Thyroid hormone-responsive genes mediate otolith growth and development during flatfish metamorphosis.

Flatfish begin life as up-right swimming, bilaterally symmetrical larvae that metamorphose into asymmetrically shaped juveniles that swim with a highly lateralized posture. We have previously shown that TH induces abrupt growth and mineralization of one component of the vestibular system, the otoliths, during early larval development and metamorphosis. Here we report that four of five vestibular-specific genes that we tested (alpha-tectorin, otogelin, otolith matrix protein, and otopetrins 1 and 2 that are known to be associated with otolith development in other vertebrates are up-regulated 1.5- to 7-fold in larval flatfish during spontaneous metamorphosis and/or following 72 h of TH treatment. These findings suggest that otolith growth and development are mediated by diverse TH-responsive genes during flatfish metamorphosis.

Thyroid hormone mediates otolith growth and development during flatfish metamorphosis.

Flatfish begin life as bilaterally symmetrical larvae that swim up-right, then abruptly metamorphose into asymmetrically shaped juveniles with lateralized swimming postures. Flatfish metamorphosis is mediated entirely by thyroid hormone (TH). Changes in flatfish swim posture are thought to be regulated via vestibular remodeling, although the influence of TH on teleost inner ear development remains unclear. This study addresses the role of TH on the development of the three otolith end-organs (sacculus, utricle, and lagena) during southern flounder (Paralichthys lethostigma) metamorphosis. Compared with pre-metamorphosis, growth rates of the sacculus and utricle otoliths increase dramatically during metamorphosis in a manner that is uncoupled from general somatic growth. Treatment of P. lethostigma larvae with methimazol (a pharmacological inhibitor of endogenous TH production) inhibits growth of the sacculus and utricle, whereas treatment with TH dramatically accelerates their growth. In contrast with the sacculus and utricle otoliths that begin to form and mineralize during embryogenesis, a non-mineralized lagena otolith is first visible 10-12 days after hatching. The lagena grows during pre- and pro-metamorphosis, then abruptly mineralizes during metamorphic climax. Mineralization of the lagena, but not growth, can be induced with TH treatment, whereas treatment with methimazol completely inhibits lagena mineralization without inhibiting its growth. These findings suggest that during southern flounder metamorphosis TH exerts differential effects on growth and development among the three types of otolith.