Article

Lmx1a is required for segregation of sensory epithelia and normal ear histogenesis and morphogenesis.

Department of Biomedical Sciences, Creighton University, Omaha, NE, USA.
Cell and Tissue Research (impact factor: 3.11). 12/2008; 334(3):339-58. DOI:10.1007/s00441-008-0709-2
Source: PubMed

ABSTRACT At embryonic day 8.5, the LIM-homeodomain factor Lmx1a is expressed throughout the otic placode but becomes developmentally restricted to non-sensory epithelia of the ear (endolymphatic duct, ductus reuniens, cochlea lateral wall). We confirm here that the ears of newborn dreher (Lmx1a (dr)) mutants are dysmorphic. Hair cell markers such as Atoh1 and Myo7 reveal, for the first time, that newborn Lmx1a mutants have only three sensory epithelia: two enlarged canal cristae and one fused epithelium comprising an amalgamation of the cochlea, saccule, and utricle (a "cochlear-gravistatic" endorgan). The enlarged anterior canal crista develops by fusion of horizontal and anterior crista, whereas the posterior crista fuses with an enlarged papilla neglecta that may extend into the cochlear lateral wall. In the fused endorgan, the cochlear region is distinguished from the vestibular region by markers such as Gata3, the presence of a tectorial membrane, and cochlea-specific innervation. The cochlea-like apex displays minor disorganization of the hair and supporting cells. This contrasts with the basal half of the cochlear region, which shows a vestibular epithelium-like organization of hair cells and supporting cells. The dismorphic features of the cochlea are also reflected in altered gene expression patterns. Fgf8 expression expands from inner hair cells in the apex to most hair cells in the base. Two supporting cell marker proteins, Sox2 and Prox1, also differ in their cellular distribution between the base and the apex. Sox2 expression expands in mutant canal cristae prior to their enlargement and fusion and displays a more diffuse and widespread expression in the base of the cochlear region, whereas Prox1 is not detected in the base. These changes in Sox2 and Prox1 expression suggest that Lmx1a expression restricts and sharpens Sox2 expression, thereby defining non-sensory and sensory epithelium. The adult Lmx1a mutant organ of Corti shows a loss of cochlear hair cells, suggesting that the long-term maintenance of hair cells is also disrupted in these mutants.

0 0
 · 
0 Bookmarks
 · 
27 Views
  • Article: DiI reveals a prenatal arrival of efferents at the differentiating otocyst of mice.
    B Fritzsch, D H Nichols
    [show abstract] [hide abstract]
    ABSTRACT: We have reinvestigated the time of arrival of efferent fibers at the developing otocyst of mice employing diffusion of the lipophilic dye DiI in fixed tissue. In contrast to almost all previous reports, our data indicate a prenatal arrival of efferent fibers. A few efferent fibers were found to enter the eighth nerve root at embryonic day (ED) 10 1/2. Retrogradely labelled efferent cell bodies were at this stage coextensive with those of the facial motor nucleus, but started to segregate by ED 12. In contrast to retrogradely labelled facial motor neurons, labelled efferent neurons were bilaterally distributed in the hindbrain with a few projecting to both otocysts as early as ED 12. Anterograde labelling from the brain showed efferent fibers in the vestibular ganglion by ED 11. Invasion of the future vestibular sensory epithelia started by ED 12. Growth cones of efferent fibers had also reached the future cochlear sensory epithelium but invasion was only achieved by a few filopodia at this stage. The early arrival of efferents at the future sensory epithelia demonstrated here may allow an as yet unexplored interaction of efferent fibers with the proliferating and/or differentiating hair cells.
    Hearing Research 03/1993; 65(1-2):51-60. · 2.70 Impact Factor
  • Article: Dkk1 and Wnt3 interact to control head morphogenesis in the mouse.
    Samara L Lewis, Poh-Lynn Khoo, R Andrea De Young, Kirsten Steiner, Chris Wilcock, Mahua Mukhopadhyay, Heiner Westphal, Robyn V Jamieson, Lorraine Robb, Patrick P L Tam
    [show abstract] [hide abstract]
    ABSTRACT: Loss of Dkk1 results in ectopic WNT/beta-catenin signalling activity in the anterior germ layer tissues and impairs cell movement in the endoderm of the mouse gastrula. The juxtaposition of the expression domains of Dkk1 and Wnt3 is suggestive of an antagonist-agonist interaction. The downregulation of Dkk1 when Wnt3 activity is reduced reveals a feedback mechanism for regulating WNT signalling. Compound Dkk1;Wnt3 heterozygous mutant embryos display head truncation and trunk malformation, which are not found in either Dkk1(+/-) or Wnt3(+/-) embryos. Reducing the dose of Wnt3 gene in Dkk1(-/-) embryos partially rescues the truncated head phenotype. These findings highlight that head development is sensitive to the level of WNT3 signalling and that DKK1 is the key antagonist that modulates WNT3 activity during anterior morphogenesis.
    Development 06/2008; 135(10):1791-801. · 6.60 Impact Factor
  • Article: The development of semicircular canals in the inner ear: role of FGFs in sensory cristae.
    Weise Chang, John V Brigande, Donna M Fekete, Doris K Wu
    [show abstract] [hide abstract]
    ABSTRACT: In the vertebrate inner ear, the ability to detect angular head movements lies in the three semicircular canals and their sensory tissues, the cristae. The molecular mechanisms underlying the formation of the three canals are largely unknown. Malformations of this vestibular apparatus found in zebrafish and mice usually involve both canals and cristae. Although there are examples of mutants with only defective canals, few mutants have normal canals without some prior sensory tissue specification, suggesting that the sensory tissues, cristae, might induce the formation of their non-sensory components, the semicircular canals. We fate-mapped the vertical canal pouch in chicken that gives rise to the anterior and posterior canals, using a fluorescent, lipophilic dye (DiI), and identified a canal genesis zone adjacent to each prospective crista that corresponds to the Bone morphogenetic protein 2 (Bmp2)-positive domain in the canal pouch. Using retroviruses or beads to increase Fibroblast Growth Factors (FGFs) for gain-of-function and beads soaked with the FGF inhibitor SU5402 for loss-of-function experiments, we show that FGFs in the crista promote canal development by upregulating Bmp2. We postulate that FGFs in the cristae induce a canal genesis zone by inducing/upregulating Bmp2 expression. Ectopic FGF treatments convert some of the cells in the canal pouch from the prospective common crus to a canal-like fate. Thus, we provide the first molecular evidence whereby sensory organs direct the development of the associated non-sensory components, the semicircular canals, in vertebrate inner ears.
    Development 10/2004; 131(17):4201-11. · 6.60 Impact Factor

Show more

Data provided are for informational purposes only. Although carefully collected, accuracy cannot be guaranteed. The impact factor represents a rough estimation of the journal's impact factor and does not reflect the actual current impact factor. Publisher conditions are provided by RoMEO. Differing provisions from the publisher's actual policy or licence agreement may be applicable.

Keywords

adult Lmx1a mutant organ
 
cochlea lateral wall
 
cochlear hair cells
 
cochlear lateral wall
 
cochlear region
 
defining non-sensory
 
enlarged anterior canal crista
 
enlarged canal cristae
 
Fgf8 expression expands
 
fused epithelium
 
LIM-homeodomain factor Lmx1a
 
long-term maintenance
 
newborn Lmx1a mutants
 
non-sensory epithelia
 
Prox1 expression
 
sensory epithelium
 
Sox2 expression
 
vestibular epithelium-like organization
 
vestibular region
 
widespread expression
 

Israt Jahan