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In this work, we design and produce micron-sized fiber mats by blending poly(ε-caprolactone) (PCL) with small amounts of block copolymers poly(ethylene oxide)m-block-poly(ε-caprolactone)n (PEOm-b-PCLn) using electrospinning. Three... more
In this work, we design and produce micron-sized fiber mats by blending poly(ε-caprolactone) (PCL) with small amounts of block copolymers poly(ethylene oxide)m-block-poly(ε-caprolactone)n (PEOm-b-PCLn) using electrospinning. Three different PEOm-b-PCLn block copolymers, with different molecular weights of PEO and PCL, were synthesized by ring opening polymerization of ε-caprolactone using PEO as initiator and stannous octoate as catalyst. The polymer blends were prepared by homogenous solvent mixing using dichloromethane for further electrospinning procedures. After electrospinning, it was found that the addition to PCL of the different block copolymers produced micron-fibers with smaller width, equal or higher hydrophilicity, lower Young modulus, and rougher surfaces, as compared with micron-fibers obtained only with PCL. Neural stem progenitor cells (NSPC), isolated from rat brains and grown as neurospheres, were cultured on the fibrous materials. Immunofluorescence assays showed ...
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The subcommissural organ (SCO) is an ancient and conserved brain gland secreting into cerebrospinal fluid (CSF) glycoproteins that form the Reissner fiber (RF). The present investigation was designed to further investigate the dynamic of... more
The subcommissural organ (SCO) is an ancient and conserved brain gland secreting into cerebrospinal fluid (CSF) glycoproteins that form the Reissner fiber (RF). The present investigation was designed to further investigate the dynamic of the biosynthetic process of RF glycoproteins prior and after their release into the CSF, to identify the RF proteome and N-glycome and to clarify the mechanism of assembly of RF glycoproteins. Various methodological approaches were used: biosynthetic labelling injecting S-cysteine and H-galactose into the CSF, injection of antibodies against galectin-1 into the cerebrospinal fluid, light and electron microscopical methods; isolated bovine RF was used for proteome analyses by mass spectrometry and glycome analysis by xCGE-LIF. The biosynthetic labelling study further supported that a small pool of SCO-spondin molecules rapidly enter the secretory pathways after its synthesis, while most of the SCO-spondin molecules are stored in the rough endoplasmic...
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Fetal onset hydrocephalus and abnormal neurogenesis are two inseparable phenomena turned on by a cell junction pathology first affecting neural stem/progenitor cells (NSPCs) and later the multiciliated ependyma. The neurological... more
Fetal onset hydrocephalus and abnormal neurogenesis are two inseparable phenomena turned on by a cell junction pathology first affecting neural stem/progenitor cells (NSPCs) and later the multiciliated ependyma. The neurological impairment of children born with hydrocephalus is not reverted by derivative surgery. NSPCs and neurosphere (NE) grafting into the cerebrospinal fluid (CSF) of hydrocephalic fetuses thus appears as a promising therapeutic procedure. There is little information about the cell lineages actually forming the NE as they grow throughout their days in vitro (DIV). Furthermore, there is no information on how good a host the CSF is for grafted NE. Here, we use the HTx rat, a model with hereditary hydrocephalus, with the mutation expressed in about 30% of the litter (hyHTx), while the littermates develop normally (nHTx). The investigation was designed (i) to establish the nature of the cells forming 4 and 6-DIV NE grown from NSPCs collected from PN1/nHTx rats and (ii)...
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Research Interests: Electron Microscopy, Neurogenesis, Biology, Medicine, Human, and 15 moreNeural stem cell, Cell Differentiation, Cerebrospinal Fluid, Hydrocephalus, Humans, Female, Animals, Male, Clinical Sciences, Glial Fibrillary Acidic Protein, Age Factors, Neural Stem Cells, Fetus, Gestational Age, and congenital hydrocephalus
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The neuroepithelium is a germinal epithelium containing progenitor cells that produce almost all of the central nervous system cells, including the ependyma. The neuroepithelium and ependyma constitute barriers containing polarized cells... more
The neuroepithelium is a germinal epithelium containing progenitor cells that produce almost all of the central nervous system cells, including the ependyma. The neuroepithelium and ependyma constitute barriers containing polarized cells covering the embryonic or mature brain ventricles, respectively; therefore, they separate the cerebrospinal fluid that fills cavities from the developing or mature brain parenchyma. As barriers, the neuroepithelium and ependyma play key roles in the central nervous system development processes and physiology. These roles depend on mechanisms related to cell polarity, sensory primary cilia, motile cilia, tight junctions, adherens junctions and gap junctions, machinery for endocytosis and molecule secretion, and water channels. Here, the role of both barriers related to the development of diseases, such as neural tube defects, ciliary dyskinesia, and hydrocephalus, is reviewed.
Research Interests: Biology, Medicine, Ciliopathies, Aquaporin, Cilia, and 3 moreEpendyma, Ciliogenesis, and Adherens Junction
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Background The purpose of the study was to determine if the effect of llama OIF on LH secretion is mediated by stimulation of the hypothalamus or pituitary gland. Methods Using a 2-by-2 factorial design to examine the effects of OIF vs... more
Background The purpose of the study was to determine if the effect of llama OIF on LH secretion is mediated by stimulation of the hypothalamus or pituitary gland. Methods Using a 2-by-2 factorial design to examine the effects of OIF vs GnRH with or without a GnRH antagonist, llamas with a growing ovarian follicle greater than or equal to 8 mm were assigned randomly to four groups (n = 7 per group) and a) pre-treated with 1.5 mg of GnRH antagonist (cetrorelix acetate) followed by 1 mg of purified llama OIF, b) pre-treated with 1.5 mg of cetrorelix followed by 50 micrograms of GnRH, c) pre-treated with a placebo (2 ml of saline) followed by 1 mg of purified llama OIF or d) pre-treated with a placebo (2 ml of saline) followed by 50 micrograms of GnRH. Pre-treatment with cetrorelix or saline was given as a single slow intravenous dose 2 hours before intramuscular administration of either GnRH or OIF. Blood samples for LH measurement were taken every 15 minutes from 1.5 hours before to 8...
Research Interests: Endocrinology, Biology, Medicine, Biological Sciences, Internal Medicine, and 15 moreFemale, Ovulation, Ovulation Induction, Animals, Blood sampling, Factorial Design, Male, Camélidos, Molecular endocrinology and reproductive biology, Gonadotropin Releasing Hormone, Luteinizing Hormone, Cetrorelix, Follicular phase, Medical and Health Sciences, and Ovarian follicles
Ovulation-inducing factor (OIF) is a protein in the seminal plasma of llamas that induces a preovulatory LH surge by acting directly or indirectly on the hypothalamic GnRH neurons (Silva et al. 2011 Reprod. Biol. Endocr. 9, 74). We... more
Ovulation-inducing factor (OIF) is a protein in the seminal plasma of llamas that induces a preovulatory LH surge by acting directly or indirectly on the hypothalamic GnRH neurons (Silva et al. 2011 Reprod. Biol. Endocr. 9, 74). We hypothesize that OIF crosses the blood–brain barrier and reaches the hypothalamus via secretion into the cerebro-spinal fluid (CSF) through the choroid plexus. Two experiments were designed to determine whether biotinylation of OIF (as a tracer) alters its bioactivity in a llama model (Experiment 1) and whether it crosses the blood–brain barrier in a rabbit model (Experiment 2). In Experiment 1, llamas with a follicle ≥8 mm in diameter that had grown for 3 consecutive days were assigned randomly to 5 groups (n = 2/group) and given an IV dose of 1) 800 µg of OIF, 2) 800 µg of OIF biotinylated at the amino end; 3) 1600 µg of OIF biotinylated at the amino end, 4) 800 µg of OIF biotinylated at the carboxyl end, or 5) phosphate buffered saline (control). The o...
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Gestation in camelids occurs in the left horn regardless of whether ovulation has taken place in the left or right ovary, suggesting uterine embryo migration (Fernandez-Baca S et al. 1970 Biol. Reprod. 3, 243-251). On the other hand, we... more
Gestation in camelids occurs in the left horn regardless of whether ovulation has taken place in the left or right ovary, suggesting uterine embryo migration (Fernandez-Baca S et al. 1970 Biol. Reprod. 3, 243-251). On the other hand, we have previously documented (Ratto MH et al. 2003 Theriogenology 60, 1645-1656) that more than 90% of llamas with the presence of a follicle ≥6 to 7 mm in diameter, regardless of their stage of development, did accept the copula and ovulate after mating. However, it is unknown whether these oocytes are competent to achieving acceptable pregnancy rate. This study was designed to determine the effect of location of the preovulatory dominant follicle (right or left ovary) on ovulation and pregnancy rates and to evaluate the effect of stage of ovarian follicle development at mating (growing, maintenance, and regression) on ovulation rate and embryo survival in alpacas. In Experiment 1, nonlactating alpacas (4-6 years of age) weighing 55 to 75 kg were rand...
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In the present study, we analysed the molecular mechanism(s) by which melatonin directly affects ovarian function in the mare. In Experiment 1, follicles and corpora lutea (CL) were collected from slaughterhouse ovaries and analysed for... more
In the present study, we analysed the molecular mechanism(s) by which melatonin directly affects ovarian function in the mare. In Experiment 1, follicles and corpora lutea (CL) were collected from slaughterhouse ovaries and analysed for melatonin (MT1) receptor mRNA and protein. In Experiment 2, CL were collected from slaughterhouse ovaries and cultured in Dulbecco’s modified Eagle’s medium-F12 medium (control medium) supplemented with 50 ng mL–1 equine chorionic gonadotrophin (eCG), 1 nM–1 μM melatonin, 1 μM forskolin or 1 μM luzindole. Explants were cultured for 3 h in the presence of these drugs. Conditioned media were analysed for progesterone production; luteal cells were analysed for cholesterol side-chain cleavage enzyme (P450scc), a steroidogenic enzyme that converts cholesterol into pregnenolone. Both MT1 receptor mRNA and protein were expressed in follicles and CL. Melatonin inhibited both the eCG- and forskolin-stimulated production of progesterone, as well as the forskol...
Research Interests: Endocrinology, Nonparametric Statistics, Biology, Medicine, Biological Sciences, and 15 moreMelatonin, Progesterone, Internal Medicine, Female, Animals, Horses, Ovarian Follicle, Receptor, Forskolin, Corpus Luteum, Tryptamines, Steroidogenic Acute Regulatory Protein, reverse transcriptase polymerase chain reaction, Medical and Health Sciences, and Chorionic gonadotropin
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Increasing evidence suggests that the hypophyseal pars tuberalis (PT) plays a key role in the transduction of light/dark (melatonin) information to the endocrine system. It has been shown that PT-specific cells express melatonin receptors... more
Increasing evidence suggests that the hypophyseal pars tuberalis (PT) plays a key role in the transduction of light/dark (melatonin) information to the endocrine system. It has been shown that PT-specific cells express melatonin receptors and thyrotropin hormone (TSH) subunits. However, these cells do not resemble thyrotrophs or any other of the pars distalis (PD) cells. There is evidence that PT-specific cells secrete a glycoprotein hormone designated as ‘tuberalin’. We have identified a putative tuberalin of 21 kDa (tuberalin II) and have raised antibodies against it. To further investigate whether tuberalin II is a distinct secretory compound of the PT, absorption studies of antituberalin II with TSH or with an extract of the rat PD containing β-TSH, β-luteinizing hormone (LH) and the common α-subunit of glycoprotein hormones (GSU), were performed. Neither of the absorption tests abolished the immunoreactivity of the PT to antituberalin II, suggesting that tuberalin II is differe...
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Research Interests: Endocrinology, Biology, Scanning Electron Microscopy, Immunohistochemistry, Medicine, and 15 moreImmunocytochemistry, Cell line, Internal Medicine, Hypothalamus, Female, Animals, Male, Central Nervous System, Medical Physiology, Cattle, Rats, Gonadotropin Releasing Hormone, Organ Culture, Immunoblotting, and Median Eminence
The pars tuberalis (PT) is the only pituitary region in close contact with the medial-basal hypothalamus and bathed by cerebrospinal fluid (CSF). Although PT has long been recognized as an endocrine gland, certain aspects of its structure... more
The pars tuberalis (PT) is the only pituitary region in close contact with the medial-basal hypothalamus and bathed by cerebrospinal fluid (CSF). Although PT has long been recognized as an endocrine gland, certain aspects of its structure remain obscure. The present investigation has been designed to gain information concerning (1) the cellular organization of PT, (2) the PT/median eminence spatial relationship and (3) the exposure of various cell compartments of PT to CSF. Non-endocrine cells (S100-reactive) appear as the organizer of the PT architecture. The apical poles of these cells line large cistern-like cavities and the processes of these cells establish a close spatial relationship with PT-specific secretory cells, portal capillaries and tanycytes. The cisterns are also endowed with clusters of ciliated cells and with a highly electron-dense and PAS-reactive content. The unique spatial organization of endocrine and non-endocrine cells of the PT supports a functional relationship between both cell populations. PT endocrine cells display a hallmark of PT-specific cells, namely, the paranuclear spot, which is a complex structure involving the Golgi apparatus, a large pool of immature secretory granules and a centriole from which originates a single 9+0 cilium projecting to the intercellular channels. Horseradish peroxidase (HRP) injected into the CSF readily reaches the intercellular channels of PT and the inner channel of the single cilium and is incorporated by the endocytic machinery of the secretory cells. The PT endocrine cells, through their single 9+0 cilium, may act as sensors of the CSF. HRP also reaches the lumen of the cisterns, indicating that this PT compartment is also exposed to CSF. PT endocrine cells establish direct cell-to-cell contacts with hypothalamic beta(1) tanycytes, suggesting a second means of brain-PT communication.
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Research Interests: Neuroscience, Neurogenesis, Biology, Medicine, Stem Cell Transplantation, and 15 moreBiological Sciences, Neural stem cell, Cell Differentiation, Hydrocephalus, Humans, Cerebral Cortex, Animals, Embryonic Stem Cell, Biological, Rats, Neuronal Migration, Neural Stem Cells, Cell Proliferation, Subventricular Zone, and congenital hydrocephalus
Research Interests: Endocrinology, Biology, Medicine, Biological Sciences, Internal Medicine, and 15 moreFemale, Ovulation, Ovulation Induction, Animals, Blood sampling, Hormones, Male, Animal Model, Anovulation, Efficiency, Llama, Luteinizing Hormone, Corpus Luteum, Phosphate Buffer Saline, and Medical and Health Sciences
Research Interests: Biology, Scanning Electron Microscopy, Immunohistochemistry, Cell Biology, Transmission Electron Microscopy, and 14 moreScanning Transmission Electron Microscopy, Confocal Microscopy, Medicine, Hydrocephalus, Humans, Mice, Animals, Astrocyte, Astrocytes, Clinical Sciences, Fluorescent Antibody Technique, Fetus, Neurosciences, and Ependyma
A heterogeneous population of ependymal cells lines the brain ventricles. The evidence about the origin and birth dates of these cell populations is scarce. Furthermore, the possibility that mature ependymal cells are born... more
A heterogeneous population of ependymal cells lines the brain ventricles. The evidence about the origin and birth dates of these cell populations is scarce. Furthermore, the possibility that mature ependymal cells are born (ependymogenesis) or self-renewed (ependymal proliferation) postnatally is controversial. The present study was designed to investigate both phenomena in wild-type (wt) and hydrocephalic α-SNAP mutant (hyh) mice at different postnatal stages. In wt mice, proliferating cells in the ventricular zone (VZ) were only found in two distinct regions: the dorsal walls of the third ventricle and Sylvian aqueduct (SA). Most proliferating cells were monociliated and nestin+, likely corresponding to radial glial cells. Postnatal cumulative BrdU-labeling showed that most daughter cells remained in the VZ of both regions and they lost nestin-immunoreactivity. Furthermore, some labeled cells became multiciliated and GLUT-1+, indicating they were ependymal cells born postnatally. Postnatal pulse BrdU-labeling and Ki-67 immunostaining further demonstrated the presence of cycling multiciliated ependymal cells. In hydrocephalic mutants, the dorsal walls of the third ventricle and SA expanded enormously and showed neither ependymal disruption nor ventriculostomies. This phenomenon was sustained by an increased ependymogenesis. Consequently, in addition to the physical and geometrical mechanisms traditionally explaining ventricular enlargement in fetal-onset hydrocephalus, we propose that postnatal ependymogenesis could also play a role. Furthermore, as generation of new ependymal cells during postnatal stages was observed in distinct regions of the ventricular walls, such as the roof of the third ventricle, it may be a key mechanism involved in the development of human type 1 interhemispheric cysts.