Remaining rod activity mediates visual behavior in adult Rpe65-/- mice.

Purpose: C57/Bl6, Cpfl1(-/-) (cone photoreceptors function loss 1; pure rod function), Gnat1a(-/-) (rod α-transducin; pure cone function), and Rpe65(-/-);Rho(-/-) double-knockout mice were studied to distinguish the respective contributions of the different photoreceptor (PR) systems that enable light perception and mediate a visual reflex in adult Rpe65(-/-) mice, with a simple behavioral procedure.

Methods: Visual function was estimated using a rotating automated optomotor drum covered with vertical black-and-white stripes at spatial frequencies of 0.025 to 0.

Generation of cells committed towards the photoreceptor fate for retinal transplantation.

Cell transplantation is an active field of research to replace lost cells in retinal dystrophies to potentially restore visual function. We hypothesized that in-vitro differentiated retinal stem cells would integrate the appropriate retinal layer and differentiate into photoreceptors when transplanted during development. Here we show that retinal stem cells driven to the photoreceptor fate start to incorporate the retina and express photoreceptor markers but do not survive.

Retinal stem cells transplanted into models of late stages of retinitis pigmentosa preferentially adopt a glial or a retinal ganglion cell fate.

Purpose: To characterize the potential of newborn retinal stem cells (RSCs) isolated from the radial glia population to integrate the retina, this study was conducted to investigate the fate of in vitro expanded RSCs transplanted into retinas devoid of photoreceptors (adult rd1 and old VPP mice and rhodopsin-mutated transgenic mice) or partially degenerated retina (adult VPP mice) retinas.

Methods: Populations of RSCs and progenitor cells were isolated either from DBA2J newborn mice and labeled with the red lipophilic fluorescent dye (PKH26) or from GFP (green fluorescent protein) transgenic mice. After expansion in EGF+FGF2 (epidermal growth factor+fibroblast growth factor), cells were transplanted intravitreally or subretinally into the eyes of adult wild-type, transgenic mice undergoing slow (VPP strain) or rapid (rd1 strain) retinal degeneration.

The control of UCP1 is dissociated from that of PGC-1alpha or of mitochondriogenesis as revealed by a study using beta-less mouse brown adipocytes in culture.

In rodent brown adipose tissue, the beta-adrenergic signaling is believed, by an action on PGC-1alpha, to control UCP1 expression and mitochondriogenesis. We addressed this hypothesis using beta(1)/beta(2)/beta(3)-adrenoceptor knockout (beta-less) brown adipocytes in primary culture. In these cells: (a) proliferation and differentiation into multilocular cells were normal; (b) UCP1 mRNA expression was dramatically decreased (by 93%), whereas PGC-1alpha and mtTFA mRNA expressions were not; (c) UCP1, PGC-1alpha and COX IV protein expressions were decreased by 97%, 62% and 22%, respectively.

High yield of cells committed to the photoreceptor fate from expanded mouse retinal stem cells.

The purpose of the present work was to generate, from retinal stem cells (RSCs), a large number of cells committed toward the photoreceptor fate in order to provide an unlimited cell source for neurogenesis and transplantation studies. We expanded RSCs (at least 34 passages) sharing characteristics of radial glial cells and primed the cells in vitro with fibroblast growth factor (FGF)-2 for 5 days, after which cells were treated with the B27 supplement to induce cell differentiation and maturation. Upon differentiation, cells expressed cell type-specific markers corresponding to neurons and glia.

D-TAT transporter as an ocular peptide delivery system.

Background: Future treatment for genetic diseases may involve the replacement of malfunctioning genes through virus-mediated gene therapy. However, this approach is plagued with many problems, both ethical and scientific. Therefore, alternative treatments based on new molecules may represent a safer option.

Beta(1)/beta(2)/beta(3)-adrenoceptor knockout mice are obese and cold-sensitive but have normal lipolytic responses to fasting.

Catecholamines are viewed as major stimulants of diet- and cold-induced thermogenesis and of fasting-induced lipolysis, through the beta-adrenoceptors (beta(1)/beta(2)/beta(3)). To test this hypothesis, we generated beta(1)/beta(2)/beta(3)-adrenoceptor triple knockout (TKO) mice and compared them to wild type animals. TKO mice exhibited normophagic obesity and cold-intolerance.