The response of A1 dorso-medial and L1 dorso-lateral gypsy moth neurosecretory neurons after acute exposure to magnetic fields.
2012
Аутори:
Ilijin, LarisaVlahović, Milena
Mrdaković, Marija
Todorović, Dajana
Matić, Dragana
Prolić, Zlatko
Perić Mataruga, Vesna
Остала ауторства
Ristić, GoranТип документа:
Конференцијски прилог (Објављена верзија)
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© 2012 by the Faculty of Electronic Engineering
Метаподаци
Приказ свих података о документуАпстракт:
The effects of magnetic fields on the physiology of neuroendocrine system and developmental processes in insects are poorly examined. Neurohormones are synthesized and secrete in neurosecretory neurons. Insects` neuroendocrine system, via neurohormones, regulates the basic life processes and reacts quickly to environmental changes including ,magnetic fields effects.
The aim of our work was to overview specific and non specific responses to the acute effects of magnetic fields on different neurosecretory neurons. Neurohormones synthesized in A1 and L1 neurosecretory neurons represent the major regulatory proteins of all biochemical, physiological and behavioral processes, and trophic factors regulating the synthesis of juvenile hormones (allatotropic factors - synthesized in L1 neurons).
The morphometric changes (the size of neurosecretory neurons and nuclei, number of nucleoli in nuclei) and number of protocerebral dorso-medial A1 and dorso-lateral L1 neurosecretory neurons, were analyzed in Lymantria dispar larvae after a 3 day exposure to strong static (SMF, 235 mT) and extremely low frequency magnetic field (ELF MF, 2mT).
A decrease of all analyzed morphometric parameters in comparison to the control group of caterpillars were showed after acute exposure to SMF and ELF MF, In these neurosecretory neurons an increase in amount of large grained neurosecretory material was observed after exposure to SMF, while exposure to ELF MF led to a decrease in amount of neurosecretory material. The acute exposure of dorso-lateral L1 neurosecretory neurons to SMF did not influence all analyzed morphometric parameters, while ELF MF has increased the number and size of neurosecretory neurons. Significant decrease was observed in the size of L1 nuclei. After exposure to both magnetic fields in cytoplasm of L1 neurons a large amount of large grained material was present.
Финансирање / пројекти:
- Утицај магнетних поља и других срединских стресора на физиолошке одговоре и понашање различитих врста (RS-MESTD-Basic Research (BR or ON)-173027)
У:
- Ristić G, editor. The First International Conference on Radiation and Dosimetry in Various Fields of Research, RAD 2012. Book of Abstract. 2012 Apr 25-27; Niš, Serbia. Niš: Faculty of Electronic Engineering; 2012. p. 181.