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Full-Text Articles in Medicine and Health Sciences
What We Can Learn From A Genetic Rodent Model About Autism., Dorit Möhrle, Marta Fernández, Olga Peñagarikano, Andreas Frick, Brian Allman, Susanne Schmid
What We Can Learn From A Genetic Rodent Model About Autism., Dorit Möhrle, Marta Fernández, Olga Peñagarikano, Andreas Frick, Brian Allman, Susanne Schmid
Anatomy and Cell Biology Publications
Autism spectrum disorders (ASD) are complex neurodevelopmental disorders that are caused by genetic and/or environmental impacts, often probably by the interaction of both. They are characterised by deficits in social communication and interaction and by restricted and repetitive behaviours and interests from early childhood on, causing significant impairment. While it is clear that no animal model captures the full complexity of ASD in humans, genetic models are extremely useful for studying specific symptoms associated with ASD and the underlying cellular and molecular mechanisms. In this review we summarize the behavioral paradigms used in rodents to model ASD symptoms as they …
Global Deletion Of Panx3 Produces Multiple Phenotypic Effects In Mouse Humeri And Femora, Deidre Caskenette, Silvia Penuela, Vanessa Lee, Kevin Barr, Frank Beier, Dale W. Laird, Katherine E. Willmore
Global Deletion Of Panx3 Produces Multiple Phenotypic Effects In Mouse Humeri And Femora, Deidre Caskenette, Silvia Penuela, Vanessa Lee, Kevin Barr, Frank Beier, Dale W. Laird, Katherine E. Willmore
Anatomy and Cell Biology Publications
© 2016 Anatomical Society. Pannexins form single-membrane channels that allow passage of small molecules between the intracellular and extracellular compartments. Of the three pannexin family members, Pannexin3 (Panx3) is the least studied but is highly expressed in skeletal tissues and is thought to play a role in the regulation of chondrocyte and osteoblast proliferation and differentiation. The purpose of our study is to closely examine the in vivo effects of Panx3 ablation on long bone morphology using micro-computed tomography. Using Panx3 knockout (KO) and wildtype (WT) adult mice, we measured and compared aspects of phenotypic shape, bone mineral density (BMD), …
Deletion Of Panx3 Prevents The Development Of Surgically Induced Osteoarthritis, Paxton M. Moon, Silvia Penuela, Kevin Barr, Sami Khan, Christopher L. Pin, Ian Welch, Mukundan Attur, Steven B. Abramson, Dale W. Laird, Frank Beier
Deletion Of Panx3 Prevents The Development Of Surgically Induced Osteoarthritis, Paxton M. Moon, Silvia Penuela, Kevin Barr, Sami Khan, Christopher L. Pin, Ian Welch, Mukundan Attur, Steven B. Abramson, Dale W. Laird, Frank Beier
Anatomy and Cell Biology Publications
© 2015, Springer-Verlag Berlin Heidelberg. Abstract: Osteoarthritis (OA) is a highly prevalent, disabling joint disease with no existing therapies to slow or halt its progression. Cartilage degeneration hallmarks OA pathogenesis, and pannexin 3 (Panx3), a member of a novel family of channel proteins, is upregulated during this process. The function of Panx3 remains poorly understood, but we consistently observed a strong increase in Panx3 immunostaining in OA lesions in both mice and humans. Here, we developed and characterized the first global and conditional Panx3 knockout mice to investigate the role of Panx3 in OA. Interestingly, global Panx3 deletion produced no …
Vacht Knock-Down Mice Show Normal Prepulse Inhibition But Disrupted Long-Term Habituation, S. Schmid, E. Azzopardi, X. De Jaeger, Marco Prado, V. F. Prado
Vacht Knock-Down Mice Show Normal Prepulse Inhibition But Disrupted Long-Term Habituation, S. Schmid, E. Azzopardi, X. De Jaeger, Marco Prado, V. F. Prado
Anatomy and Cell Biology Publications
The neurotransmitter acetylcholine (ACh) plays a crucial role in both the central and peripheral nervous system. Central cholinergic transmission is important for cognitive functions and cholinergic disruptions have been associated with different neural disorders. We here tested the role of cholinergic transmission in basic cognitive functions, i.e. in prepulse inhibition (PPI) and short-term habituation (STH) as well as long-term habituation (LTH) of startle using mice with a 65% knockdown (KD) of the vesicular ACh transporter (VAChT). These mice are slow in refilling cholinergic synaptic transmitter vesicles, leading to a reduced cholinergic tone. Prepulse inhibition has been assumed to be mediated …
Neuropilin 1 Directly Interacts With Fer Kinase To Mediate Semaphorin3a-Induced Death Of Cortical Neurons, Susan X. Jiang, Shawn N. Whitehead, Amy Aylsworth, Bogdan Zurakowski, Kenneth Chan, Jianjun Li, Sheng T. Hou
Neuropilin 1 Directly Interacts With Fer Kinase To Mediate Semaphorin3a-Induced Death Of Cortical Neurons, Susan X. Jiang, Shawn N. Whitehead, Amy Aylsworth, Bogdan Zurakowski, Kenneth Chan, Jianjun Li, Sheng T. Hou
Anatomy and Cell Biology Publications
Neuropilins (NRPs) are receptors for the major chemorepulsive axonal guidance cue semaphorins (Sema). The interaction of Sema3A/NRP1 during development leads to the collapse of growth cones. Here we show that Sema3A also induces death of cultured cortical neurons through NRP1. A specific NRP1 inhibitory peptide ameliorated Sema3A-evoked cortical axonal retraction and neuronal death. Moreover, Sema3A was also involved in cerebral ischemia-induced neuronal death. Expression levels of Sema3A and NRP1, but not NRP2, were significantly increased early during brain reperfusion following transient focal cerebral ischemia. NRP1 inhibitory peptide delivered to the ischemic brain was potently neuroprotective and prevented the loss of …