Your search keyword '"Pakarinen K"' showing total 14 results

1. Chironomus riparius exposure to fullerene-contaminated sediment results in oxidative stress and may impact life cycle parameters

Author

Waissi, G.C., Bold, S., Pakarinen, K., Akkanen, J., Leppänen, M.T., Petersen, E.J., and Kukkonen, J.V.K.

Published

2017

2. Chironomus riparius exposure to fullerene-contaminated sediment results in oxidative stress and may impact life cycle parameters

Author

Waissi, G. C., Bold, Sina, Pakarinen, K., Akkanen, J., Leppanen, M. T., Petersen, E. J., Kukkonen, J. V. K., Waissi, G. C., Bold, Sina, Pakarinen, K., Akkanen, J., Leppanen, M. T., Petersen, E. J., and Kukkonen, J. V. K.

Abstract

Highlights: • FullerenesC60 were tested to C. riparius with acute and chronic exposures. • The rapid uptake of fullerenes by C. riparius observed after an acute experiment. • Oxidative stress was localized in tissues under microvilli layer. Abstract: A key component of understanding the potential environmental risks of fullerenes (C60) is their potential effects on benthic invertebrates. Using the sediment dwelling invertebrate Chironomus riparius we explored the effects of acute (12 h and 24 h) and chronic (10 d, 15 d, and 28 d) exposures of sediment associated fullerenes. The aims of this study were to assess the impact of exposure to C60 in the sediment top layer ((0.025, 0.18 and 0.48) C60 mg/cm2) on larval growth, oxidative stress and emergence rates and to quantify larval body burdens in similarly exposed organisms. Oxidative stress localization was observed in the tissues next to the microvilli and exoskeleton through a method for identifying oxidative stress reactions generated by reactive oxygen species. Rapid intake of fullerenes was shown in acute experiments, whereas body residues decreased after chronic exposure. Transmission electron microscopy analysis revealed oxidative damage and structural changes in cells located between the lipid droplets and next to the microvilli layer in fullerene exposed samples. Fullerene associated sediments also caused changes in the emergence rate of males and females, suggesting that the cellular interactions described above or other effects from the fullerenes may influence reproduction rates

Published

2017

3. The chronic effects of fullereneC 60 -associated sediments in the midge Chironomus riparius – Responses in the first and the second generation

Author

Waissi, G.C., primary, Väänänen, K., additional, Nybom, I., additional, Pakarinen, K., additional, Akkanen, J., additional, Leppänen, M.T., additional, and Kukkonen, J.V.K., additional

Published

2017

4. The chronic effects of fullereneC60-associated sediments in the midge Chironomus riparius – Responses in the first and the second generation.

Author

Waissi, G.C., Väänänen, K., Nybom, I., Pakarinen, K., Akkanen, J., Leppänen, M.T., and Kukkonen, J.V.K.

Subjects

CHIRONOMUS riparius, FULLERENES, ENVIRONMENTAL toxicology, PHYSIOLOGICAL effects of nanoparticles, POPULATION dynamics

Abstract

The life cycle parameters of the benthic invertebrate Chironomus riparius make it a relevant organism for use in multi-generation chronic ecotoxicology tests. Since studies on chronic exposures with fullerene carbon nanoparticles have revealed adverse effects at lower concentration ranges, it is crucial to gain understanding of the consequences in following generations. The aims of this study were to investigate whether sediment-associated fullereneC 60 impacts on C. riparius emergence and breeding, thus affecting the growth of the second generation. Larvae were exposed to fullerene-spiked sediment at concentrations of 0.5, 10 and 40 mg/kg sediment dw. Total emergence and breeding success were monitored after the first generation and the newly hatched larvae from the first generation exposure were transferred either to continuous exposure or to pristine sediment without fullerene. Findings indicate that the presence of fullerenes has major impacts on the first generation, mainly shown as delayed emergence time of females. Increased larval growth was observed in the second generation, and we conclude that the C. riparius response to fullerene exposure indicated significant signs of recovery in second-generation larval growth. The result shows the effects to be important for population dynamics, revealing delayed female emergence time, which leads to situation where adults’ breeding is impaired. [ABSTRACT FROM AUTHOR]

Published

2017

5. Adverse effects of fullerenes (nC60) spiked to sediments on Lumbriculus variegatus (Oligochaeta)

Author

Pakarinen, K., primary, Petersen, E.J., additional, Leppänen, M.T., additional, Akkanen, J., additional, and Kukkonen, J.V.K., additional

Published

2011

6. Effect of COMT gene disruption on extracellular dopamine concentration as measured by quantitative no-net-flux microdialysis

Author

Tammimäki, Anne, primary, Pakarinen, K., additional, Käenmäki, M., additional, and Männistö, P.T., additional

Published

2008

7. CONSUMPTION OF LIQUOR AND CHILDHOOD SOCIOECONOMIC STATUS.

Author

Pakarinen, K, primary, Eriksson, C J.P., additional, and Kauhanen, J, additional

Published

2004

8. Adverse effects of fullerenes (nC60) spiked to sediments on Lumbriculus variegatus (Oligochaeta).

Author

Pakarinen, K., Petersen, E.J., Leppänen, M.T., Akkanen, J., and Kukkonen, J.V.K.

Subjects

ENVIRONMENTAL toxicology research, EFFECT of contaminated sediments on aquatic organisms, FULLERENES & the environment, AGGLOMERATION (Materials), LUMBRICULUS variegatus, ELECTRON microscopy, REPRODUCTION, GROWTH research, SURVIVAL analysis (Biometry), ANIMAL feeding behavior

Abstract

Effects of fullerene-spiked sediment on a benthic organism, Lumbriculus variegatus (Oligochaeta), were investigated. Survival, growth, reproduction, and feeding rates were measured to assess possible adverse effects of fullerene agglomerates produced by water stirring and then spiked to a natural sediment. L. variegatus were exposed to 10 and 50 mg fullerenes/kg sediment dry mass for 28 d. These concentrations did not impact worm survival or reproduction compared to the control. Feeding activities were slightly decreased for both concentrations indicating fullerenes’ disruptive effect on feeding. Depuration efficiency decreased in the high concentration only. Electron and light microscopy and extraction of the worm fecal pellets revealed fullerene agglomerates in the gut tract but not absorption into gut epithelial cells. Micrographs also indicated that 16% of the epidermal cuticle fibers of the worms were not present in the 50 mg/kg exposures, which may make worms susceptible to other contaminants. [Copyright &y& Elsevier]

Published

2011

9. Fullerenes(nC60) affect the growth and development of the sediment-dwelling invertebrate Chironomus riparius larvae.

Author

Waissi-Leinonen GC, Nybom I, Pakarinen K, Akkanen J, Leppänen MT, and Kukkonen JV

Subjects

Animals, Chironomidae drug effects, Female, Larva growth & development, Male, Chironomidae growth & development, Fullerenes toxicity, Geologic Sediments analysis, Larva drug effects, Water Pollutants, Chemical toxicity

Abstract

The possible toxicity of nanoparticles (NPs) to aquatic organisms needs to be investigated for chronic effects at low concentrations. Chronic effects of carbon NPs, fullerenesC60, on the midges of Chironomus riparius at different life stages on larvae and adult midges were investigated. Sediment associated fullerenesC60 were studied by 10-day growth and 42-day emergence tests with artificial sediment at nominal concentration ranges 0.0004-80 mg/kg dry weight. The body length decreased in the lower tested concentrations (0.0025-20 mg/kg), but the effect vanished with higher concentrations. Delayed emergence rate observed at 0.5 mg/kg. The observed effects correlated with analyzed sediment particle sizes indicating that small agglomerates of fullerene have more significant effects on C. riparius than larger agglomerates observed with higher C60 doses. The results reveal that fullerene may pose risks to benthic organisms, emerging as changes in the ecotoxic parameters studied here which inflects by the survival of the population., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015

10. Distribution of fullerenes (nC60) between sediment and water in freshwaters.

Author

Pakarinen K, Akkanen J, Leppänen MT, and Kukkonen JV

Subjects

Environmental Monitoring, Fresh Water analysis, Fullerenes analysis, Geologic Sediments analysis, Water Pollutants, Chemical analysis

Abstract

Depending on environmental conditions, fullerenes (nC60) have the potential to settle to the bottom sediments. In this study the distribution of nC60 was investigated in the labile zone between sediment and water. Three freshwater-sediment systems representing oligohumic, mesohumic, and polyhumic lakes with varying sediment composition and structure were used to investigate the target of fullerenes. The largest portion of water suspended fullerenes was found in the sediment, but a part re-suspended relatively quickly to water-stabile particles associated with natural particles. Rapid initial re-suspending was followed by a slower one offering a continuous pathway to the water phase. Re-suspending was highest from the sediment with a high amount of amorphous matter, small particles and a highly aliphatic character, amounting to 9±1% of the initial amount of fullerenes, whereas it was 4±1% in aromatic sediments with larger particles and less amorphous matter. These results indicate that bottom sediments can retain fullerenes but a portion may remain mobile depending on sediment character. Re-suspended fullerenes may again be available to aquatic species-this knowledge should thus be taken into account in the environmental risk assessment of fullerenes., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014

11. A screening study on the fate of fullerenes (nC60 ) and their toxic implications in natural freshwaters.

Author

Pakarinen K, Petersen EJ, Alvila L, Waissi-Leinonen GC, Akkanen J, Leppänen MT, and Kukkonen JV

Subjects

Animals, Daphnia, Environmental Monitoring, Fullerenes toxicity, Risk Assessment, Toxicity Tests, Water Pollutants, Chemical toxicity, Fresh Water chemistry, Fullerenes analysis, Water Pollutants, Chemical analysis

Abstract

Increasing usage of fullerenes (C60 ) increases their opportunities to be released into the environment. For risk assessment, it is important to understand the environmental fate and ecotoxicological effects of C60 . In the present study, fullerene settling was measured during a 1-yr period with 4 different lake waters and an artificial freshwater, and Daphnia magna immobilization and fullerene accumulation was also measured in each of the lake waters. Depending on the characteristics of the lake waters, fullerenes either exhibited extended water stability or settled rapidly; in all waters, there was a fraction that remained stable after 1 yr. Water stability was affected by the quality and molecular size distribution of dissolved natural organic matter (DNOM). Increasing DNOM molecular sizes with high aromatic content enhanced water stability. Immobilization of D. magna was generally quite low (under 20%) and highly variable after 24 h and 48 h at initial fullerene concentrations up to 10 mg/L. Substantial settling occurred during the time period for acute toxicity assays (i.e., 48 h), which should be anticipated when conducting toxicity assays. There were no significant differences in the quantity of accumulated fullerenes among the different lake waters at fullerene concentrations of 0.5 mg/L, but there were differences at 2 mg/L., (Copyright © 2013 SETAC.)

Published

2013

12. Toxicity of fullerene (C60) to sediment-dwelling invertebrate Chironomus riparius larvae.

Author

Waissi-Leinonen GC, Petersen EJ, Pakarinen K, Akkanen J, Leppänen MT, and Kukkonen JV

Subjects

Animals, Chironomidae growth & development, Food, Geologic Sediments, Larva drug effects, Larva growth & development, Toxicity Tests, Subacute, Chironomidae drug effects, Fullerenes toxicity, Water Pollutants, Chemical toxicity

Abstract

An environmentally realistic method to test fullerene (C(60) ) toxicity to the benthic organism Chironomus riparius was created by allowing suspended fullerenes to settle down, making a layer on top of the sediment. To test the hypothesis that higher food concentrations will reduce toxic responses, two food concentrations were tested (0.5 and 0.8% Urtica sp.) in sediment containing fullerene masses of 0.36 to 0.55 mg/cm(2) using a 10-d chronic test. In the 0.5% food level treatments, there were significant differences in all growth-related endpoints compared with controls. Fewer effects were observed for the higher food treatment. Fullerene agglomerates were observed by electron microscopy in the gut, but no absorption into the gut epithelial cells was detected. In the organisms exposed to fullerenes, microvilli were damaged and were significantly shorter. The potential toxicity of fullerene to C. riparius appears to be caused by morphological changes, inhibiting larval growth., (Copyright © 2012 SETAC.)

Published

2012

13. Vernalization response of Phleum pratense and its relationships to stem lignification and floral transition.

Author

Seppänen MM, Pakarinen K, Jokela V, Andersen JR, Fiil A, Santanen A, and Virkajärvi P

Subjects

Gene Expression Regulation, Plant physiology, Plant Proteins genetics, Plant Proteins metabolism, Polymerase Chain Reaction, Flowers growth & development, Flowers metabolism, Phleum growth & development, Phleum metabolism, Plant Stems growth & development, Plant Stems metabolism

Abstract

Background: Timothy is a long-day grass species well adapted for cultivation in northern latitudes. It produces elongating tillers not only in spring growth but also later in summer. As the quantity and quality of harvested biomass is dictated by canopy architecture and the proportion of stem-forming flowering tillers, the regulation of flowering is of great interest in forage grass production., Methods: Canopy architecture, stem morphology and freezing tolerance of vernalized timothy were investigated in greenhouse and field experiments. The molecular control of development was examined by analysing the relationship between apex development and expression of timothy homologues of the floral inducer VRN1 and repressor VRN2., Key Results: True stem formation and lignification of the sclerenchyma ring occur in both vernalized and regrowing stems irrespective of the developmental stage of the apex. The stems had, however, divergent morphology. Vernalization enhanced flowering, and the expression of the VRN1 homologue was elevated when the apex had passed into the reproductive stage. High VRN1 homologue expression was not associated with reduction in freezing tolerance and the expression coincided with increased levels of the floral repressor VRN2 homologue. Field experiments supported the observed linkage between the upregulation of the VRN1 homologue and the transition to the reproductive stage in vernalized tillers. The upregulation of putative VRN1 or VRN2 genes was restricted to vernalized tillers in the spring yield and, thus, not detected in non-vernalized tillers of the second yield; so-called regrowth., Conclusions: The formation of a lignified sclerenchyma ring that efficiently reduces the digestibility of the stem was not related to apex development but rather to a requirement for mechanical support. The observed good freezing tolerance of reproductive timothy tillers could be one important adaptation mechanism ensuring high yields in northern conditions. Both VRN1 and VRN2 homologues required a vernalization signal for expression so the development of yield-forming tillers in regrowth was regulated independently of the studied genes.

Published

2010

14. Quantitative role of COMT in dopamine clearance in the prefrontal cortex of freely moving mice.

Author

Käenmäki M, Tammimäki A, Myöhänen T, Pakarinen K, Amberg C, Karayiorgou M, Gogos JA, and Männistö PT

Subjects

Animals, Catechol O-Methyltransferase genetics, Corpus Striatum metabolism, Dopamine Plasma Membrane Transport Proteins antagonists & inhibitors, Female, Male, Mice, Mice, Knockout, Microdialysis, Monoamine Oxidase Inhibitors pharmacology, Mutation, Norepinephrine Plasma Membrane Transport Proteins antagonists & inhibitors, Norepinephrine Plasma Membrane Transport Proteins metabolism, Nucleus Accumbens metabolism, Prefrontal Cortex drug effects, Catechol O-Methyltransferase physiology, Dopamine metabolism, Prefrontal Cortex metabolism

Abstract

Catechol-O-methyltransferase (COMT) plays an active role in the metabolism of dopamine (DA) in the prefrontal cortex (PFC). Because of low levels of dopamine transporter (DAT), it is proposed that the majority of released DA is taken up by either norepinephrine transporter (NET) and subsequently metabolized by monoamine oxidize (MAO) or by uptake(2) (to glial cells and post-synaptic neurons) and metabolized by COMT. However, a comprehensive in vivo study of rating the mechanisms involved in DA clearance in the PFC has not been done. Here, we employ two types of microdialysis to study these pathways using DAT, NET and MAO blockers in conscious mice, with or without Comt gene disruption. In quantitative no-net-flux microdialysis, DA levels were increased by 60% in the PFC of COMT-knockout (ko) mice, but not in the striatum and nucleus accumbens. In conventional microdialysis studies, we showed that selective NET and MAO inhibition increased DA levels in the PFC of wild-type mice by two- to fourfold, an effect that was still doubled in COMT-ko mice. Inhibition of DAT had no effect on DA levels in either genotype. Therefore, we conclude that in the mouse, PFC COMT contributes about one half of the total DA clearance., (© 2010 The Authors. Journal Compilation © 2010 International Society for Neurochemistry.)

Published

2010