Background: Widely utilized pesticides such as chlorpyrifos (CPF) can cause cognitive abnormalities, neurotransmitter disruptions and brain cytoarchitecture deficits in adulthood due to exposure in the prenatal period, but the mechanism underlying the development and maintenance of such neurotoxicity in embryonic neurogenesis remains largely unclear. Using embryonic neocortex slices, we investigated mitosis population constituents and characteristic interkinetic nuclear migration (INM) to evaluate the CPF effects on the proliferation process of neural progenitors. Methods: Gestational days (GD) 14 and GD 7.5-11.5 ICR dams were exposed to 5 mg kg-1 of CPF to investigate immediate toxicity and sustained toxicity. Proliferating nuclei were labeled with 50 mg kg-1 of Brdu at 1, 3, 6 and 9 hours before samples were collected. The mitoses count and Brdu positive nuclei (BPN) location were measured and analyzed in standard sections of the embryonic dorsolateral cortex. Results: CPF reduced the mitoses count in the primary progenitors but not in the secondary progenitors which are time sustained. CPF retarded BPN migration with a 6-9 μm delay of the relative location in the immediate groups and a 3-6 μm delay in the sustained ones. CPF had no or little effects on the global mitoses count and BPN count. Conclusion: Prenatal CPF exposure disrupts the proliferation process of primary progenitors in the embryonic dorsolateral cortex immediately and with sustained effects, which may contribute to explain the toxicity mechanism in early neurogenesis.
Background: Widely utilized pesticides such as chlorpyrifos (CPF) can cause cognitive abnormalities, neurotransmitter disruptions and brain cytoarchitecture deficits in adulthood due to exposure in the prenatal period, but the mechanism underlying the development and maintenance of such neurotoxicity in embryonic neurogenesis remains largely unclear. Using embryonic neocortex slices, we investigated mitosis population constituents and characteristic interkinetic nuclear migration (INM) to evaluate the CPF effects on the proliferation process of neural progenitors. Methods: Gestational days (GD) 14 and GD 7.5-11.5 ICR dams were exposed to 5 mg kg-1 of CPF to investigate immediate toxicity and sustained toxicity. Proliferating nuclei were labeled with 50 mg kg-1 of Brdu at 1, 3, 6 and 9 hours before samples were collected. The mitoses count and Brdu positive nuclei (BPN) location were measured and analyzed in standard sections of the embryonic dorsolateral cortex. Results:CPF reduced the mitoses count in the primary progenitors but not in the secondary progenitors which are time sustained. CPF retarded BPN migration with a 6-9 μm delay of the relative location in the immediate groups and a 3-6 μm delay in the sustained ones. CPF had no or little effects on the global mitoses count and BPN count. Conclusion: Prenatal CPF exposure disrupts the proliferation process of primary progenitors in the embryonic dorsolateral cortex immediately and with sustained effects, which may contribute to explain the toxicity mechanism in early neurogenesis.
Authors: Virginia A Rauh; Frederica P Perera; Megan K Horton; Robin M Whyatt; Ravi Bansal; Xuejun Hao; Jun Liu; Dana Boyd Barr; Theodore A Slotkin; Bradley S Peterson Journal: Proc Natl Acad Sci U S A Date: 2012-04-30 Impact factor: 11.205
Authors: M A Prendergast; R L Self; K J Smith; L Ghayoumi; M M Mullins; T R Butler; J J Buccafusco; D A Gearhart; A V Terry Journal: Neuroscience Date: 2007-02-22 Impact factor: 3.590
Authors: David L Eaton; Robert B Daroff; Herman Autrup; James Bridges; Patricia Buffler; Lucio G Costa; Joseph Coyle; Guy McKhann; William C Mobley; Lynn Nadel; Diether Neubert; Rolf Schulte-Hermann; Peter S Spencer Journal: Crit Rev Toxicol Date: 2008 Impact factor: 5.635