Spatio-temporal expression profile of Mettl3/Mettl14 during mouse retina development / Perfil de expresión espacio-temporal de Mettl3 / Mettl14 durante el desarrollo de la retina del ratón

SUMMARY: The Mettl3/Mettl14 methyltransferase complex installs the most ubiquitous internal mRNA modification- N6-methyladenosine (m6A). The vertebrate retina development is a multi-step process that requires fine-tuning of multiple cellular events, but very little is known about the potential function of Mettl3 and Mettl14 in this process. In this study, we demonstrated the spatio-temporal expression of Mettl3 and Mettl14 during retina development in mouse by quantitative PCR and immunofluorescence staining. We found that these two components of methyltransferase complex could be detected from the beginning of retina development; and the expression of Mettl3 and Mettl14 were gradually restricted to inner nuclear layer (INL) and ganglion cell layer (GCL); Double labeling showed that Mettl3 and Mettl14 had similar expression patterns in mature retinal INL and GCL. Overall, our spatio-temporal expression data provided the foundation for future research on the function of m6A modification in the retina development.

RESUMEN: El complejo Mettl3 / Mettl14 metiltransferasa establece la modificación interna más significativa de ARNm: N6- metiladenosina (m6A). El desarrollo de la retina de los vertebrados es un proceso de varios pasos que requiere múltiples eventos celulares; existe muy poca información sobre la función potencial de Mettl3 y Mettl14 en este proceso. En este estudio, demostramos la expresión espacio-temporal de Mettl3 y Mettl14 durante el desarrollo de la retina en ratón mediante PCR cuantitativa y tinción de inmunofluorescencia. Descubrimos que estos dos componentes del complejo de metiltransferasa podían ser detectados desde el comienzo del desarrollo de la retina; la expresión de Mettl3 y Mettl14 se restringió gradualmente a la capa nuclear interna (INL) y la capa de células ganglionares (GCL); se observó que Mettl3 y Mettl14 tenían patrones de expresión similares en INL y GCL retinianos maduros. En general, nuestros datos de expresión espacio-temporal proporcionan información para futuras investigaciones sobre la función de la modificación de m6A en el desarrollo de la retina.

Leishmania, Babesia and Ehrlichia in urban pet dogs: co-infection or cross-reaction in serological methods?

INTRODUCTION: The present study was designed to assess the occurrence of co-infection or cross-reaction in the serological techniques used for detecting the anti-Leishmania spp., -Babesia canis vogeli and -Ehrlichia canis antibodies in urban dogs from an area endemic to these parasites. METHODS: The serum samples from dogs were tested for the Babesia canis vogeli strain Belo Horizonte antigen and Ehrlichia canis strain São Paulo by immunofluorescence antibody test (IFAT) and by anti-Leishmania immunoglobulin G (IgG) antibody detection to assess Leishmania infection. We used the following four commercial kits for canine visceral leishmaniasis: ELISA, IFAT, Dual Path Platform (DPP) (Bio Manguinhos(r)/FIOCRUZ/MS) and a rK39 RDT (Kalazar Detect Canine Rapid Test; Inbios). RESULTS : Of 96 serum samples submitted to serological assays, 4 (4.2%) were positive for Leishmania as determined by ELISA; 12 (12.5%), by IFAT; 14 (14.6%) by rK39 RDT; and 20 (20.8%), by DPP. Antibodies against Ehrlichia and Babesia were detected in 23/96 (23.9%) and 30/96 (31.2%) samples, respectively. No significant association was identified between the results of tests for detecting Babesia or Ehrlichia and those for detecting Leishmania (p-value>0.05). CONCLUSIONS: In the present study, we demonstrated co-infection with Ehrlichia or Babesia and Leishmania in dogs from Minas Gerais (Brazil); we also found that the serological tests that were used did not cross-react. .

Immunohistochemical characterization of the chick marginal retina

The retina is a highly differentiated tissue with a complex layered structure that has been extensively characterized. However, most of the previous studies focused on the histology of the central retina while little is known about the cellular composition, organization and function of the marginal retina. Recent research has identified a subpopulation of multipotential progenitor cells in the marginal regions of the retina, closest to the ciliary body ("ciliary marginal zone"). These cells are capable of differentiation in response to an appropriate stimulus. Thus, it is possible that the structure and composition of the marginal retina are distinct from those of the central retina to accommodate the potential addition of newly formed neurons. To characterize the cellular profile of the chick marginal retina, we labeled it immunohistochemically for markers whose staining pattern is well established in the central retina: calbindin, calretinin, protein kinase C, and choline acetyltransferase. Calbindin was present at very low levels in the marginal retina putative photoreceptor layer. Calretinin-positive horizontal cells were also sparse close to the ciliary marginal zone. The bipolar cells in the marginal outer plexiform layer were positive for anti-protein kinase C antibodies, but the density of labeling was also decreased in relation to the central retina. In contrast, the marginal starburst cholinergic amacrine cell pattern was very similar to the central retina. From these data we conclude that the structure of the marginal retina is significantly different from that of the central retina. In particular, the expression of late retina markers in the marginal retina decreased in comparison to the central retina.

Guanylate cyclase activity in retina optic nerve and optic chiasm of rats under different illumination conditions

In the present work we have measured the guanylase cyclase activity in soluble fractions from several tissues relevant to the visual response under different illumination conditions. Guanylate cyclase was sensitive to changes of light / dark periods in incubated extract obtained from soluble fractions of retina, optic nerve and optic chiasm. The changes in soluble guanylate cylcase activity found, about 100 fold between dark and light periods in those tissues, indicate a key role for this enzyme. The results showed that light inhibit strongly the soluble retinal guanylate cyclase activity; while it increases the activity of this enzyme in the optic nerve. A generalized photoinhibited response of soluble guanylate cyclase eas observed in all studied tissues in prolonged dark adapted animals. The effect of Na+ 1 and 10 nM, and free Ca++ 28 M and 2.8 MuM on the guanylate cyclase activity was performed in the studied tissues. The enzymatic activity appeared to be inversely related in the retina and optic nerve with regard to the ion exposue, which may involve different ionic control mechanisms. All indicate an active role for the soluble guanylate cyclase in the phototransduction process not only in retina, also in other tissues relevant in the visual response.

Biochemical characterization of NADPH diaphorase in the chick embryo retina: stimulation by calcium ions and inhibition by arginine analogs

Nitric oxide is an important intercellular messenger in the central nervous system. NADPH-diaphorase, reported to be identical to nitric oxide synthase, is prsent in specific groups of cells in several neural tissues, including the retina. We determined NADPH-diaphorase activity in homogenates of the chick embryo retina. The enzyme activity was measured spectophotometrically at 585 nm after incubating retinal total homogenates (100-150 µg protein) with 1mMNADPH and 0.5 mM nitroblue tetrazolium in 50 mMTris buffer, pH8.1, at 37ºC. NADPH-diaphorse was detected in 14-day old retinas and 53-65 per cent of the enzyme activity was inhibited by 3 mM NG-nitro-L-arginine (NARG), the arginine analog. One mM L-N5-(1-iminoethyl)ornithine (NIO) was the most potent inhibitor (63 per cent inhibition) while 3 mM NG-nitro-L-arginine methyl ester (NAME) (33 per cent inhibition) and I mMNG-monomethyl-L-arginine acetate (NMMA) (14 per cent inhbition) were less effective. Enzyme activity was increased by 48 per cent by 2 mM calcium chloride, and effect reversed by 1 mMEGTA or EDTA. Basal enzyme levels were also partially inhibited by the chelators, indicating the presence of calcium-dependent and -independent isoforms of nitric oxide synthase in the retina. The results show that the NADPH-diaphorase assay is sample and sensitive and that the different isoforms of nitric oxide synthase expressed in chick retinal cells during development can be demonstrated

Cholinesterase and Acid phosphatase in the Rabbit's Retinae Fo11owing Severance of the Optic nerve

Group totalling 55 young rabbits (both sexes), whose right optic nerves had been severed intraorbitally, were fed for 1 week, 2 weeks, 4 weeks and 8 weeks respectively. The retina of the left eye was used as a control and that of the right eye for the experiment. The histochemical changes of cholinesterase, acid phosphatase and ribonucleic acid in the reitna after to severance of the optic nerve were observed for 8 weeks after section. In the retina of the young rabbit, whose visual connection to the central nervous system was blocked, there was a decreasing specific cholinesterase activity beginning at the 4th week after the section of it. By the 8th week, the enzyme activity in the perikaryon of the ganglion cell and the inner plexiform layer was considerably decreased. Acid phosphatase activity in the young rabbit's retina peaked at the 2nd week, but decreaseed below normal after the 4th week. This rapid decline of acid phosphatase activity was characteristic in the experimental retinae and was in contrast to the rather slow alteration of enzymatic activity in neurons undergoing wallerian degeneration. Pyroninophilic granules contained in neural cytoplasm of the retina were affected by the surgical blocking of the visual connection with the central nervous system. By the 4th week the granules had partially disappeared from the perikaryon of the ganglion cell and from the inner nuclear layer. Consequently, as the result of histochemical studies, firstly it is postulated that the gradual decline of specific cholinesterase activity in the rabbit's retina was closely related to the intraorbital blocking of the optic nerve, and secondly, that the typical degeneration of the ganglion cell in the ganglion cell layer (which was associated with a partial disappearance of the ganglion cell) was related to the changes in the acid phosphatase activity and alteration of the pyroninophilic granules in the retina following optic nerve transection.