Significant progress in neural transplantation has been observed over the last several decades. As a neuroanatomical tool, neural transplantation studies are able to examine the mechanisms involved ...in the development and integration of neurons into the complex neural circuitries of the brain. Today, embryonic neural tissue can be successfully transplanted as solid tissue chunks or as dissociated cell suspensions. Within the parenchyma of the brain, transplanted embryonic neurons develop mature morphology and do not appear to invoke an immunological response by the lost immune system. Not only do these neurons exhibit robust development but there is also evidence that transplanted neurons restore some degree of function to neurologically damaged circuitry; however, the extent of reintegration into the host neural circuitry still remains unclear. Moreover, the long-term survival and functioning of transplanted nerve cells also remains an unanswered question. Advances in the emerging field of genetic engineering may eventually lead to genetically modified neurons that are capable of synthesizing neurotrophic factors or missing neurotransmitters and restoring function in brain-damaged areas. The use of neural transplantation to replace damaged nerve cells in neurodegenerative disorders, such as Alzheimer's or Parkinson's disease, is promising based on our current knowledge. However, our basic scientific knowledge of neural transplants is incomplete and warrants a prudent approach toward application of neural transplantation techniques in clinical research.
Dopamine neurons from the ventral midbrain and olfactory bulb of fetal and postnatal African green monkeys were frozen, stored in liquid nitrogen for intervals of 4-28 days, thawed, and tested for ...viability and growth following intracerebral transplantation into 3 adult monkeys. Well developed tyrosine hydroxylase positive neurons from all donors were seen in intracerebral transplants at 7-50 days after grafting. Freeze-stored neurons also were tested at various intervals by Trypan blue dye exclusion and development in tissue culture. More than 99% of the cryopreserved cells from both pre- and postnatal donors were viable by dye exclusion, and fetal tissue developed neuronal morphology in culture. This evidence further supports the fact that primate neurons survive intracerebral transplantation, even after cryopreservation and storage. The ability to store, transport and verify the transmitter phenotype of neurons offered by this approach is pertinent to possible therapeutic applications.
The glucocorticoids (GC) and retinoids (RA) modulate branching morphogenesis and cytodifferentiation in the developing lung. We investigated downstream target genes that link glucocorticoid ...stimulation to the achievement of a mature lung in glucocorticoid receptor (GR) knockout mice. All GR(null) mice and approximately 80% of mice homozygous for a hypomorphic allele (GR(hypo)) die shortly after birth of respiratory failure. cDNA microarray analysis showed organ-specific upregulation of the retinoic acid responsive gene midkine (MK) and its chondroitin-sulfate binding partner PG-M/versican at fetal day 18 and at neonatal day 1 in lungs of GR(hypo) mice, and at neonatal day 1 in lungs of GR(null) mice. By contrast, lung MK and PG-M/versican were downregulated in these mice at fetal day 16.5. In situ hybridization studies showed a dramatic decrease in MK and PG-M/versican RNA between days 16.5 and 17.5 in GR(WT) but not in GR(null) mice. Continued diffuse and robust expression of MK protein was observed in GR(null) mice at neonatal day 1. These findings suggest that MK may contribute to the dysmature lung phenotype in GR-deficient mice. Exposure of cultured day 21 fetal rat lung cells to GC downregulated MK, whereas RA enhanced MK expression. Our findings demonstrate the coincident modulation of expression of MK at the same developmental time point by both GC and RA, providing a potential mechanism for the integration of GC and RA effects on fetal lung development.
Regulation of vasopressin (VP) and oxytocin (OT) secretion involves integration of neural signals from hypothalamic osmoreceptors, ascending catecholaminergic and peptidergic cell groups in the brain ...stem, and local and autoregulatory afferents. Neuropeptide Y (NPY) is one factor that stimulates the release of VP and OT from the supraoptic (SON) and paraventricular nuclei of the hypothalamus via activation of Y1 receptors (Y1R). The current studies were designed to assess the regulation and distribution of NPY Y1R expression in the SON of male rats that were either given 2% NaCl drinking water (24–72 h) or water deprived (48 h). Subjecting male rats to these conditions resulted in significant increases in both the number of cells expressing Y1R immunoreactivity (ir) and the amount of Y1R protein per cell within the SON. Y1R immunoreactivity was increased in the magnocellular but not medial parvocellular paraventricular nuclei, and Y1R mRNA levels were increased in the SON of salt-loaded rats. Subpopulations of both VP and OT cells in the hypothalamus express Y1R immunoreactivity and a greater percentage of VP-ir cells express Y1R after salt loading. To control for potential effects of dehydration-induced anorexia, a group of euhydrate animals was pair fed with animals consuming 2% NaCl. No detectable change in Y1R expression was observed in the SON of pair-fed animals, even though body weights were significantly lower than controls. These data demonstrate that NPY Y1R gene and protein expression are increased in the SON of salt-loaded and water-deprived animals and provide a mechanism whereby NPY can support VP/OT release during prolonged challenges to fluid homeostasis.
The influence of temperature on selective area (SA) InAs nanowire growth was investigated for metal-organic vapor phase epitaxy (MOVPE) using N sub(2) as the carrier gas and (1 1 1) B GaAs ...substrates. In contrast to the growth temperature range - below 600 degree C - reported for hydrogen ambient, the optimal growth temperature between 650 and 700 degree C was 100 K higher than the optimal ones for H sub(2) carrier gas. At these temperatures, nanowires with aspect ratios of about 80 and a symmetric hexagonal shape were obtained. The results found are attributed to the physical and chemical properties of the carrier gas.
The concentrations of mineral nutrients in seeds are critical to both the life cycle of plants as well as human nutrition. These concentrations are strongly influenced by soil conditions, as shown ...here by quantifying the concentration of 14 elements in seeds from Arabidopsis thaliana plants grown under four different soil conditions: standard, or modified with NaCl, heavy metals, or alkali. Each of the modified soils resulted in a unique change to the seed ionome (the mineral nutrient content of the seeds). To help identify the genetic networks regulating the seed ionome, changes in elemental concentrations were evaluated using mutants corresponding to 760 genes as well as 10 naturally occurring accessions. The frequency of ionomic phenotypes supports an estimate that much as 11% of the A. thaliana genome encodes proteins of functional relevance to ion homeostasis in seeds. A subset of mutants were analyzed with two independent alleles, providing five examples of genes important for regulation of the seed ionome: SOS2, ABH1, CCC, At3g14280 and CNGC2. In a comparison of nine different accessions to a Col-0 reference, eight accessions were observed to have reproducible differences in elemental concentrations, seven of which were dependent on specific soil conditions. These results indicate that the A. thaliana seed ionome is distinct from the vegetative ionome, and that elemental analysis is a sensitive approach to identify genes controlling ion homeostasis, including those that regulate gene expression, phospho-regulation, and ion transport.
The mammalian pulmonary toxin 4-ipomeanol (IPO) is activated by the cytochrome P450 system in bronchial Clara cells in animals. The resulting metabolites bind rapidly to macromolecules, producing ...localized cytotoxicity. IPO has in vitro and in vivo antitumor activity in non-small cell lung cancer (NSCLC) and thus was proposed as a lung cancer-specific antitumor agent. We have completed a directed Phase I trial in patients with NSCLC. Forty-four patients (34 men and 10 women) with NSCLC were treated with IPO. All but two patients had an Eastern Cooperative Oncology Group performance status of 0 or 1. They received 91 courses of therapy with i.v. IPO; 82 courses were administered daily for five days, and 9 were single bolus doses. The dose-limiting toxicity of elevated serum transaminases was observed in three of seven patients at 922 mg/m2/day. The maximum tolerated dose was 693 mg/m2/day on 5 consecutive days every 3 weeks. One patient developed grade 4 pulmonary toxicity at 167 mg/m2/day. There was no significant hematological or renal toxicity. No objective antitumor responses were observed. Pharmacokinetic analysis of 39 patients from day 1 of IPO administration showed biexponential elimination with mean half-lives of 8.6 (alpha half-life) and 76 min (beta half-life). There was a linear relationship between the area under the plasma drug concentration-time curve and the dose of IPO. There was no significant difference between the pharmacokinetic parameters measured on day 1 and day 5. Using a 4-day in vitro cytotoxicity assay, two tumor cell lines established from patients treated at 693 mg/m2/day had IC50s of approximately 6 mM, a concentration more than 75-fold higher than the plasma levels measured in these patients. Thus, although the total amount of drug administered per cycle on a daily times five dose schedule is more than 2.5-fold higher than the recommended single daily dose, IPO is unlikely to be a useful drug for patients with lung cancer.
In the present study, we examined the relationship between ApoE and amyloid containing profiles within the cerebral cortex of young, middle aged, and aged Rhesus monkeys. Polymerase chain reaction ...analysis revealed a pattern consistent with the ApoE e4 phenotype in the rhesus monkey similar to that reported in humans. We found numerous ApoE immunoreactive plaques within the temporal neocortex and amygdala, whereas the hippocampus contained only a few such plaques. Although virtually all ApoE-immunoreactive plaques coexpressed beta-amyloid, most plaques were beta A4 positive/ApoE immunonegative within the aged monkey cortex. Moreover, we observed a close correspondence between ApoE and thioflavin-positive (i.e., amyloid) plaques suggesting that ApoE may play a critical role in the conversion of beta A4 to its beta-pleated form. Because ApoE, beta A4 and amyloid are expressed in plaques within the aged Rhesus macaque cortex, this species may provide an in vivo model for investigations aimed at clarifying the interactions between these proteins in normal and pathologic aging.
Controlling the spatial distribution of functional groups on 2D materials on a micrometer scale and below represents a fascinating opportunity to achieve anisotropic (opto)electronic properties of ...these materials. Periodic patterns of covalent functionalization can lead to periodic potentials in the monolayer; however, creating such superstructures is very challenging. Here, we describe an original approach to the periodic functionalization of graphene induced by substrate patterning using a pulsed laser. Laser-induced periodic surface structures (LIPSS) are produced on silicon wafers with thermally-grown oxide layers. The irradiation conditions for the formation of LIPSS confined at the SiO
2
/Si interface have been unravelled. LIPSS imprint their periodicity to the reactivity of the monolayer graphene placed on the substrate via modulation of its local doping level. This method is clean, straightforward and scalable with high spatial resolution.