NEUROTROPHIN EXPRESSION IN SYMPATHETIC NEURONS: INFLUENCES OF EXOGENOUS NGF AND AFFERENT INPUT

Jones, Elizabeth Ellen

15 July 2004

No description available.

Biology, Neuroscience

neuronal survival

neurotrophins

sympathetic

nerve growth factor or NGF

neurotrophin-3 or NT-3

REGULATION OF NEUROTROPHIN EXPRESSION IN PERIPHERAL TARGETS

Randolph, Christopher Lee

14 July 2006

No description available.

Biology, Neuroscience

neurotrophin

NGF

NT-3

peripheral nervous system

sympathetic innervation

Role of NTRK3 in the extinction of fear memories and streess-coping: studies in a mouse model of panic disorder

Amador Arjona, Alejandro

23 July 2008

The correct development and function of CNS is critical for brain health of the organism. Early or chronic stress causes prominent alterations in brain function, and affects the expression of neurotrophic factors in limbic brain regions involved in the regulation of mood and cognition. Recent evidences have opened the idea that in complex organisms, an altered expression of certain neurotrophins by stress could be involved in the onset and pathophysiology of most psychiatric disorders, such as depression, squizophrenia or anxiety disorders. It is hypothesized that altered levels of neurotrophic factors could contribute to the atrophy and cell death of these regions, including the hippocampus and prefrontal cortex, which would produce a malfunction in limbic-related areas, and as a consequence, a precipitation or worsening of psychiatric illnesses. We were interested in panic disorder pathophysiology, which is a stress-related disorder and is characterized by an altered cognitive processing of emotional information. Although little evidence has been found supporting a neurotrophic role in PD, recent data has revealed that NT-3/TrkC signaling might play a key role in limbic system morphology and function. Therefore, we suggest that NT-3/TrkC system is involved in PD pathogenesis. The main objective in the work of this doctoral thesis lie to determine the role of NTRK3 gene, that codifies for TrKC, in emotional cognition and stress response processes that underlies PD. To this end, we used a genetically modified mouse model of NTRK3 overexpression, which was validated as a model of PD. Here, it is characterized the effects produced by the increase of NTRK3 expression in the CNS, focusing in neural alterations that might influence changes in cognitive processes involved in coping strategies. Moreover, it is studied the mechanisms that underlie in these processes by different approaches, 1/physiologically, measuring the HPA axis response, 2/brain activation, analyzing the activation pattern to a stress stimulus, 3/cellular and gene expression profiling, characterizing key brain regions in cognitive processes, and 4/pharmacologically, studying neurotransmitters function.

amygdala

stress sensitization

hippocampus

prepulse inhibition

fear memory

stress

locus coeruleus

anxiety-like behaviour

TrkC

NT-3

Panic disorder

57

Neurotrophin expression in sympathetic neurons influences of exogenous NGF and afferent input /

Jones, Elizabeth Ellen.

January 2004

Thesis (M.S.)--Miami University, Dept. of Zoology, 2004. / Title from first page of PDF document. Includes bibliographical references (p. 36-47).

Inhibition of Retinoic Acid Receptors Results in Defasciculation of the Trigeminal Nerve in Xenopus laevis

Thompson, Jeremy

09 May 2013

The anatomy of the cranial peripheral nervous system has been studied for over a century, yet surprisingly little is known about how the nerves are guided to their targets. The study of the development of these nerves has important implications for our understanding of craniofacial anomalies and possible treatments for both injury and genetic disorders of nerve development such as Goldenhar-Gorlin syndrome. We have discovered that retinoic acid (RA) may play a role in the development of the trigeminal nerve. Inhibition of retinoic acid receptors (RAR) results in trigeminal nerves that become unbundled or defasciculated in the eye region. To further understand how RA is affecting trigeminal development we searched for genes downregulated in response to RAR inhibition by the inhibitor BMS-453 and have identified neurotrophin-3 (NT-3), activated leukocyte cell adhesion molecule (ALCAM) and Semaphorin 4B (Sema4B). We have analyzed the expression patterns of Sema4B and NT-3 by in situ hybridization and have found NT-3 expression in the eye and Sema4B in the embryonic target of the trigeminal nerve, lens of the eye and in the pharyngeal arches. ALCAM has been analyzed via qRT-PCR and its transcription is downregulated just prior to the observed defasciculation phenotype. The pattern of expression of these genes combined with known expression of NT-3 receptors allows us to suggest a model whereby RA signaling regulates Sema4B, ALCAM and NT-3, which support the survival, guidance and fasciculation of the trigeminal nerve. This work has the potential to better understanding of the complex nature of cranial nervous system development.

trigeminal

Xenopus

defasciculation

retinoic acid

trigeminal nerve

Xenopus laevis

fasciculation

retinoic acid receptors

retinoic acid inhibition

ALCAM

neurotrophin-3

semaphorin 4B

neurotrophin 3

NT-3

Sema4B

Biology

Life Sciences