Formation of eye-specific retinogeniculate projections occurs prior to the innervation of the dorsal lateral geniculate nucleus by cholinergic fibers

Ballesteros, José Manuel Bértolo; List, Deborah A. van der; Chalupa, Leo M.

doi:10.1017/s1472928807000167

Cited by 5 publications

(5 citation statements)

References 29 publications

(43 reference statements)

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“…Initially, cholinergic fibers appear in the dorsolateral region of dLGN just beneath the optic tract, then gradually progress in a ventromedial direction to form a homogeneous plexus of fibers throughout dLGN. This is consistent with earlier studies in cat and mouse, showing a slow but steady increase in ChAT immunoreactivity with postnatal age [17, 18]. Thus, cholinergic innervation of dLGN occurs well after the establishment of the retinogeniculate pathway [1].…”

Section: Discussionsupporting

confidence: 92%

“…These projections have a substantial influence on retinogeniculate transmission, regulating the firing mode of dLGN neurons [13], establishing network states during sleep, wakefulness, and arousal [14, 15], as well as modulating visuo-motor interactions [16]. Previous immunohistochemical studies have shown a late postnatal onset for the labeling of acetylcholine synthesizing enzyme (choline acetyltransferase, ChAT) in dLGN, which increases in density over a protracted period of development [17, 18]. However, little is known about the source, trajectory, and pattern of cholinergic innervation in the developing mouse dLGN.…”

Section: Introductionmentioning

confidence: 99%

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The absence of retinal input disrupts the development of cholinergic brainstem projections in the mouse dorsal lateral geniculate nucleus

2018

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BackgroundThe dorsal lateral geniculate nucleus (dLGN) of the mouse has become a model system for understanding thalamic circuit assembly. While the development of retinal projections to dLGN has been a topic of extensive inquiry, how and when nonretinal projections innervate this nucleus remains largely unexplored. In this study, we examined the development of a major nonretinal projection to dLGN, the ascending input arising from cholinergic neurons of the brainstem. To visualize these projections, we used a transgenic mouse line that expresses red fluorescent protein exclusively in cholinergic neurons. To assess whether retinal input regulates the timing and pattern of cholinergic innervation of dLGN, we utilized the math5-null (math5−/−) mouse, which lacks retinofugal projections due to a failure of retinal ganglion cell differentiation.ResultsCholinergic brainstem innervation of dLGN began at the end of the first postnatal week, increased steadily with age, and reached an adult-like pattern by the end of the first postnatal month. The absence of retinal input led to a disruption in the trajectory, rate, and pattern of cholinergic innervation of dLGN. Anatomical tracing experiments reveal these disruptions were linked to cholinergic projections from parabigeminal nucleus, which normally traverse and reach dLGN through the optic tract.ConclusionsThe late postnatal arrival of cholinergic projections to dLGN and their regulation by retinal signaling provides additional support for the existence of a conserved developmental plan whereby retinal input regulates the timing and sequencing of nonretinal projections to dLGN.

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Section: Discussionsupporting

confidence: 92%

Section: Introductionmentioning

confidence: 99%

The absence of retinal input disrupts the development of cholinergic brainstem projections in the mouse dorsal lateral geniculate nucleus

2018

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“…For example, cholinergic projections seem to innervate somatosensory thalamic structures (e.g., VB, and posterior nucleus) before visual ones (e.g., dLGN, and lateroposterior nucleus). In ChAT‐Cre × Ai9 mice, we found that brainstem cholinergic projections are evident throughout all of VB by P0, yet dLGN remains devoid of fibers until the end of the first postnatal week (unpublished observations, see also Ballesteros et al ., ). Perhaps this sequence is related to a general principle of sensory thalamic development whereby the somatosensory system and develops sooner than the visual system (Bayer & Altman, ; O'Leary et al ., ; Schlaggar & O'Leary, ; Molnár & Blakemore, ; Henver et al ., ; Molnár et al ., ; Fox & Wong, ; Jacobs et al ., ).…”

Section: Discussionmentioning

confidence: 97%

“…While TRN does not receive direct sensory inputs from the periphery, thalamocortical projections from first‐order nuclei pass through the TRN at early perinatal ages (Mitrofanis & Baker, ), before the arrival of cholinergic projections. A similar sequence occurs in dLGN, in which the arrival and establishment retinofugal projections occurs well before the emergence of modulatory inputs from brainstem and layer VI of visual cortex (Ballesteros et al ., ; Seabrook et al ., ). Together, these observations suggest highly orchestrated development plan for thalamic circuit development in which nonvisual structures mature before visual ones, and where sensory projections are established before modulatory ones.…”

Section: Discussionmentioning

confidence: 99%

Postnatal development of cholinergic input to the thalamic reticular nucleus of the mouse

Sokhadze

Campbell

Guido

2018

Eur J of Neuroscience

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The thalamic reticular nucleus (TRN), a shell-like structure comprised of GABAergic neurons, gates signal transmission between thalamus and cortex. While TRN is innervated by axon collaterals of thalamocortical and corticothalamic neurons, other ascending projections modulate activity during different behavioral states such as attention, arousal, and sleep-wake cycles. One of the largest arise from cholinergic neurons of the basal forebrain and brainstem. Despite its integral role, little is known about how or when cholinergic innervation and synapse formation occurs. We utilized genetically modified mice, which selectively express fluorescent protein and/or channelrhodopsin-2 in cholinergic neurons, to visualize and stimulate cholinergic afferents in the developing TRN. Cholinergic innervation of TRN follows a ventral-to-dorsal progression, with nonvisual sensory sectors receiving input during week 1, and the visual sector during week 2. By week 3, the density of cholinergic fibers increases throughout TRN and forms a reticular profile. Functional patterns of connectivity between cholinergic fibers and TRN neurons progress in a similar manner, with weak excitatory nicotinic responses appearing in nonvisual sectors near the end of week 1. By week 2, excitatory responses become more prevalent and arise in the visual sector. Between weeks 3-4, inhibitory muscarinic responses emerge, and responses become biphasic, exhibiting a fast excitatory, and a long-lasting inhibitory component. Overall, the development of cholinergic projections in TRN follows a similar plan as the rest of sensory thalamus, with innervation of nonvisual structures preceding visual ones, and well after the establishment of circuits conveying sensory information from the periphery to the cortex.

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“…Imaging and quantification of retinogenicular projections were carried out using similar procedures to those described previously (Ballesteros, et al, 2005; Huberman, et al, 2003). Briefly, raw images of green (Alexa 488, Fig.…”

Section: Methodsmentioning

confidence: 99%

Effects of early postnatal alcohol exposure on the developing retinogeniculate projections in C57BL/6 mice

Dursun

Jakubowska-Doğru

Elibol-Can

et al. 2013

Alcohol

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Previous studies on the adverse effects of perinatal exposure to ethanol on the developing visual system mainly focused on retinal and optic nerve morphology. The aim of the present study was to investigate whether earlier reported retinal and optic nerve changes are accompanied by anomalies in eye-specific fiber segregation in the dorsal lateral geniculate nucleus (dLGN). C57BL/6 mice pups were exposed to ethanol by intragastric intubation at either 3 or 4 g/kg from postnatal days (PD) 3-10, the third trimester equivalent to human gestation. Control (C) and intubation control (IC) groups not exposed to ethanol were included. On PD9 retinogeniculate projections, were labeled by intraocular microinjections of cholera toxin-β (CTB) either conjugated to Alexa 488 (green) or 594 (red) administrated to the left and right eye, respectively. Pups were sacrificed 24 h after the last CTB injection. The results showed that ethanol exposure decreased the total number of dLGN neurons and significantly reduced the total dLGN projection as well as the contralateral and ipsilateral projection areas.

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Formation of eye-specific retinogeniculate projections occurs prior to the innervation of the dorsal lateral geniculate nucleus by cholinergic fibers

Cited by 5 publications

References 29 publications

The absence of retinal input disrupts the development of cholinergic brainstem projections in the mouse dorsal lateral geniculate nucleus

The absence of retinal input disrupts the development of cholinergic brainstem projections in the mouse dorsal lateral geniculate nucleus

Postnatal development of cholinergic input to the thalamic reticular nucleus of the mouse

Effects of early postnatal alcohol exposure on the developing retinogeniculate projections in C57BL/6 mice

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