroxidase-1 (Gpx1) overexpressing (OE) mice. The present study was to explore if and how the REG2 depletion contributed to an augmented glucose stimulated insulin secretion (GSIS) in OE islets. After we verified a consistent depletion (90%, p

Published

2022

6. α Cell dysfunction in islets from nondiabetic, glutamic acid decarboxylase autoantibody–positive individuals

Author

Nicolai M. Doliba, Andrea V. Rozo, Jeffrey Roman, Wei Qin, Daniel Traum, Long Gao, Jinping Liu, Elisabetta Manduchi, Chengyang Liu, Maria L. Golson, Golnaz Vahedi, Ali Naji, Franz M. Matschinsky, Mark A. Atkinson, Alvin C. Powers, Marcela Brissova, Klaus H. Kaestner, Doris A. Stoffers, and for the HPAP Consortium

Subjects

Endocrinology, Medicine

Abstract

BACKGROUND Multiple islet autoantibodies (AAbs) predict the development of type 1 diabetes (T1D) and hyperglycemia within 10 years. By contrast, T1D develops in only approximately 15% of individuals who are positive for single AAbs (generally against glutamic acid decarboxylase [GADA]); hence, the single GADA+ state may represent an early stage of T1D.METHODS Here, we functionally, histologically, and molecularly phenotyped human islets from nondiabetic GADA+ and T1D donors.RESULTS Similar to the few remaining β cells in the T1D islets, GADA+ donor islets demonstrated a preserved insulin secretory response. By contrast, α cell glucagon secretion was dysregulated in both GADA+ and T1D islets, with impaired glucose suppression of glucagon secretion. Single-cell RNA-Seq of GADA+ α cells revealed distinct abnormalities in glycolysis and oxidative phosphorylation pathways and a marked downregulation of cAMP-dependent protein kinase inhibitor β (PKIB), providing a molecular basis for the loss of glucose suppression and the increased effect of 3-isobutyl-1-methylxanthine (IBMX) observed in GADA+ donor islets.CONCLUSION We found that α cell dysfunction was present during the early stages of islet autoimmunity at a time when β cell mass was still normal, raising important questions about the role of early α cell dysfunction in the progression of T1D.FUNDING This work was supported by grants from the NIH (3UC4DK112217-01S1, U01DK123594-02, UC4DK112217, UC4DK112232, U01DK123716, and P30 DK019525) and the Vanderbilt Diabetes Research and Training Center (DK20593).

Published

2022

7. Diversification in evolutionary arenas—Assessment and synthesis

Author

Nicolai M. Nürk, H. Peter Linder, Renske E. Onstein, Matthew J. Larcombe, Colin E. Hughes, Laura Piñeiro Fernández, Philipp M. Schlüter, Luis Valente, Carl Beierkuhnlein, Vanessa Cutts, Michael J. Donoghue, Erika J. Edwards, Richard Field, Suzette G. A. Flantua, Steven I. Higgins, Anke Jentsch, Sigrid Liede‐Schumann, and Michael D. Pirie

Subjects

adaptive radiation, conifer phylogeny, macroevolutionary theory, phylogenetic comparative methods, species diversification, trait disparification, Ecology, QH540-549.5

Abstract

Abstract Understanding how and why rates of evolutionary diversification vary is a key issue in evolutionary biology, ecology, and biogeography. Evolutionary rates are the net result of interacting processes summarized under concepts such as adaptive radiation and evolutionary stasis. Here, we review the central concepts in the evolutionary diversification literature and synthesize these into a simple, general framework for studying rates of diversification and quantifying their underlying dynamics, which can be applied across clades and regions, and across spatial and temporal scales. Our framework describes the diversification rate (d) as a function of the abiotic environment (a), the biotic environment (b), and clade‐specific phenotypes or traits (c); thus, d ~ a,b,c. We refer to the four components (a–d) and their interactions collectively as the “Evolutionary Arena.” We outline analytical approaches to this framework and present a case study on conifers, for which we parameterize the general model. We also discuss three conceptual examples: the Lupinus radiation in the Andes in the context of emerging ecological opportunity and fluctuating connectivity due to climatic oscillations; oceanic island radiations in the context of island formation and erosion; and biotically driven radiations of the Mediterranean orchid genus Ophrys. The results of the conifer case study are consistent with the long‐standing scenario that low competition and high rates of niche evolution promote diversification. The conceptual examples illustrate how using the synthetic Evolutionary Arena framework helps to identify and structure future directions for research on evolutionary radiations. In this way, the Evolutionary Arena framework promotes a more general understanding of variation in evolutionary rates by making quantitative results comparable between case studies, thereby allowing new syntheses of evolutionary and ecological processes to emerge.

Published

2020

8. Leaps and bounds: geographical and ecological distance constrained the colonisation of the Afrotemperate by Erica

Author

Michael D. Pirie, Martha Kandziora, Nicolai M. Nürk, Nicholas C. Le Maitre, Ana Mugrabi de Kuppler, Berit Gehrke, Edward G. H. Oliver, and Dirk U. Bellstedt

Subjects

Afrotemperate, Historical biogeography, Phylogenetic biome conservatism, Cape floristic region, Climatic niche shift, Erica, Evolution, QH359-425

Abstract

Abstract Background The coincidence of long distance dispersal (LDD) and biome shift is assumed to be the result of a multifaceted interplay between geographical distance and ecological suitability of source and sink areas. Here, we test the influence of these factors on the dispersal history of the flowering plant genus Erica (Ericaceae) across the Afrotemperate. We quantify similarity of Erica climate niches per biogeographic area using direct observations of species, and test various colonisation scenarios while estimating ancestral areas for the Erica clade using parametric biogeographic model testing. Results We infer that the overall dispersal history of Erica across the Afrotemperate is the result of infrequent colonisation limited by geographic proximity and niche similarity. However, the Drakensberg Mountains represent a colonisation sink, rather than acting as a “stepping stone” between more distant and ecologically dissimilar Cape and Tropical African regions. Strikingly, the most dramatic examples of species radiations in Erica were the result of single unique dispersals over longer distances between ecologically dissimilar areas, contradicting the rule of phylogenetic biome conservatism. Conclusions These results highlight the roles of geographical and ecological distance in limiting LDD, but also the importance of rare biome shifts, in which a unique dispersal event fuels evolutionary radiation.

Published

2019

9. Gq signaling in α cells is critical for maintaining euglycemia

Author

Liu Liu, Diptadip Dattaroy, Katherine F. Simpson, Luiz F. Barella, Yinghong Cui, Yan Xiong, Jian Jin, Gabriele M. König, Evi Kostenis, Jefferey C. Roman, Klaus H. Kaestner, Nicolai M. Doliba, and Jürgen Wess

Subjects

Metabolism, Medicine

Abstract

Glucagon, a hormone released from pancreatic α cells, plays a key role in maintaining euglycemia. New insights into the signaling pathways that control glucagon secretion may stimulate the development of novel therapeutic agents. In this study, we investigated the potential regulation of α cell function by G proteins of the Gq family. The use of a chemogenetic strategy allowed us to selectively activate Gq signaling in mouse α cells in vitro and in vivo. Acute stimulation of α cell Gq signaling led to elevated plasma glucagon levels, accompanied by increased insulin release and improved glucose tolerance. Moreover, chronic activation of this pathway greatly improved glucose tolerance in obese mice. We also identified an endogenous Gq-coupled receptor (vasopressin 1b receptor; V1bR) that was enriched in mouse and human α cells. Agonist-induced activation of the V1bR strongly stimulated glucagon release in a Gq-dependent fashion. In vivo studies indicated that V1bR-mediated glucagon release played a key role in the counterregulatory hyperglucagonemia under hypoglycemic and glucopenic conditions. These data indicate that α cell Gq signaling represents an important regulator of glucagon secretion, resulting in multiple beneficial metabolic effects. Thus, drugs that target α cell–enriched Gq-coupled receptors may prove useful to restore euglycemia in various pathophysiological conditions.

Published

2021

10. Evolution of Dispersal, Habit, and Pollination in Africa Pushed Apocynaceae Diversification After the Eocene-Oligocene Climate Transition

Author

Cássia Bitencourt, Nicolai M. Nürk, Alessandro Rapini, Mark Fishbein, André O. Simões, David J. Middleton, Ulrich Meve, Mary E. Endress, and Sigrid Liede-Schumann

Subjects

apocynoids, APSA clade, Asclepiadoideae, biogeography, Gondwana, Laurasia, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

Apocynaceae (the dogbane and milkweed family) is one of the ten largest flowering plant families, with approximately 5,350 species and diverse morphology and ecology, ranging from large trees and lianas that are emblematic of tropical rainforests, to herbs in temperate grasslands, to succulents in dry, open landscapes, and to vines in a wide variety of habitats. Despite a specialized and conservative basic floral architecture, Apocynaceae are hyperdiverse in flower size, corolla shape, and especially derived floral morphological features. These are mainly associated with the development of corolline and/or staminal coronas and a spectrum of integration of floral structures culminating with the formation of a gynostegium and pollinaria—specialized pollen dispersal units. To date, no detailed analysis has been conducted to estimate the origin and diversification of this lineage in space and time. Here, we use the most comprehensive time-calibrated phylogeny of Apocynaceae, which includes approximately 20% of the species covering all major lineages, and information on species number and distributions obtained from the most up-to-date monograph of the family to investigate the biogeographical history of the lineage and its diversification dynamics. South America, Africa, and Southeast Asia (potentially including Oceania), were recovered as the most likely ancestral area of extant Apocynaceae diversity; this tropical climatic belt in the equatorial region retained the oldest extant lineages and these three tropical regions likely represent museums of the family. Africa was confirmed as the cradle of pollinia-bearing lineages and the main source of Apocynaceae intercontinental dispersals. We detected 12 shifts toward accelerated species diversification, of which 11 were in the APSA clade (apocynoids, Periplocoideae, Secamonoideae, and Asclepiadoideae), eight of these in the pollinia-bearing lineages and six within Asclepiadoideae. Wind-dispersed comose seeds, climbing growth form, and pollinia appeared sequentially within the APSA clade and probably work synergistically in the occupation of drier and cooler habitats. Overall, we hypothesize that temporal patterns in diversification of Apocynaceae was mainly shaped by a sequence of morphological innovations that conferred higher capacity to disperse and establish in seasonal, unstable, and open habitats, which have expanded since the Eocene-Oligocene climate transition.

Published

2021

11. Metabolic stress activates an ERK/hnRNPK/DDX3X pathway in pancreatic β cells

Author

Austin L. Good, Matthew W. Haemmerle, Alexis U. Oguh, Nicolai M. Doliba, and Doris A. Stoffers

Subjects

Internal medicine, RC31-1245

Abstract

Objective: Pancreatic β cell failure plays a central role in the development of type 2 diabetes (T2D). While the transcription factors shaping the β cell gene expression program have received much attention, the post-transcriptional controls that are activated in β cells during stress are largely unknown. We recently identified JUND as a pro-oxidant transcription factor that is post-transcriptionally upregulated in β cells during metabolic stress. Here we seek to uncover the mechanisms underlying this maladaptive response to metabolic stress. Methods: RNA-protein and protein-protein interactions were measured using RNA immunoprecipitation and co-immunoprecipitation, respectively, in Min6 cells and mouse islets. Phos-tag analyses were used to assess hnRNPK phosphorylation in primary mouse and human islets and Min6 cells. Translating ribosome affinity purification (TRAP) followed by RT-qPCR was used to identify changes in the ribosome occupancy of mRNAs in Min6 cells. Gene depletion studies used lentiviral delivery of CRISPR-Cas9 to Min6 cells. Apoptosis was measured in primary islets using a cell-permeable dye with a fluorescence readout of activated cleaved caspase-3 and-7. Results: A de novo motif analysis was performed on a subset of genes previously found to be regulated at the level of ribosome binding during PDX1-deficiency, which identified a poly-cytosine (polyC) motif in the 3′UTR of the transcript encoding JUND. The polyC-binding protein hnRNPK bound to the mRNA encoding JUND, leading us to hypothesize that hnRNPK regulates JUND expression during glucolipotoxicity. Indeed, loss of hnRNPK blocked the post-transcriptional upregulation of JUND during metabolic stress. hnRNPK was phosphorylated in mouse and human islets during glucolipotoxicity and in islets of diabetic db/db mice. The MEK/ERK signaling pathway was both necessary and sufficient for the phosphorylation of hnRNPK, upregulation of JUND levels, and induction of pro-oxidant and pro-inflammatory genes. Further, we identified the RNA helicase DDX3X as a new binding partner for hnRNPK that is required for efficient translation of JUND mRNA. Loss of hnRNPK reduced DDX3X binding to translation machinery, suggesting that these factors cooperate to regulate translation in β cells. Conclusions: Our results identify a novel ERK/hnRNPK/DDX3X pathway that influences β cell survival and is activated under conditions associated with T2D. Keywords: RNA-Binding proteins, β cell, Stress, Translational regulation, Signaling

Published

2019

12. JUND regulates pancreatic β cell survival during metabolic stress

Author

Austin L. Good, Corey E. Cannon, Matthew W. Haemmerle, Juxiang Yang, Diana E. Stanescu, Nicolai M. Doliba, Morris J. Birnbaum, and Doris A. Stoffers

Subjects

Internal medicine, RC31-1245

Abstract

Objective: In type 2 diabetes (T2D), oxidative stress contributes to the dysfunction and loss of pancreatic β cells. A highly conserved feature of the cellular response to stress is the regulation of mRNA translation; however, the genes regulated at the level of translation are often overlooked due to the convenience of RNA sequencing technologies. Our goal is to investigate translational regulation in β cells as a means to uncover novel factors and pathways pertinent to cellular adaptation and survival during T2D-associated conditions. Methods: Translating ribosome affinity purification (TRAP) followed by RNA-seq or RT-qPCR was used to identify changes in the ribosome occupancy of mRNAs in Min6 cells. Gene depletion studies used lentiviral delivery of shRNAs to primary mouse islets or CRISPR-Cas9 to Min6 cells. Oxidative stress and apoptosis were measured in primary islets using cell-permeable dyes with fluorescence readouts of oxidation and activated cleaved caspase-3 and-7, respectively. Gene expression was assessed by RNA-seq, RT-qPCR, and western blot. ChIP-qPCR was used to determine chromatin enrichment. Results: TRAP-seq in a PDX1-deficiency model of β cell dysfunction uncovered a cohort of genes regulated at the level of mRNA translation, including the transcription factor JUND. Using a panel of diabetes-associated stressors, JUND was found to be upregulated in mouse islets cultured with high concentrations of glucose and free fatty acid, but not after treatment with hydrogen peroxide or thapsigargin. This induction of JUND could be attributed to increased mRNA translation. JUND was also upregulated in islets from diabetic db/db mice and in human islets treated with high glucose and free fatty acid. Depletion of JUND in primary islets reduced oxidative stress and apoptosis in β cells during metabolic stress. Transcriptome assessment identified a cohort of genes, including pro-oxidant and pro-inflammatory genes, regulated by JUND that are commonly dysregulated in models of β cell dysfunction, consistent with a maladaptive role for JUND in islets. Conclusions: A translation-centric approach uncovered JUND as a stress-responsive factor in β cells that contributes to redox imbalance and apoptosis during pathophysiologically relevant stress. Keywords: Translational regulation, Oxidative stress, Apoptosis, β cell

Published

2019

13. Phylogenetic relationships in the southern African genus Drosanthemum (Ruschioideae, Aizoaceae)

Author

Sigrid Liede-Schumann, Guido W. Grimm, Nicolai M. Nürk, Alastair J. Potts, Ulrich Meve, and Heidrun E.K. Hartmann

Subjects

Distribution, Genetic diversity, Greater Cape Floristic Region, Haplotyping, Maximum Likelihood, MJ Network, Medicine, Biology (General), QH301-705.5

Abstract

Background Drosanthemum, the only genus of the tribe Drosanthemeae, is widespread over the Greater Cape Floristic Region in southern Africa. With 114 recognized species, Drosanthemum, together with the highly succulent and species-rich tribe Ruschieae, constitute the ‘core ruschioids’ in Aizoaceae. Within Drosanthemum, nine subgenera have been described based on flower and fruit morphology. Their phylogenetic relationships, however, have not yet been investigated, hampering understanding of monophyletic entities and patterns of geographic distribution. Methods Using chloroplast and nuclear DNA sequence data, we performed network- and tree-based phylogenetic analyses of 73 species of Drosanthemum with multiple accessions for widespread species. A well-curated, geo-referenced occurrence dataset comprising the 134 genetically analysed and 863 further accessions was used to describe the distributional ranges of intrageneric lineages and the genus as a whole. Results Phylogenetic inference supports nine clades within Drosanthemum, seven of which group in two major clades, while the remaining two show ambiguous affinities. The nine clades are generally congruent to previously described subgenera within Drosanthemum, with exceptions such as cryptic species. In-depth analyses of sequence patterns in each gene region were used to reveal phylogenetic affinities inside the retrieved clades in more detail. We observe a complex distribution pattern including widespread, species-rich clades expanding into arid habitats of the interior (subgenera Drosanthemum p.p., Vespertina, Xamera) that are genetically and morphologically diverse. In contrast, less species-rich, genetically less divergent, and morphologically unique lineages are restricted to the central Cape region and more mesic conditions (Decidua, Necopina, Ossicula, Quastea, Quadrata, Speciosa). Our results suggest that the main lineages arose from an initial rapid radiation, with subsequent diversification in some clades.

Published

2020

14. Impact of the Age of Cecal Material Transfer Donors on Alzheimer’s Disease Pathology in 5xFAD Mice

Author

Francesco Valeri, Malena dos Santos Guilherme, Fuqian He, Nicolai M. Stoye, Andreas Schwiertz, and Kristina Endres

Subjects

aging, amyloid, antibiotics, dysbiosis, fecal material transplant, microbiome, Biology (General), QH301-705.5

Abstract

Alzheimer’s disease is a progressive neurodegenerative disorder affecting around 30 million patients worldwide. The predominant sporadic variant remains enigmatic as the underlying cause has still not been identified. Since efficient therapeutic treatments are still lacking, the microbiome and its manipulation have been considered as a new, innovative approach. 5xFAD Alzheimer’s disease model mice were subjected to one-time fecal material transfer after antibiotics-treatment using two types of inoculation: material derived from the caecum of age-matched (young) wild type mice or from middle aged, 1 year old (old) wild type mice. Mice were profiled after transfer for physiological parameters, microbiome, behavioral tasks, and amyloid deposition. A single time transfer of cecal material from the older donor group established an aged phenotype in the recipient animals as indicated by elevated cultivatable fecal Enterobacteriaceae and Lactobacillaceae representative bacteria, a decreased Firmicutes amount as assessed by qPCR, and by increased levels of serum LPS binding protein. While behavioral deficits were not accelerated, single brain regions (prefrontal cortex and dentate gyrus) showed higher plaque load after transfer of material from older animals. We could demonstrate that the age of the donor of cecal material might affect early pathological hallmarks of Alzheimer’s disease. This could be relevant when considering new microbiome-based therapies for this devastating disorder.

Published

2021

15. Inhibition of cholinergic potentiation of insulin secretion from pancreatic islets by chronic elevation of glucose and fatty acids: Protection by casein kinase 2 inhibitor

Author

Nicolai M. Doliba, Qin Liu, Changhong Li, Pan Chen, Chengyang Liu, Ali Naji, and Franz M. Matschinsky

Subjects

Pancreatic islets, Fatty acids, Glucolipotoxicity, Acetylcholine, Insulin secretion, Internal medicine, RC31-1245

Abstract

Objectives: Chronic hyperlipidemia and hyperglycemia are characteristic features of type 2 diabetes (T2DM) that are thought to cause or contribute to β-cell dysfunction by “glucolipotoxicity.” Previously we have shown that acute treatment of pancreatic islets with fatty acids (FA) decreases acetylcholine-potentiated insulin secretion. This acetylcholine response is mediated by M3 muscarinic receptors, which play a key role in regulating β-cell function. Here we examine whether chronic FA exposure also inhibits acetylcholine-potentiated insulin secretion using mouse and human islets. Methods: Islets were cultured for 3 or 4 days at different glucose concentration with 0.5 mM palmitic acid (PA) or a 2:1 mixture of PA and oleic acid (OA) at 1% albumin (PA/BSA molar ratio 3.3). Afterwards, the response to glucose and acetylcholine were studied in perifusion experiments. Results: FA-induced impairment of insulin secretion and Ca2+ signaling depended strongly on the glucose concentrations of the culture medium. PA and OA in combination reduced acetylcholine potentiation of insulin secretion more than PA alone, both in mouse and human islets, with no evidence of a protective role of OA. In contrast, lipotoxicity was not observed with islets cultured for 3 days in medium containing less than 1 mM glucose and a mixture of glutamine and leucine (7 mM each). High glucose and FAs reduced endoplasmic reticulum (ER) Ca2+ storage capacity; however, preserving ER Ca2+ by blocking the IP3 receptor with xestospongin C did not protect islets from glucolipotoxic effects on insulin secretion. In contrast, an inhibitor of casein kinase 2 (CK2) protected the glucose dependent acetylcholine potentiation of insulin secretion in mouse and human islets against glucolipotoxicity. Conclusions: These results show that chronic FA treatment decreases acetylcholine potentiation of insulin secretion and that this effect is strictly glucose dependent and might involve CK2 phosphorylation of β-cell M3 muscarinic receptors.

Published

2017

16. Ndfip1 restricts mTORC1 signalling and glycolysis in regulatory T cells to prevent autoinflammatory disease

Author

Awo Akosua Kesewa Layman, Guoping Deng, Claire E. O’Leary, Samuel Tadros, Rajan M. Thomas, Joseph M. Dybas, Emily K. Moser, Andrew D. Wells, Nicolai M. Doliba, and Paula M. Oliver

Subjects

Science

Abstract

T regulatory (Treg) cells are essential for maintaining immune homeostasis, but how the stability of their lineage and function is regulated is unclear. Here the authors show that Ndfip1 is essential for suppressing Tregcell IL-4 production and metabolic alteration to preserve Treg lineage and function.

Published

2017

17. β-arrestin-2 is an essential regulator of pancreatic β-cell function under physiological and pathophysiological conditions

Author

Lu Zhu, Joana Almaça, Prasanna K. Dadi, Hao Hong, Wataru Sakamoto, Mario Rossi, Regina J. Lee, Nicholas C. Vierra, Huiyan Lu, Yinghong Cui, Sara M. McMillin, Nicole A. Perry, Vsevolod V. Gurevich, Amy Lee, Bryan Kuo, Richard D. Leapman, Franz M. Matschinsky, Nicolai M. Doliba, Nikhil M. Urs, Marc G. Caron, David A. Jacobson, Alejandro Caicedo, and Jürgen Wess

Subjects

Science

Abstract

Beta-arrestins have key roles in development and metabolic functions as euglycaemic control and insulin sentitivity. Here Zhuet al. show that beta-arrestin-2 regulates insulin secretion and glucose tolerance in mice by promoting CAMKII functions in beta cells.

Published

2017

18. The Synthetic Retinoid Acitretin Increases IL-6 in the Central Nervous System of Alzheimer Disease Model Mice and Human Patients

Author

Malena dos Santos Guilherme, Nicolai M. Stoye, Stefan Rose-John, Christoph Garbers, Andreas Fellgiebel, and Kristina Endres

Subjects

alpha-secretase, ADAM10, gp130, IL-6, IL-6R, inflammation, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

These days, the important role of retinoids in adult brain functionality and homeostasis is well accepted and has been proven by genomic as well as non-genomic mechanisms. In the healthy brain, numerous biological processes, e.g., cell proliferation, neurogenesis, dendritic spine formation as well as modulation of the immune system, have been attributed to retinoid signaling. This, together with the finding that retinoid metabolism is impaired in Alzheimer’s disease (AD), led to preclinical and early clinical testing of natural and synthetic retinoids as innovative pharmaceuticals with multifactorial properties. Acitretin, an aromatic retinoid, was found to exert an anti-amyloidogenic effect in mouse models for AD as well as in human patients by stimulating the alpha-secretase ADAM10. The lipophilic drug was already demonstrated to easily pass the blood brain barrier after i.p. administration and evoked increased nest building capability in the 5xFAD mouse model. Additionally, we analyzed the immune-modulatory capacity of acitretin via a multiplex array in the 5xFAD mouse model and evaluated some of our findings in human CSF derived from a pilot study using acitretin. Although several serum analytes did not display changes, Interleukin-6 (IL-6) was found to be significantly increased in both—mouse and human neural material. This demonstrates that acitretin exerts an immune stimulatory effect—besides the alpha-secretase induction—which could impact the alleviation of learning and memory disabilities observed in the mouse model.

Published

2019

19. Accumulation of 3-hydroxytetradecenoic acid: Cause or corollary of glucolipotoxic impairment of pancreatic β-cell bioenergetics?

Author

Nicolai M. Doliba, Qing Liu, Changhong Li, Jie Chen, Pan Chen, Chengyang Liu, David W. Frederick, Joseph A. Baur, Michael J. Bennett, Ali Naji, and Franz M. Matschinsky

Subjects

Pancreatic islets, Fatty acids, Oxygen consumption, Insulin secretion, Mitochondrial fatty acid oxidation, Internal medicine, RC31-1245

Abstract

Objectives: Hyperglycemia and elevated blood lipids are the presumed precipitating causes of β-cell damage in T2DM as the result of a process termed “glucolipotoxicity”. Here, we tested whether glucolipotoxic pathophysiology is caused by defective bioenergetics using islets in culture. Methods: Insulin secretion, respiration, ATP generation, fatty acid (FA) metabolite profiles and gene expression were determined in isolated islets treated under glucolipotoxic culture conditions. Results: Over time, chronic exposure of mouse islets to FAs with glucose leads to bioenergetic failure and reduced insulin secretion upon stimulation with glucose or amino acids. Islets exposed to glucolipotoxic conditions displayed biphasic changes of the oxygen consumption rate (OCR): an initial increase in baseline and Vmax of OCR after 3 days, followed by decreased baseline and glucose stimulated OCR after 5 days. These changes were associated with lower islet ATP levels, impaired glucose-induced ATP generation, a trend for reduced mitochondrial DNA content and reduced expression of mitochondrial transcription factor A (Tfam). We discovered the accumulation of carnitine esters of hydroxylated long chain FAs, in particular 3-hydroxytetradecenoyl-carnitine. Conclusions: As long chain 3-hydroxylated FA metabolites are known to uncouple heart and brain mitochondria [53–55], we propose that under glucolipotoxic condition, unsaturated hydroxylated long-chain FAs accumulate, uncouple and ultimately inhibit β-cell respiration. This leads to the slow deterioration of mitochondrial function progressing to bioenergetics β-cell failure.

Published

2015

20. The Role of Sodium in Diabetic Cardiomyopathy

Author

Nicolai M. Doliba, Andriy M. Babsky, and Mary D. Osbakken

Subjects

sodium, calcium–sodium exchanger, NMRS, oxygen consumption, mitochondrial bioenergetics, Physiology, QP1-981

Abstract

Cardiovascular complications are the major cause of mortality and morbidity in diabetic patients. The changes in myocardial structure and function associated with diabetes are collectively called diabetic cardiomyopathy. Numerous molecular mechanisms have been proposed that could contribute to the development of diabetic cardiomyopathy and have been studied in various animal models of type 1 or type 2 diabetes. The current review focuses on the role of sodium (Na+) in diabetic cardiomyopathy and provides unique data on the linkage between Na+ flux and energy metabolism, studied with non-invasive 23Na, and 31P-NMR spectroscopy, polarography, and mass spectroscopy. 23Na NMR studies allow determination of the intracellular and extracellular Na+ pools by splitting the total Na+ peak into two resonances after the addition of a shift reagent to the perfusate. Using this technology, we found that intracellular Na+ is approximately two times higher in diabetic cardiomyocytes than in control possibly due to combined changes in the activity of Na+–K+ pump, Na+/H+ exchanger 1 (NHE1) and Na+-glucose cotransporter. We hypothesized that the increase in Na+ activates the mitochondrial membrane Na+/Ca2+ exchanger, which leads to a loss of intramitochondrial Ca2+, with a subsequent alteration in mitochondrial bioenergetics and function. Using isolated mitochondria, we showed that the addition of Na+ (1–10 mM) led to a dose-dependent decrease in oxidative phosphorylation and that this effect was reversed by providing extramitochondrial Ca2+ or by inhibiting the mitochondrial Na+/Ca2+ exchanger with diltiazem. Similar experiments with 31P-NMR in isolated superfused mitochondria embedded in agarose beads showed that Na+ (3–30 mM) led to significantly decreased ATP levels and that this effect was stronger in diabetic rats. These data suggest that in diabetic cardiomyocytes, increased Na+ leads to abnormalities in oxidative phosphorylation and a subsequent decrease in ATP levels. In support of these data, using 31P-NMR, we showed that the baseline β-ATP and phosphocreatine (PCr) were lower in diabetic cardiomyocytes than in control, suggesting that diabetic cardiomyocytes have depressed bioenergetic function. Thus, both altered intracellular Na+ levels and bioenergetics and their interactions may significantly contribute to the pathology of diabetic cardiomyopathy.

Published

2018

21. Synergistic Effect on Neurodegeneration by N-Truncated Aβ4−42 and Pyroglutamate Aβ3−42 in a Mouse Model of Alzheimer's Disease

Author

Jose S. Lopez-Noguerola, Nicolai M. E. Giessen, Maximilian Ueberück, Julius N. Meißner, Charlotte E. Pelgrim, Johnathan Adams, Oliver Wirths, Yvonne Bouter, and Thomas A. Bayer

Subjects

Alzheimer's disease, N-truncated Aβ, pyroglutamate Aβ, neuron loss, intraneuronal Aβ, behavior, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

The N-terminally truncated pyroglutamate Aβ3−42 (AβpE3−42) and Aβ4−42 peptides are known to be highly abundant in the brain of Alzheimer's disease (AD) patients. Both peptides show enhanced aggregation and neurotoxicity in comparison to full-length Aβ, suggesting that these amyloid peptides may play an important role in the pathogenesis of AD. The aim of the present work was to study the direct effect of the combination of AβpE3−42 and Aβ4−42 on ongoing AD-related neuron loss, pathology, and neurological deficits in transgenic mice. Bigenic mice were generated by crossing the established TBA42 and Tg4-42 mouse models expressing the N-truncated Aβ peptides AβpE3−42 and Aβ4−42, respectively. After generation of the bigenic mice, detailed phenotypical characterization was performed using either immunostainings to evaluate amyloid pathology or quantification of neuron numbers using design-based stereology. The elevated plus maze was used to study anxiety levels. In order to evaluate sensori-motor deficits, the inverted grid, the balance beam and the string suspension tasks were applied. We could demonstrate that co-expression of AβpE3−42 and Aβ4−42 accelerates neuron loss in the CA1 pyramidal layer of young bigenic mice as seen by reduced neuron numbers in comparison to single transgenic homozygous mice expressing either AβpE3−42 or Aβ4−42. This observation coincides with the robust intraneuronal Aβ accumulation observed in the bigenic mice. In addition, loss of anxiety and motor deficits were enhanced in an age-dependent manner. The sensori-motor deficits correlate with the abundant spinal cord pathology, as demonstrated by robust intracellular Aβ accumulation within motor neurons and extracellular Aβ deposition. Our observations demonstrate that a combination of AβpE3−42 and Aβ4−42 has a stronger effect on ongoing AD pathology than the peptides alone. Therefore, AβpE3−42 and Aβ4−42 might represent excellent potential therapeutic targets and diagnostic markers for AD.

Published

2018

22. Identification of Patulin from Penicillium coprobium as a Toxin for Enteric Neurons

Author

Benjamin Brand, Nicolai M. Stoye, Malena dos Santos Guilherme, Vu Thu Thuy Nguyen, Julia C. Baumgaertner, Anja Schüffler, Eckhard Thines, and Kristina Endres

Subjects

enteric nervous system, fungi, fusarium, gastrointestinal system, microbiome, mycotoxins, Penicillium, Organic chemistry, QD241-441

Abstract

The identification and characterization of fungal commensals of the human gut (the mycobiota) is ongoing, and the effects of their various secondary metabolites on the health and disease of the host is a matter of current research. While the neurons of the central nervous system might be affected indirectly by compounds from gut microorganisms, the largest peripheral neuronal network (the enteric nervous system) is located within the gut and is exposed directly to such metabolites. We analyzed 320 fungal extracts and their effect on the viability of a human neuronal cell line (SH-SY5Y), as well as their effects on the viability and functionality of the most effective compound on primary enteric neurons of murine origin. An extract from P. coprobium was identified to decrease viability with an EC50 of 0.23 ng/µL in SH-SY5Y cells and an EC50 of 1 ng/µL in enteric neurons. Further spectral analysis revealed that the effective compound was patulin, and that this polyketide lactone is not only capable of evoking ROS production in SH-SY5Y cells, but also diverse functional disabilities in primary enteric neurons such as altered calcium signaling. As patulin can be found as a common contaminant on fruit and vegetables and causes intestinal injury, deciphering its specific impact on enteric neurons might help in the elaboration of preventive strategies.

Published

2019

23. RNA-binding protein PCBP2 regulates pancreatic [beta] cell function and adaptation to glucose

Author

Haemmerle, Matthew W., Scota, Andrea V., Khosravifar, Mina, Varney, Matthew J., Sen, Sabyasachi, Good, Austin L., Yang, Xiaodun, Wells, Kristen L., Sussel, Lori, Rozo, Andrea V., Doliba, Nicolai M., Ghanem, Louis R., and Stoffers, Doris A.

Subjects

Binding proteins -- Health aspects -- Genetic aspects, Pancreatic beta cells -- Genetic aspects -- Health aspects, Cellular control mechanisms -- Health aspects -- Genetic aspects, Glucose metabolism -- Genetic aspects -- Health aspects, Type 2 diabetes -- Development and progression -- Genetic aspects -- Care and treatment, Health care industry

Abstract

Glucose plays a key role in shaping pancreatic [beta] cell function. Thus, deciphering the mechanisms by which this nutrient stimulates [beta] cells holds therapeutic promise for combating [beta] cell failure in type 2 diabetes (T2D). [beta] cells respond to hyperglycemia in part by rewiring their mRNA metabolism, yet the mechanisms governing these changes remain poorly understood. Here, we identify a requirement for the RNA-binding protein PCBP2 in maintaining [beta] cell function basally and during sustained hyperglycemic challenge. PCBP2 was induced in primary mouse islets incubated with elevated glucose and was required to adapt insulin secretion. Transcriptomic analysis of primary Pcbp2-deficient [beta] cells revealed impacts on basal and glucose-regulated mRNAs encoding core components of the insulin secretory pathway. Accordingly, Pcbp2-deficient [beta] cells exhibited defects in calcium flux, insulin granule ultrastructure and exocytosis, and the amplification pathway of insulin secretion. Further, PCBP2 was induced by glucose in primary human islets, was downregulated in islets from T2D donors, and impacted genes commonly altered in islets from donors with T2D and linked to single-nucleotide polymorphisms associated with T2D. Thus, these findings establish a paradigm for PCBP2 in governing basal and glucose-adaptive gene programs critical for shaping the functional state of [beta] cells., Introduction Glucose uptake and metabolism are the most physiologically important driver of insulin release from pancreatic islet [beta] cells, a highly specialized class of endocrine cells that secrete this hormone [...]

Published

2024

24. An Educational Need Regarding Treatment-Related Infertility and Fertility Preservation: a National Survey Among Members of the Dutch Society for Medical Oncologists

Author

Krouwel, E. M., Birkhoff, E. M. L., Nicolai, M. P. J., Osanto, S., Putter, H., Pelger, R. C. M., and Elzevier, H. W.

Published

2023

25. Role and mechanism of REG2 depletion in insulin secretion augmented by glutathione peroxidase-1 overproduction

Author

Yan, Xi, Zhao, Zeping, Weaver, Jeremy, Sun, Tao, Yun, Jun-Won, Roneker, Carol A., Hu, Fenghua, Doliba, Nicolai M., McCormick, Charles Chipley W., Vatamaniuk, Marko Z., and Lei, Xin Gen

Published

2022

26. Sexual and fertility-related adverse effects of medicinal treatment for cancer; a national evaluation among medical oncologists

Author

Krouwel, E. M., Kramer, Z., Gordijn, R., Nicolai, M. P. J., Osanto, S., Putter, H., Pelger, R. C. M., and Elzevier, H. W.

Published

2022

27. Pollinator shifts despite hybridisation in the Cape's hyperdiverse heathers (Erica, Ericaceae).

Author

Musker, Seth D., Pirie, Michael D., and Nürk, Nicolai M.

Subjects

REPRODUCTIVE isolation, POLLINATION by insects, POPULATION differentiation, SYMPATRIC speciation, POPULATION genetics

Abstract

Interrogating the ecological and geographic factors that influence population divergence dynamics can reveal why some groups of organisms diversify more prolifically than others. One such group is the heathers (Erica, Ericaceae), the largest plant genus in the Cape Floristic Region. We study Erica abietina, a highly variable species complex with four subspecies differing in geographic range, habitat and pollination syndrome. We test for population differentiation, hybridisation, introgression and pollinator‐driven divergence using genotyping‐by‐sequencing on samples across the entire distribution. We find five variably distinct genetic groups, with one subspecies comprising two independent lineages that are geographically isolated and occur on different soil types. Phylogenetic analysis suggests two independent shifts between bird and insect pollination, with accompanying genetic divergence. However, for one pair of populations with different pollinators, we uncover several individuals of hybrid origin at a site of sympatry. These results suggest that floral differentiation driven by divergent selection acts in concert with geographic isolation to maintain reproductive isolation and promote speciation. Our investigations reveal a highly dynamic system whose diversity has been shaped by a variety of interacting forces. We suggest that such a system could be a model for much of the diversification of the Cape flora. [ABSTRACT FROM AUTHOR]

Published

2024

28. Figure 1 from: Oliver EGH, Forshaw N, Oliver IM, Volk F, Schumann AWS, Dorr LJ, Hoekstra RD, Musker SD, Nürk NM, Pirie MD, Rebelo AG (2024) Genus Erica: An identification aid version 4.00. PhytoKeys 241: 143-154. https://doi.org/10.3897/phytokeys.241.117604

Author

Oliver, E. G. H., primary, Forshaw, Nigel, additional, Oliver, Inge M., additional, Volk, Fritz, additional, Schumann, A. W. S., additional, Dorr, Laurence J., additional, Hoekstra, Rendert D., additional, Musker, Seth D., additional, Nürk, Nicolai M., additional, Pirie, Michael D., additional, and Rebelo, Anthony G., additional

Published

2024

29. Figure 3 from: Oliver EGH, Forshaw N, Oliver IM, Volk F, Schumann AWS, Dorr LJ, Hoekstra RD, Musker SD, Nürk NM, Pirie MD, Rebelo AG (2024) Genus Erica: An identification aid version 4.00. PhytoKeys 241: 143-154. https://doi.org/10.3897/phytokeys.241.117604

Author

Oliver, E. G. H., primary, Forshaw, Nigel, additional, Oliver, Inge M., additional, Volk, Fritz, additional, Schumann, A. W. S., additional, Dorr, Laurence J., additional, Hoekstra, Rendert D., additional, Musker, Seth D., additional, Nürk, Nicolai M., additional, Pirie, Michael D., additional, and Rebelo, Anthony G., additional

Published

2024

30. Quality of life after penile cancer surgery: Comparison between amputative and penile-sparing surgery.

Author

Vreeburg, M.T.A., primary, Van Harten, M.J., additional, de Vries, H-M., additional, de Ligt, K.M., additional, Van Muilekom, E., additional, Van Kesteren, J., additional, Van Der Poel, H.G., additional, Elzevier, H.W., additional, Nicolai, M., additional, and Brouwer, O.R., additional

Published

2024

31. Spatial decoupling of taxon richness, phylogenetic diversity and threat status in the megagenus Erica (Ericaceae)

Author

Pirie, Michael D., Bellstedt, Dirk U., Bouman, R.W. (Roderick), Fagúndez, Jaime, Gehrke, Berit, Kandziora, Martha, Le Maitre, Nicholas C., Musker, Seth D., Newman, Ethan, Nürk, Nicolai M., Oliver, E. G. H., Pipins, Sebastian, van der Niet, Timotheus, Forest, Félix, Pirie, Michael D., Bellstedt, Dirk U., Bouman, R.W. (Roderick), Fagúndez, Jaime, Gehrke, Berit, Kandziora, Martha, Le Maitre, Nicholas C., Musker, Seth D., Newman, Ethan, Nürk, Nicolai M., Oliver, E. G. H., Pipins, Sebastian, van der Niet, Timotheus, and Forest, Félix

Abstract

Estimates of the number of vascular plant species currently under threat of extinction are shockingly high, with the highest extinction rates reported for narrow-range, woody plants, especially in biodiversity hotspots with Mediterranean and tropical climates. The large genus Erica is a prime example, as a large proportion of its 851 species, all shrubs or small trees, are endemic to the Cape Floristic Region (CFR) of South Africa. Almost two hundred are known to be threatened and a further hundred are ‘Data Deficient’. We need to target conservation efforts and research to fill the most problematic knowledge gaps. This can be especially challenging in large genera, such as Erica, with numerous threatened species that are closely related. One approach involves combining knowledge of phylogenetic diversity with that of IUCN threat status to identify the most Evolutionarily Distinct and Globally Endangered (EDGE) species. We present an expanded and improved phylogenetic hypothesis for Erica (representing 65% of described species diversity) and combine this with available threat and distribution data to identify species and geographic areas that could be targeted for conservation effort to maximise preservation of phylogenetic diversity (PD). The resulting 39 EDGE taxa include 35 from the CFR. A further 32 high PD, data deficient taxa are mostly from outside the CFR, reflecting the low proportion of assessed taxa outside South Africa. The most taxon-rich areas are found in the south-western CFR. They are not the most phylogenetically diverse, but do include the most threatened PD. These results can be cross-referenced to existing living and seed-banked ex situ collections and used to target new and updated threat assessments and conservation action.

Published

2024

32. Utilisation du lambeau de muscle grand dorsal pédiculé combiné à la thérapie à pression négative dans la prise en charge des complications septiques post-pneumonectomie

Author

Nicolaï, M., Siat, J., De Runz, A., Brix, M., and Simon, E.

Published

2020

33. DNA methylation-based assessment of cell composition in human pancreas and islets

Author

Drawshy, Zeina, primary, Neiman, Daniel, additional, Fridlich, Ori, additional, Peretz, Ayelet, additional, Magenheim, Judith, additional, Rozo, Andrea V, additional, Doliba, Nicolai M, additional, Stoffers, Doris A, additional, Kaestner, Klaus H, additional, Schatz, Desmond A, additional, Wasserfall, Clive, additional, Campbell-Thompson, Martha, additional, Shapiro, James, additional, Kaplan, Tommy, additional, Shemer, Ruth, additional, Glaser, Benjamin, additional, Klochendler, Agnes, additional, and Dor, Yuval, additional

Published

2024

34. Genus Erica: An Identification Aid Version 4.00

Author

Oliver, E. G. H., primary, Forshaw, Nigel, additional, Oliver, Inge M., additional, Volk, Fritz, additional, Schumann, A. W. S., additional, Dorr, Laurence J., additional, Hoekstra, Rendert D., additional, Musker, Seth D., additional, Nürk, Nicolai M., additional, Pirie, Michael, additional, and Rebelo, Anthony G., additional

Published

2024

35. Use of Allium® ureteral stents: Functional and surgical outcomes

Author

Litterio, G., primary, Nicolai, M., additional, Berardinelli, F., additional, Ciavarella, D., additional, De Palma, A., additional, Ferretti, S., additional, Orsini, A., additional, Basconi, M., additional, Cicchetti, R., additional, Tamborino, F., additional, Falcone, A., additional, Marchioni, M., additional, and Schips, L., additional

Published

2024

36. Discussing Sexual Health in the Medical Oncologist’s Practice: Exploring Current Practice and Challenges

Author

Krouwel, E. M., Albers, L. F., Nicolai, M. P. J., Putter, H., Osanto, S., Pelger, R. C. M., and Elzevier, H. W.

Published

2020

37. Island woodiness underpins accelerated disparification in plant radiations

Author

Nürk, Nicolai M., Atchison, Guy W., and Hughes, Colin E.

Published

2019

38. Allosteric modulation of β-cell M₃ muscarinic acetylcholine receptors greatly improves glucose homeostasis in lean and obese mice

Author

Zhu, Lu, Rossi, Mario, Cohen, Amanda, Pham, Jonathan, Zheng, Hongchao, Dattaroy, Diptadip, Mukaibo, Taro, Melvin, James E., Langel, Jennifer L., Hattar, Samer, Matschinsky, Franz M., Appella, Daniel H., Doliba, Nicolai M., and Wess, Jürgen

Published

2019

39. Genetic and hypoxic alterations of the microRNA-210-ISCU1/2 axis promote iron-sulfur deficiency and pulmonary hypertension.

Author

White, Kevin, Lu, Yu, Annis, Sofia, Hale, Andrew E, Chau, B Nelson, Dahlman, James E, Hemann, Craig, Opotowsky, Alexander R, Vargas, Sara O, Rosas, Ivan, Perrella, Mark A, Osorio, Juan C, Haley, Kathleen J, Graham, Brian B, Kumar, Rahul, Saggar, Rajan, Saggar, Rajeev, Wallace, W Dean, Ross, David J, Khan, Omar F, Bader, Andrew, Gochuico, Bernadette R, Matar, Majed, Polach, Kevin, Johannessen, Nicolai M, Prosser, Haydn M, Anderson, Daniel G, Langer, Robert, Zweier, Jay L, Bindoff, Laurence A, Systrom, David, Waxman, Aaron B, Jin, Richard C, and Chan, Stephen Y

Subjects

Cells, Cultured, Endothelial Cells, Animals, Humans, Mice, Hypertension, Pulmonary, Genetic Predisposition to Disease, Sulfur, Iron, Iron-Sulfur Proteins, MicroRNAs, Female, Hypoxia, endothelial, iron–sulfur, metabolism, microRNA, mitochondria, iron-sulfur, Cells, Cultured, Hypertension, Pulmonary, Biological Sciences, Medical and Health Sciences

Abstract

Iron-sulfur (Fe-S) clusters are essential for mitochondrial metabolism, but their regulation in pulmonary hypertension (PH) remains enigmatic. We demonstrate that alterations of the miR-210-ISCU1/2 axis cause Fe-S deficiencies in vivo and promote PH. In pulmonary vascular cells and particularly endothelium, hypoxic induction of miR-210 and repression of the miR-210 targets ISCU1/2 down-regulated Fe-S levels. In mouse and human vascular and endothelial tissue affected by PH, miR-210 was elevated accompanied by decreased ISCU1/2 and Fe-S integrity. In mice, miR-210 repressed ISCU1/2 and promoted PH. Mice deficient in miR-210, via genetic/pharmacologic means or via an endothelial-specific manner, displayed increased ISCU1/2 and were resistant to Fe-S-dependent pathophenotypes and PH. Similar to hypoxia or miR-210 overexpression, ISCU1/2 knockdown also promoted PH. Finally, cardiopulmonary exercise testing of a woman with homozygous ISCU mutations revealed exercise-induced pulmonary vascular dysfunction. Thus, driven by acquired (hypoxia) or genetic causes, the miR-210-ISCU1/2 regulatory axis is a pathogenic lynchpin causing Fe-S deficiency and PH. These findings carry broad translational implications for defining the metabolic origins of PH and potentially other metabolic diseases sharing similar underpinnings.

Published

2015

40. Metabolic stress activates an ERK/hnRNPK/DDX3X pathway in pancreatic β cells

Author

Good, Austin L., Haemmerle, Matthew W., Oguh, Alexis U., Doliba, Nicolai M., and Stoffers, Doris A.

Published

2019

41. JUND regulates pancreatic β cell survival during metabolic stress

Author

Good, Austin L., Cannon, Corey E., Haemmerle, Matthew W., Yang, Juxiang, Stanescu, Diana E., Doliba, Nicolai M., Birnbaum, Morris J., and Stoffers, Doris A.

Published

2019

42. New Method for Quantitative Determination of Volatile Compounds in Spirit Drinks by Gas Chromatography. Ethanol as Internal Standard

Author

Charapitsa, Siarhei V., Kavalenka, Anton N., Kulevich, Nikita V., Makoed, Nicolai M., Mazanik, Arkadzi L., and Sytova, Svetlana N.

Subjects

Physics - Chemical Physics

Abstract

The new methodical approach of using ethanol as internal standard in gas chromatographic analysis of volatile compounds in spirit drinks in daily practice of testing laboratories is proposed. This method provides determination of volatile compounds concentrations in spirit drinks directly expressed in milligrams per liter (mg/L) of absolute alcohol according to official methods without measuring of alcohol strength of analyzed sample. The experimental demonstration of this method for determination of volatile compounds in spirit drinks by gas chromatography is described., Comment: 7 pages, 2 figures, 3 tables

Published

2012

43. Cell dysfunction in islets from nondiabetic, glutamic acid decarboxylase autoantibody-positive individuals

Author

Doliba, Nicolai M., Rozo, Andrea V., Roman, Jeffrey, Qin, Wei, Traum, Daniel, Gao, Long, Liu, Jinping, Manduchi, Elisabetta, Liu, Chengyang, Golson, Maria L., Vahedi, Golnaz, Naji, Ali, Matschinsky, Franz M., Atkinson, Mark A., Powers, Alvin C., Brissova, Marcela, Kaestner, Klaus H., and Stoffers, Doris A.

Subjects

Type 1 diabetes -- Development and progression, Pancreatic beta cells -- Physiological aspects -- Health aspects, Islet cell stimulating antibodies -- Physiological aspects -- Health aspects, Glutamate decarboxylase -- Physiological aspects -- Health aspects, Health care industry

Abstract

BACKGROUND. Multiple islet autoantibodies (AAbs) predict the development of type 1 diabetes (T1D) and hyperglycemia within 10 years. By contrast, T1D develops in only approximately 15% of individuals who are positive for single AAbs (generally against glutamic acid decarboxylase [GADA]); hence, the single [GADA.sup.+] state may represent an early stage of T1D. METHODS. Here, we functionally, histologically, and molecularly phenotyped human islets from nondiabetic [GADA.sup.+] and T1D donors. RESULTS. Similar to the few remaining [beta] cells in the T1D islets, [GADA.sup.+] donor islets demonstrated a preserved insulin secretory response. By contrast, [alpha] cell glucagon secretion was dysregulated in both [GADA.sup.+] and T1D islets, with impaired glucose suppression of glucagon secretion. Single-cell RNA-Seq of [GADA.sup.+] [alpha] cells revealed distinct abnormalities in glycolysis and oxidative phosphorylation pathways and a marked downregulation of cAMP-dependent protein kinase inhibitor p (PKIB), providing a molecular basis for the loss of glucose suppression and the increased effect of 3-isobutyl-1-methylxanthine (IBMX) observed in [GADA.sup.+] donor islets. CONCLUSION. We found that [alpha] cell dysfunction was present during the early stages of islet autoimmunity at a time when p cell mass was still normal, raising important questions about the role of early [alpha] cell dysfunction in the progression of T1D. FUNDING. This work was supported by grants from the NIH (3UC4DK112217-01S1, U01DK123594-02, UC4DK112217, UC4DK112232, U01DK123716, and P30 DK019525) and the Vanderbilt Diabetes Research and Training Center (DK20593)., Introduction Longitudinal studies have shown that individuals who are at high genetic risk for or have a family history of type 1 diabetes (T1D), who later develop diabetes, progress through [...]

Published

2022

44. Spatial decoupling of taxon richness, phylogenetic diversity and threat status in the megagenus Erica (Ericaceae).

Author

Pirie, Michael D., Bellstedt, Dirk U., Bouman, Roderick W., Fagúndez, Jaime, Gehrke, Berit, Kandziora, Martha, Le Maitre, Nicholas C., Musker, Seth D., Newman, Ethan, Nürk, Nicolai M., Oliver, E. G. H., Pipins, Sebastian, van der Niet, Timotheus, and Forest, Félix

Subjects

BIOLOGICAL extinction, ENDANGERED species, ERICACEAE, TROPICAL climate, MEDITERRANEAN climate

Abstract

Estimates of the number of vascular plant species currently under threat of extinction are shockingly high, with the highest extinction rates reported for narrow-range, woody plants, especially in biodiversity hotspots with Mediterranean and tropical climates. The large genus Erica is a prime example, as a large proportion of its 851 species, all shrubs or small trees, are endemic to the Cape Floristic Region (CFR) of South Africa. Almost two hundred are known to be threatened and a further hundred are 'Data Deficient'. We need to target conservation efforts and research to fill the most problematic knowledge gaps. This can be especially challenging in large genera, such as Erica, with numerous threatened species that are closely related. One approach involves combining knowledge of phylogenetic diversity with that of IUCN threat status to identify the most Evolutionarily Distinct and Globally Endangered (EDGE) species. We present an expanded and improved phylogenetic hypothesis for Erica (representing 65% of described species diversity) and combine this with available threat and distribution data to identify species and geographic areas that could be targeted for conservation effort to maximise preservation of phylogenetic diversity (PD). The resulting 39 EDGE taxa include 35 from the CFR. A further 32 high PD , data deficient taxa are mostly from outside the CFR , reflecting the low proportion of assessed taxa outside South Africa. The most taxon-rich areas are found in the south-western CFR. They are not the most phylogenetically diverse, but do include the most threatened PD. These results can be cross-referenced to existing living and seed-banked ex situ collections and used to target new and updated threat assessments and conservation action. [ABSTRACT FROM AUTHOR]

Published

2024

45. Genus Erica: An identification aid version 4.00.

Author

Oliver, E. G. H., Forshaw, Nigel, Oliver, Inge M., Volk, Fritz, Schumann, A. W. S., Dorr, Laurence J., Hoekstra, Rendert D., Musker, Seth D., Nürk, Nicolai M., Pirie, Michael D., and Rebelo, Anthony G.

Subjects

SEED harvesting, IDENTIFICATION, CONSERVATION biology, BOTANY, BOTANISTS

Abstract

Species identification is fundamental to all aspects of biology and conservation. The process can be challenging, particularly in groups including many closely related or similar species. The problem is confounded by the absence of an up-to-date taxonomic revision, but even with such a resource all but professional botanists may struggle to recognise key species, presenting a substantial barrier to vital work such as surveys, threat assessments, and seed collection for ex situ conservation. Genus Erica: An Identification Aid is a tool to help both amateurs and professionals identify (using a limited number of accessible characteristics) and find information about the 851 species and many subspecific taxa of the genus Erica. We present an updated version 4.00, with new features including integrating distribution data from GBIF and iNaturalist, links to taxonomic resources through World Flora Online, and a probability function for identifications, that is freely available for PCs. It remains a work in progress: We discuss routes forward for collaboratively improving this resource. [ABSTRACT FROM AUTHOR]

Published

2024

46. Phylogenetics in Scyphostelma (Apocynaceae: Orthosiinae) and description of new species

Author

Pineda, Yam M., primary, Keller, Héctor A., additional, Balderrama-Torrico, José A., additional, Meve, Ulrich, additional, Nürk, Nicolai M., additional, and Liede-Schumann, Sigrid, additional

Published

2023

47. Are the radiations of temperate lineages in tropical alpine ecosystems pre-adapted?

Author

Nürk, Nicolai M., Michling, Florian, and Linder, H. Peter

Published

2018

48. Die Commerzbank und ihre Kunden

Author

Zimmermann, Nicolai M., primary

Published

2020

49. Cryptic gene pools in the Hypericum perforatum–H. maculatum complex : diploid persistence versus trapped polyploid melting

Author

Scheriau, Charlotte L., Nuerk, Nicolai M., Sharbel, Timothy F., and Koch, Marcus A.

Published

2017

50. The dynamics of species divergence in South Africa's megadiverse Cape region.

Author

Musker, Seth D, primary, Pirie, Michael D, additional, and Nürk, Nicolai M., additional

Published

2023