Human embryonic stem cell-derived neural precursors as a continuous, stable, and on-demand source for human dopamine neurons

Human embryonic stem (hES) cells can be guided to differentiate into ventral midbrain-type neural precursor (NP) cells that proliferate in vitro by specific mitogens. We investigated the potential of these NP cells derived from hES cells (hES-NP) for the large-scale generation of human dopamine (DA) neurons for functional analyses and therapeutic applications. To address this, hES-NP cells were expanded in vitro for 1.5 months with six passages, and their proliferation and differentiation properties determined over the NP passages. Interestingly, the total hES-NP cell number was increased by > 2 × 10⁴-folds over the in vitro period without alteration of phenotypic gene expression. They also sustained their differentiation capacity toward neuronal cells, exhibiting in vitro pre-synaptic DA neuronal functionality. Furthermore, the hES-NP cells can be cryopreserved without losing their proliferative and developmental potential. Upon transplantation into a Parkinson's disease rat model, the multi-passaged hES-NP cells survived, integrated into the host striatum, and differentiated toward the neuronal cells expressing DA phenotypes. A significant reduction in the amphetamine-induced rotation score of Parkinson's disease rats was observed by the cell transplantation. Taken together, these findings indicate that hES-NP cell expansion is exploitable for a large-scale generation of experimental and transplantable DA neurons of human-origin.     

Crucial role of the local micro-environment in fate decision of neonatal rat NG2 progenitors

Objectives:  The fate choice of neural progenitor cells could be dictated by local cellular environment of the adult CNS. The aim of our study was to investigate the effect of hippocampal tissue on differentiation and maturation of oligodendrocyte NG2 precursor cells.
Materials and methods:  Hippocampal slice culture was established from the brains of 7-day-old rats. NG2 precursor cells, obtained from a 12-day-old mixed primary culture of neonatal rat cerebral hemispheres, were labelled with chloromethyl-fluorescein-diacetete and seeded on the hippocampal slices. After 7–14 days in co-culture, cells were stained with neural markers.
Results:  NG2 cells differentiated predominantly into oligodendrocytes, presenting various stages of maturation: progenitors (NG2), pre-oligodendrocytes (O4) and finally mature GalC-positive cells. However, except for a few cells with astrocyte-specific S100b staining, a considerable number of these cells differentiated into neurons: TUJ⁺ and even MAP-2⁺ cells were frequently observed. Moreover, a certain population of these cells preserved proliferative properties of primary precursor cells, as revealed by Ki67 expression.
Conclusions:  The neuronal micro-environment provided by the culture of hippocampal slices is potent for induction of neurogenesis from oligodendrocyte NG2⁺/PDGFRα⁺/CNP⁺ progenitor cells and promotes their differentiation not only into macroglia but also into neurons. It also sustains their proliferative capacity. The results indicate the crucial role of the local cellular environment in fate decision of primary NG2⁺ multipotent neural progenitor cells, which may affect their behaviour after transplantation into the central nervous system.     

Fibroblast growth factor 9 prevents MPP+-induced death of dopaminergic neurons and is involved in melatonin neuroprotection in vivo and in vitro

Oxidative stress and down-regulated trophic factors are involved in the pathogenesis of nigrostriatal dopamine(DA)rgic neurodegeneration in Parkinson's disease. Fibroblast growth factor 9 (FGF9) is a survival factor for various cell types; however, the effect of FGF9 on DA neurons has not been studied. The antioxidant melatonin protects DA neurons against neurotoxicity. We used MPP⁺ to induce neuron death in vivo and in vitro and investigated the involvement of FGF9 in MPP⁺ intoxication and melatonin protection. We found that MPP⁺ in a dose- and time-dependent manner inhibited FGF9 mRNA and protein expression, and caused death in primary cortical neurons. Treating neurons in the substantia nigra and mesencephalic cell cultures with FGF9 protein inhibited the MPP⁺-induced cell death of DA neurons. Melatonin co-treatment attenuated MPP⁺-induced FGF9 down-regulation and DA neuronal apoptosis in vivo and in vitro . Co-treating DA neurons with melatonin and FGF9-neutralizing antibody prevented the protective effect of melatonin. In the absence of MPP⁺, the treatment of FGF9-neutralizing antibody-induced DA neuronal apoptosis whereas FGF9 protein reduced it indicating that endogenous FGF9 is a survival factor for DA neurons. We conclude that MPP⁺ down-regulates FGF9 expression to cause DA neuron death and that the prevention of FGF9 down-regulation is involved in melatonin-provided neuroprotection.     

Efficient in vitro generation of adult multipotent cells from mobilized peripheral blood CD133+ cells

Abstract. Objectives : To generate non-haematopoietic tissues from mobilized haematopoietic CD133⁺ stem cells. Materials and methods : Mobilized peripheral blood CD133⁺ cells from adult healthy donors were used. In vitro ability of highly enriched CD133⁺ cells from mobilized peripheral blood to generate multipotent cells, and their potential to give rise to cells with characteristics of neuroectoderm, endoderm and mesoderm layers was investigated. Results : We found that a recently identified population of CD45⁺ adherent cells generated in vitro after culture of highly purified CD133⁺ cells for 3–5 weeks with Flt3/Flk2 ligand and interleukin-6 can, in presence of the appropriate microenvironmental cues, differentiate into neural progenitor-like cells (NPLCs), hepatocyte-like cells and skeletal muscle-like cells. We have termed them to be adult multipotent haematopoietic cells (AMHCs). AMHC-derived NPLCs expressed morphological, phenotypic and molecular markers associated with primary neural progenitor cells. They can differentiate into astrocyte-like cells, neuronal-like cells and oligodendrocyte-like cells. Moreover, AMHC-derived NPLCs produced 3,4-dihydrophenylalanine and dopamine and expressed voltage-activated ion channels, suggesting their functional maturation. In addition, AMHC-derived hepatocyte-like cells and skeletal muscle-like cells, showed typical morphological features and expressed primary tissue-associated proteins. Conclusion : Our data demonstrate that AMHCs may therefore serve as a novel source of adult multipotent cells for autologous replacement cell therapies.     

In Human Fetal Astrocytes Exposure to Interleukin-1β Stimulates Acquisition of the GD3+ Phenotype and Inhibits Cell Division

Abstract: In human astrocyte cultures established from second-trimester fetal brain tissue, ∼5–10% of total astrocyte population in unstimulated cultures were GD3⁺/glial fibrillary acidic protein (GFAP)⁺. The GD3⁺ cells were always GFAP⁺ and grew as flat, highly spread cells but changed to process-bearing cells after interleukin-1β (IL-1β) stimulation. It is interesting that IL-1β, a known mitogen for rat astrocytes, suppressed human fetal astrocyte proliferation as determined by [³H]thymidine incorporation, bromodeoxyuridine (BrdU) labeling, and cell counting. The GD3⁺ population, however, consistently increased in absolute number after IL-1β stimulation, in a dose- and time-dependent manner. The IL-1β-mediated increase in number of GD3⁺ astrocytes was independent of initial cell density or serum concentration. By flow cytometry, IL-1β enhanced both the mean fluorescence intensity and the percentage of GD3⁺ cells. To investigate whether the increase in GD3⁺ astrocyte cell number was due to proliferation of preexisting GD3⁺ astrocytes or due to conversion of GD3⁻ to GD3⁺ cells, we performed BrdU/GD3 double immunocytochemistry. BrdU/GD3 double-positive cells were extremely rare in both control and IL-1β-stimulated cultures. Moreover, an increase in number of GD3⁺ astrocytes was still observed in control and IL-1β-stimulated cultures where GD3⁺ cells had been initially eliminated by cell sorting. These results indicate that GD3⁺ astrocytes in human fetal culture may represent a postmitotic, differentiated, distinct phenotype.     

Involvement of Na+,K+-ATPase in the Mitogenic Effect of Insulin-Like Growth Factor-I on Cultured Rat Astrocytes

Abstract: We have previously reported that insulin/insulin-like growth factor (IGF)-I induced the α1 isoform of Na⁺,K⁺-ATPase in cultured astrocytes. In this study the effects of insulin/IGF-I on Na⁺,K⁺-ATPase activity and cell proliferation were examined in astrocytes cultured under the various conditions, to test the possible involvement of the enzyme activity in the mitogenic action of IGF-I on astrocytes. Insulin increased Na⁺,K⁺-ATPase activity and stimulated cell proliferation in subconfluent astrocytes (cultured for 7–14 days in vitro). In contrast, these effects were not observed in confluent cells (cultured for 28 days). Furthermore, insulin stimulated neither the enzyme activity nor [³H]thymidine incorporation in astrocytes preincubated in fetal calf serum-free medium for 2 days (quiescent cells) and treated with dibutyryl cyclic AMP (differentiated cells). The increases in Na⁺,K⁺-ATPase activity and expression of the α1 mRNA preceded the mitogenic effect. ¹²⁵I-IGF-I binding experiment showed that all the cells used here had similar binding characteristics. The insulin-induced increase in enzyme activity was not affected by 1-(5-isoquinolinesulfonyl)-2-methylpiperazine (H-7), and it was observed even in Ca²⁺-free medium. The stimulation by IGF-I of [³H]thymidine incorporation was attenuated by ouabain and a low external K⁺ level. These findings suggest that stimulation of Na⁺,K⁺-ATPase activity is involved in the mitogenic action of IGF-I on cultured astrocytes.     

Chronic Activation of the Cyclic AMP Signaling Pathway Promotes Development and Long-Term Survival of Mesencephalic Dopaminergic Neurons

Abstract: Dibutyryl cyclic AMP (dbcAMP), a permeant analogue of cyclic AMP (cAMP), prevented, for at least 3 weeks, the death of tyrosine hydroxylase (TH)-immunopositive dopaminergic neurons, which occurred spontaneously by apoptosis in mesencephalic cultures. Treatment with the cyclic nucleotide analogue also led to a significant increase in the uptake of [³H]dopamine, attesting that the rescued TH⁺ neurons were fully functional and differentiated. dbcAMP was most effective when added immediately after plating, but delayed treatment could still arrest the ongoing degenerative process. Trophic/survival effects were long-lasting, declining only progressively after withdrawal of dbcAMP from the culture medium. They were independent of cell density and still detectable in the absence of serum proteins. The effects of dbcAMP were mimicked by depolarizing concentrations of potassium and by agents that increase endogenous production of cAMP, such as forskolin or 3-isobutyl-1-methylxanthine, but not by native cAMP, which cannot cross cell membranes. Elimination of glial cells by arabinoside-C did not reduce the activity of dbcAMP. GABAergic neurons, also present in these cultures, were much less dependent on the cyclic nucleotide analogue for their survival, and serotoninergic cells were not dependent at all. Therefore, cAMP-dependent signaling may be particularly crucial for the maturation and long-term survival of mesencephalic dopaminergic neurons.     

Mg2+-free buffer elevates transformation efficiency of Vibrio parahaemolyticus by electroporation

Aims:  The ability to transform Vibrio spp. is limited by the extracellular nuclease that their cells secrete. The reported transformation efficiency of this organism is 10²–10⁵ transformants per microgram DNA. We tried different buffers and conditions, aiming to elevate its transformation efficiency.
Methods and Results:  MgCl₂ and sucrose are often included in the washing and/or electroporation buffers to stabilize the cell membrane. However, Mg²⁺ is required for production and activity of the extracellular nuclease. A simple electroporation buffer lacking Mg²⁺ was found to increase transformation efficiency dramatically, to levels 50-fold more than the buffers containing Mg²⁺. To maintain the stability of the cell membranes, Mg²⁺ was replaced with high concentrations of sucrose, from 272 to 408 mmol l⁻¹. With the new buffers, the transformation efficiency of Vibrio parahaemolyticus was increased to 2·2 × 10⁶ transformants per microgram DNA.
Conclusions:  Mg²⁺ in the buffer adversely affected transformation of V. parahaemolyticus by electroporation. The cell membranes of vibrio can be stabilized by high concentration of sucrose when Mg²⁺ is absent.
Significance and Impact of the Study:  A greater transformation efficiency can facilitate the genetic analysis of an organism and its pathogenicity. Buffers lacking Mg²⁺ can be used for other nuclease-producing organisms.     

Evidence of progenitor cells of glandular and myoepithelial cell lineages in the human adult female breast epithelium: a new progenitor (adult stem) cell concept

Abstract.  Although experimental data clearly confirm the existence of self-renewing mammary stem cells, the characteristics of such progenitor cells have never been satisfactorily defined. Using a double immunofluorescence technique for simultaneous detection of the basal cytokeratin 5, the glandular cytokeratins 8/18 and the myoepithelial differentiation marker smooth muscle actin (SMA), we were able to demonstrate the presence of CK5⁺ cells in human adult breast epithelium. These cells have the potential to differentiate to either glandular (CK8/18⁺) or myoepithelial cells (SMA⁺) through intermediary cells (CK5⁺ and CK8/18⁺ or SMA⁺). We therefore proceeded on the assumption that the CK5⁺ cells are phenotypically and behaviourally progenitor (committed adult stem) cells of human breast epithelium. Furthermore, we furnish evidence that most of these progenitor cells are located in the luminal epithelium of the ductal lobular tree. Based on data obtained in extensive analyses of proliferative breast disease lesions, we have come to regard usual ductal hyperplasia as a progenitor cell-derived lesion, whereas most breast cancers seem to evolve from differentiated glandular cells. Double immunofluorescence experiments provide a new tool to characterize phenotypically progenitor (adult stem) cells and their progenies. This model has been shown to be of great value for a better understanding not only of normal tissue regeneration but also of proliferative breast disease. Furthermore, this model provides a new tool for unravelling further the regulatory mechanisms that govern normal and pathological cell growth.     

Differential regulation of sphingomyelin synthesis and catabolism in oligodendrocytes and neurons

Neurons (both primary cultures of 3-day rat hippocampal neurons and embryonic chick neurons) rapidly converted exogenous NBD-sphingomyelin (SM) to NBD-Cer but only slowly converted NBD-Cer to NBD-SM. This was confirmed by demonstrating low in vitro sphingomyelin synthase (SMS) and high sphingomyelinase (SMase) activity in neurons. Similar results were observed in a human neuroblastoma cell line (LA-N-5). In contrast, primary cultures of 3-day-old rat oligodendrocytes only slowly converted NBD-SM to NBD-Cer but rapidly converted NBD-Cer to NBD-SM. This difference was confirmed by high in vitro SMS and low SMase activity in neonatal rat oligodendrocytes. Similar results were observed in a human oligodendroglioma cell line. Mass-Spectrometric analyses confirmed that neurons had a low SM/Cer ratio of (1.5 : 1) whereas oligodendroglia had a high SM/Cer ratio (9 : 1). Differences were also confirmed by [³H]palmitate-labeling of ceramide, which was higher in neurons compared with oligodendrocytes. Stable transfection of human oligodendroglioma cells with neutral SMase, which enhanced the conversion of NBD-SM to NBD-Cer and increased cell death, whereas transfection with SMS1 or SMS2 enhanced conversion of NBD-Cer to NBD-SM and was somewhat protective against cell death. Thus, SMS rather than SMases may be more important for sphingolipid homeostasis in oligodendrocytes, whereas the reverse may be true for neurons.     

Human CD34+ stem cells produce bone nodules in vivo

Abstract.   Objectives : The aim of this study was to select and provide enough stem cells for quick transplantation in bone engineering procedures, avoiding any in vitro expansion step. Materials and Methods : Dental germ pulp, collected from 25 healthy subjects aged 13–20 years, were subjected to magnetic-activated cell sorting to select a CD34⁺ stem cell population capable of differentiating into pre-osteoblasts. These cells were allowed to adhere to an absorbable polylactic–coglycolic acid scaffold for 30 min, without any prior expansion, and the CD34⁺ cell-colonized scaffolds were then transplanted into immunocompromised rats, subcutaneously. Results : After 60 days, analysis of recovered transplants revealed that they were formed of nodules of bone, of the same dimensions as the original scaffold. Bone-specific proteins were detected by immunofluorescence, within the nodules, and X-ray diffraction patterns revealed characteristic features of bone. In addition, presence of platelet endothelial cell adhesion molecule and von Willebrand factor immunoreactivity were suggestive of neo-angiogenesis and neovasculogenesis taking place within nodules. Importantly, these vessels were HLA-1⁺ and, thus, clearly human in origin. Conclusions : This study indicates that CD34⁺ cells obtained from dental pulp can be used for engineering bone, without the need for prior culture expanding procedures. Using autologous stem cells, this schedule could be used to provide the basis for bone regenerative surgery, with limited sacrifice of tissue, low morbidity at the collection site, and significant reduction in time needed for clinical recovery.     

Signalling through TLR2/MyD88 induces differentiation of murine bone marrow stem and progenitor cells to functional phagocytes in response to Candida albicans

We have previously demonstrated that inactivated yeasts and hyphae of Candida albicans induce in vitro the proliferation of murine haematopoietic stem and progenitor cells (HSPCs, sorted as LKS cells: Lin^- c-Kit⁺ Sca-1⁺) as well as their differentiation to lineage-positive cells, through a MyD88-dependent pathway. In this work, we have found that this process is mainly mediated by TLR2, and that expanding cells express myeloid and not lymphoid markers. Incubation of long-term repopulating HSCs (Lin^- CD105⁺ and Sca-1⁺) with C. albicans yeasts resulted in their proliferation and up regulation of the common myeloid progenitors (CMPs) markers, CD34 and FcγRII/III, by a TLR2/MyD88-dependent signalling pathway. In addition, this TLR2/MyD88 signalling promotes the differentiation of CMPs and granulocyte and macrophage progenitors (GMPs) into cells with the morphology of macrophages and neutrophils, characterized by an increase in the expression of CD11b, F4/80 and Ly6G, independently of the presence of growth and differentiation factors. These differentiated cells were able to phagocytose C. albicans yeasts and to produce proinflammatory cytokines. In conclusion, C. albicans may be sensed by TLRs on haematopoietic stem and progenitor cells to promote the host capability for rapidly replenishing myeloid cells that constitute the first line of defence against C. albicans .     

Expression of Excitatory Amino Acid Receptors by Cerebellar Cells of the Type-2 Astrocyte Cell Lineage

Abstract: We have used postnatal rat cerebellar astrocyte-enriched cultures to study the excitatory amino acid receptors present on these cells. In the cultures used, type-2 astrocytes (recognized by the monoclonal antibodies A2B5 and LB1) selectively took up γ-[³H]aminobutyric acid ([³H]GABA) and released it when incubated in the presence of micromolar concentrations of kainic and quisqualic acids. The releasing effect of kainic acid was concentration dependent in the range of 5–100 μ M . Quisqualate was more effective than kainate in the lower concentration range but less effective at concentrations at which its releasing activity was maximal (∼50 μ M ). N -Methyl- d -aspartic acid and dihydrokainate (100 μ M ) did not stimulate [³H]GABA release from cultured astrocytes. l -Glutamic acid (20–100 μ M ) stimulated [³H]GABA release as effectively as kainate. The stimulatory effects of kainate and quisqualate on [³H]GABA release were completely Na⁺ dependent; that of kainate was also partially Ca²⁺ dependent. Kynurenic acid (50–200 μ M ) selectively antagonized the releasing effects of kainic acid and also that of l -glutamate; quisqualate was unaffected. Quisqualic acid inhibited the releasing effects of kainic acid when both agonists were used at equimolar concentrations (50 μ M ). d -[³H]aspartate was taken up by both type-1 and type-2 astrocytes, but only type-2 astrocytes released it in the presence of kainic acid. Excitatory amino acid receptors with a pharmacology similar to that of the receptors present in type-2 astrocytes were also expressed by the immature, bipotential progenitors of type-2 astrocytes and oligodendrocytes.     

Nitric Oxide-Induced [3H]GABA Release from Cerebral Cortical Neurons Is Mediated by Peroxynitrite

Abstract: The functional significance of peroxynitrite in the release of [³H]GABA induced by nitric oxide (NO) liberated from NO generators was investigated using cerebral cortical neurons in primary culture. NO generators such as sodium nitroprusside (SNP) and S -nitroso- N -acetylpenicillamine (SNAP) increased [³H]GABA release in a dose-dependent manner. These increases in [³H]GABA release were significantly inhibited by hemoglobin, indicating that those NO generators evoke the release of [³H]GABA by the formation of NO. Two types of superoxide scavengers, Cu²⁺/Zn²⁺ superoxide dismutase and ceruloplasmin, significantly reduced the increase in [³H]GABA release induced by both SNP and SNAP, which assumes that NO requires superoxide to induce [³H]GABA release from the neurons. In addition, synthesized peroxynitrite induced a dose-dependent increase in [³H]GABA release from the neurons. These results indicate that NO-induced [³H]GABA release is mediated by peroxynitrite formed by the reaction of NO with superoxide.     

Ca2+-Dependent Enhancement of [3H]Dopamine Uptake in Rat Striatum: Possible Involvement of Calmodulin-Dependent Kinases

Abstract: We studied effects of Ca²⁺ in the incubation medium on [³H]dopamine ([³H]DA) uptake by rat striatal synaptosomes. Both the duration of the preincubation period with Ca²⁺ (0–30 min) and Ca²⁺ concentration (0–10 m M ) in Krebs-Ringer medium affected [³H]DA uptake by the synaptosomes. The increase was maximal at a concentration of 1 m M Ca²⁺ after a 10-min preincubation (2.4 times larger than the uptake measured without preincubation), which reflected an increase in V _max of the [³H]DA uptake process. On the other hand, [³H]DA uptake decreased rapidly after addition of ionomycin in the presence of 1 m M Ca²⁺. The Ca²⁺-dependent enhancement of the uptake was still maintained after washing synaptosomes with Ca²⁺-free medium following preincubation with 1 m M Ca²⁺. Protein kinase C inhibitors did not affect apparently Ca²⁺-dependent enhancement of the uptake, whereas 1-[ N,O -bis(1,5-isoquinolinesulfonyl)- N -methyl- l -tyrosyl]-4-phenylpiperazine (KN-62; a Ca²⁺/calmodulin-dependent kinase II inhibitor) and wortmannin (a myosin light chain kinase inhibitor) significantly reduced it. Inhibitory effects of KN-62 and wortmannin appeared to be additive. N -(6-Aminohexyl)-5-chloro-1-naphthalenesulfonamide hydrochloride (W-7; a calmodulin antagonist) also remarkably inhibited the enhancement. These results suggest that Ca²⁺-dependent enhancement of [³H]DA uptake is mediated by activation of calmodulin-dependent protein kinases.     

Chronic Dopamine D2 Receptor Activation Does Not Affect Survival and Differentiation of Cultured Dopaminergic Neurons: Morphological and Neurochemical Observations

Abstract: Primary cultures of rat ventral mesencephalon were used to elucidate the role of chronic stimulation of dopamine (DA) D₂ autoreceptors in the development of fetal dopaminergic neurons in vitro. Cultured dopaminergic neurons, as visualized by tyrosine hydroxylase immunocytochemistry, became more differentiated in the course of cultivation time and exhibited specific high-affinity uptake for [³H]DA. In rat striatal tissue, activation of D₂ receptors has been shown to inhibit the release of DA. Previously accumulated [³H]DA was released from the cultures upon depolarization in a Ca²⁺-dependent manner. K⁺-evoked [³H]DA release could be inhibited by the selective D₂ receptor agonists LY 171555 and N0437 in a concentration-dependent manner. The inhibitory effects of LY 171555 and N0437 were antagonized by the selective DA D₂ receptor antagonist sulpiride. These observations are indicative for the expression of functional D₂ receptors in the cultures. Daily treatment of these cultures for 7 days with LY 171555 or sulpiride did not lead to any change in protein content, the number of tyrosine hydroxylase-immunoreactive neurons, or the uptake capacity for [³_H]DA. Our data demonstrate that chronic stimulation of DA D₂ receptors does not impair survival or differentiation of cultured fetal dopaminergic neurons.     

Change of specific T cells in an emerging neonatal infectious disease induced by a bacterial superantigen

A new epidemic, NTED, has recently occurred in Japan. The cause of NTED is a bacterial superantigen, TSST-1. The aim of the present study was to analyze the change in Vβ2⁺ T cells reactive to TSST-1 in NTED in order to establish T-cell-targeted diagnostic criteria for NTED. Blood samples from 75 patients with clinically diagnosed NTED were collected from 13 neonatal intensive care units throughout Japan. We investigated the percentages of Vβ2⁺, Vβ3⁺ and Vβ12⁺ T cells and their CD45RO expressions in the samples using flow cytometry. In 18 of the 75 patients, we conducted multiple examinations of the T cells and monitored serial changes. The Vβ2⁺ T-cell population rapidly changed over three phases of the disease. Whereas the percentage of Vβ2⁺ T cells was widely distributed over the entire control range, CD45RO expression on Vβ2⁺ T cells in CD4⁺ in all 75 patients was consistently higher than the control range. Patients cannot necessarily be diagnosed as having NTED based on expansion of Vβ2⁺ T cells alone in the early acute phase. Instead, CD45RO expression on specific Vβ2⁺ cells is a potential diagnostic marker for a rapid diagnosis of NTED. We present three diagnostic categories of NTED. Fifty patients (66.7%) were included in the category 'definitive NTED'. It is important to demonstrate an increase of Vβ2⁺ T cells in the following phase in cases of 'probable NTED' or 'possible NTED'.     

Effects of triploidy on rainbow trout myogenesis in vitro

To examine the effects of triploidy on rainbow trout myogenesis in vitro , mononuclear cells were liberated enzymatically from the lateralis muscles of diploid and triploid trout. The muscle of diploids yielded 1 × 10⁶± 1 × 10⁵ (± s.e.m. ) mononuclear cells g⁻¹ muscle compared to 0.7 × 10⁶± 8 × 10⁴ cells g⁻¹ from triploids ( P <0.01). The plating efficiencies of diploid and triploid mononuclear cells on Matrigel™ following 18 h of culture in Leibovitz's L-15 + 10% foetal bovine serum were not significantly different, 35.0 ± 3.5% and 33.0 ± 2.9%, respectively. For most time points examined, the proportion of nuclei in multinucleated cells and the proportion of nuclei in myosin positive cells were not significantly different for diploid and triploid trout. Taken together, these data suggest that diploid and triploid myogenic cells will differentiate similarly when compared under identical, in vitro conditions.     

Longevity of the freshwater anostracan Streptocephalus mackini (Crustacean: Anostraca) in relation to food (Chlorella vulgaris) concentration

SUMMARY 1. Temporary ponds are inhabited by a variety of invertebrates, of which anostracans are an important group. We studied the lifetables of male and female anostracan Streptocephalus mackini at 3 algal concentrations (0.5 × 10⁶, 1.0 × 10⁶ and 1.5 × 10⁶ cells mL⁻¹).
2. Regardless of sex, S. mackini showed better survivorship at lower food levels. The longest average lifespan observed was 85 ± 2 days for males fed Chlorella at 0.5 × 10⁶ cells mL⁻¹.
3. Both net reproductive rate and generation time decreased with increasing food level. The highest net reproductive rate was about 120 cysts per female. The longest generation time of about 40 days, observed at 0.5 × 10⁶ cells mL⁻¹, was more than three times that at 1.5 × 10⁶ cells mL⁻¹.
4. The rate of population increase ( r ) was nearly the same (0.31 ± 0.06) at high (1.5 × 10⁶ cells mL⁻¹) and intermediate (1.0 × 10⁶ cells mL⁻¹) food levels. The r -value at low food level (0.5 × 10⁶ cells mL⁻¹ of Chlorella ) was 0.20 ± 0.01 per day.