Morphological classification and retinal distribution of large ganglion cells in the retina ofBufo marinus

Summary The retrograde transport of horseradish peroxidase (HRP) and cobaltic-lysine complex (CLC) was used to morphologically characterize large ganglion cells (GCs) and to determine their distribution in retinal wholemounts and in sectioned material in the retina ofBufo marinus. Large GCs, amounting to about 0.5% of total GC population, were defined to be those with very large dendritic field sizes varying between 0.1 mm² to 0.6 mm² and cell soma sizes of between 100 m² to 400 m². These cells were subdivided into 3 major groups, Types I, II and III, on the basis of their dendritic field sizes, arborization patterns and the strata of dendritic branching within the inner plexiform layer (IPL). The majority of large neurons (about 90%) were classified as Type I GCs with symmetrical dendritic arbor. These cells had either bistratified branching in the scierai and vitreal sublaminae of the IPL (65% of Type I Cells) or unistratified branching in the scleral (26%) or in the vitreal (9%) sublamina. Their dendritic field sizes increased linearly from the retinal centre from 0.13 mm±0.02 mm² (mean and S.D.) to 0.58±0.11 mm² in the retinal periphery. Type II GCs (about 9% of the large GC population) were characterized by an asymmetrical dendritic arborization directed towards the ciliary margin with unistratified branching in the scierai sublamina of the IPL. The mean dendritic field sizes of these cells were 0.26±0.09 mm². Type III GCs, the least frequent (about 1%) category of large GCs had sparsely branching, elongated dendritic branching aligned approximately parallel with the nasotemporal axis of the retina. The unistratified dendritic branches of these neurons were located in the vitreal sublamina of the IPL with a mean dendritic field size of 0.42±0.11 mm². The dendritic field sizes of Types II and III GCs did not increase with retinal eccentricity. Type I GCs were distributed unevenly across the retina, the density being greatest in the visual streak, along the nasotemporal meridian of the retina. The dendritic field sizes of these cells increased towards the retinal periphery, resulting in a constant dendritic field coverage factor across the retina. Each retinal point was covered by the dendritic fields of 4–5 adjacent GCs. In contrast, Types II and III GCs had only discontinuous dendritic coverage. The identification of morphological types of large GCs with previously described functional classes of GCs in the anuran retina is discussed.On leave from the Department of Anatomy, University Medical School, Pécs, Hungary     

Two types of tyrosine hydroxylase-immunoreactive neurons in the zebrafish retina

The purpose of the present study is to identify the dopaminergic amacrine (DA) cells in the inner nuclear layer (INL) of zebrafish retina through immunocytochemistry and quantitative analysis. Two types of tyrosine hydroxylase-immunoreactive (TH-IR) cells appeared on the basis of dendritic morphology and stratification patterns in the inner plexiform layer (IPL). The first (DA1) was bistratified, with branching planes in both s1 and s5 of the IPL. The second (DA2) was diffuse, with dendritic processes branched throughout the IPL. DA1 and DA2 cells corresponded morphologically to A_on^−s1/s5 and A_diffuse⁻¹ (Connaughton et al., 2004). The average number of total TH-IR cells was 1088 ± 79 cells per retina (n = 5), and the mean density was 250 ± 27 cells/mm². Their density was highest in the mid central region of ventrotemporal retina and lowest in the periphery of dorsonasal retina. Quantitatively, 45.71% of the TH-IR cells were DA1 cells, while 54.29% were DA2 cells. No TH-IR cells expressed calbindin D28K, calretinin or parvalbumin, markers for the various INL cells present in several animals. Therefore the TH-IR cells in zebrafish are limited to very specific subpopulations of the amacrine cells.     

The morphology and distribution of photoreceptors in the retina of Bufo marinus

Summary The number, cell morphology and retinal distribution of rods and cones were determined in the retina of the toad, Bufo marinus. Adult animals were sacrificed, both eyes were removed and prepared for either tangential section across the outer segments of the photoreceptor layer, or transverse section across the whole retina.Cone densities increased from an average of 7000/mm² in the peripheral to a maximum of 25000/mm² in the central retina. The high cone densities extended across the naso-temporal axis of the retina corresponding to the position of the visual streak in the ganglion cell layer. The total number of cones in the retina was estimated to be 1.1 million. Rod density of 21000/mm² in the central retina decreased to 17000/mm² at 1.5–4 mm eccentricity, and then increased to 29000/mm² in the peripheral retina. The total number of rods amounted to about 2 million. The mean of the crosssectional area of rod outer segments was 11.2 ± 1.5 m² (mean ± SD) in the highest and 17.9 ± 4.7 m² in the lowest density areas of the retina. The length of the rod outer segments extended from 28 m in the ventral peripheral retina to a maximum of 89 m in the dorsal retina, dorsal to the visual streak of the ganglion cell layer.The results of the present study showed a differential retinal distribution of photoreceptors, with a peak density in the retinal centre and a higher density along the naso-temporal axis of the eye. We conclude that the area of high photoreceptor density, matched by high neuron densities of the INL and GCL, corresponds to the site of acute vision of the Bufo retina.On leave from Department of Biology, Fujian Teachers University, Fuzhou, Fujian, People's Republic of China.     

The changing distribution of neurons in the inner nuclear layer from metamorphosis to adult: a morphometric analysis of the anuran retina

Summary The generation and changing distribution of neurons of the inner nuclear layer (INL) in the retina of two anuran species, Bufo marinus and Xenopus laevis, were studied from metamorphosis to adult. Morphometric studies were undertaken at six developmental stages in Bufo and four in Xenopus. The number and thickness of neurons in the INL were established in 29 predetermined retinal locations from serial sections of the eyes cut vertically or horizontally. The total number of neurons in the INL increased from metamorphosis to adult from 826000 ± 185 to 18760000 ± 562 (mean ± SD) in Bufo and from 308000 ± 25 to 877000 ± 31 in Xenopus. Over the same period the surface area of the INL increased about 50-fold from 2 mm² to 96 mm² in Bufo and 5-fold from 2.5 mm² to 13 mm² in Xenopus. In Bufo the difference between the highest cell number (centraltemporal retina) and the lowest cell number in a sample area (dorsal and ventral peripheral retina) was 2.11 at metamorphosis. This ratio increased to 3.41 in the adult. Both the cell number and cell density per sample area in the INL was found to be higher along the nasotemporal meridian of the eye overlying the visual streak of the ganglion cell layer (GCL) of the retina. The retinal distribution of neurons in the INL did not change significantly during postmetamorphic growth in Xenopus. At metamorphosis a 1.71 difference was found between the highest neuron number (retinal ciliary margin) and lowest neuron number (retinal centre) decreasing to 1.51 in the adult. Retinae were labelled with ³H-thymidine in 15 mm Bufos and examined 2, 6, 12 and 18 weeks later. Higher rates of cell addition to the nasal and temporal poles of the INL were found compared with that at the dorsal and ventral poles. The retinal radial growth at the ciliary margin of the dorsal, ventral, nasal and temporal poles between the time of isotope injection and 18 weeks survival was found to be uneven; more radial elongation occurred at the nasal, dorsal and ventral poles and less at the temporal pole. These observations suggest that (a) the neuron distribution of the INL in adult animals approximates that of the GCL and (b) the visual streak-like area of the INL in Bufo develops by a sustained differential cell addition at the temporal and nasal poles of the retina.On leave from the Department of Anatomy, Zhanjiang Medical College, Guangdong,People's Republic of China     

Morphology and retinal distribution of tyrosine hydroxylase-like immunoreactive amacrine cells in the retina of developingXenopus laevis

Summary The development of neurons immunoreactive to tyrosine hydroxylase (TH-IR) in the retina ofXenopus laevis was investigated from stage 53 tadpoles to adult, by using an antibody against tyrosine hydroxylase. At all developmental stages, most of the immunoreactive somata were located in the inner nuclear layer, and a few in the ganglion cell layer. Immunoreactive processes arborised in the scleral and vitreal sublaminae of the inner plexiform layer, indicating that these cells were bistratified amacrine cells. However, occasionally a few immunoreactive processes were observed projecting to the outer plexiform layer, suggesting the presence of THIR interplexiform cells. The number of immunoreactive amacrine cells in the inner nuclear layer per retina increased from 204 at stage 53 tadpole to 735 in adult, while the number of immunoreactive amacrine cells in the ganglion cell layer did not change significantly over the same period. Retinal area increased from 1.95 mm² at stage 53 to 23.40 mm² in the adult, and correspondingly cell density in the inner nuclear layer decreased from 104/mm² to 31/mm². At all stages there was an increasing density towards the ciliary margin, but this gradient decreased with age. The soma size of immunoreactive amacrine cells increased with age, and was consistently larger in the central than in the peripheral retina. Dendritic field size was estimated to increase 13-fold, from stage 53 to adult. This study shows that tyrosine hydroxylase-like immunoreactive amacrine cells are generated continuously throughout life, that after metamorphosis the retina grows more by stretching than by cell generation at the ciliary margin, and that the increase of dendritic field size is proportional to the increase in retinal surface area.On leave from Department of Anatomy, Zhanjiang Medical College, Guangdong, People's Republic of China     

Localization of neurotensin-like immunoreactive amacrine cells in the larval tiger salamander retina

Summary Light microscopic immunocytochemistry was used to localize the populations of NT-like immunoreactive amacrine cells in the larval tiger salamander retina. Seventy-nine percent of NT-immunostained cells observed in transverse cryo-prepared sections were classified as Type 1 amacrine cells. Another 6% were classified as Type 2 amacrine cells, while 15% of the NT-cells had their cell bodies situated in the ganglion cell layer and were tentatively designated as displaced amacrine cells. Each type of NT-like immunoreactive cell was observed in the central and peripheral retina. NT-immunostained processes were observed to ramify in sublayers 3 and 5 of the inner plexiform layer. An examination of retinal whole mounts revealed that NT-amacrine cells were distributed throughout the center and periphery of the retina at a density of 82 ± 24 cells/ mm². The dendritic fields of NT-immunostained amacrine and displaced amacrine cells were observed to be either symmetrically or asymmetrically distributed about their somas. Symmetrical dendritic fields were generally oval-shaped and ranged in diameter from 250 to 500 m (major axis) by 150 to 250 m (minor axis). Asymmetrical dendritic fields were observed to encompass one-half or less of an imaginary circle surrounding their soma of origin and were orientated in all directions. The processes forming asymmetrical dendritic fields ranged from 75 to 260 m in length. Furthermore, partial overlap was often observed between the dendritic fields of adjacent NT-amacrine cells.     

Cellular and serological markers of disease activity in Indian patients with HIV/AIDS

There has been an exponential rise of HIV positive patients as observed at the surveillance center of Nehru Hospital. Most patients are poor and cannot afford repeated viral load assays. Therefore, there is a need to identify cost effective and reliable surrogate markers of disease activity. In the present study absolute number of CD4 cells, 2 micro-globulin, circulating necleosomes were studied in 30 patients of AIDS, 30 seropositives and 30 healthy controls. In addition viral load, P-24 assay, and TNFR-II assays were done in seropositive and AIDS patients.The mean CD4 cells in patients with AIDS were 69.66 ± 68.25 mm³ while in seropositives values was 370 ± 201.29 mm³. The mean CD4 cells in healthy controls were however 690 ± 198 mm³. The differences in all the groups were highly significant (p < 0.001). The mean CD4 values in Indians are significantly lower than reported from the west. The lower number of CD4 cells in healthy population is interpreted to be due to immune activation. The CD8 cell number in controls was 650 ± 207 mm³ this figure is also higher than that observed in the west. P-24 assay failed to delineate between seropositives and patients with AIDS. Although, 2 microglobulin levels were significantly higher in AIDS than in seropositives and higher in seropositives than in controls yet with the best possible cut off, it had a sensitivity of only 70% in delineating the two conditions. The correlation between CD4 cells and viral load was more significant when the CD4 cells were below 200 mm³. Five out of 30 patients with a CD4 of 300–600 mm³ had a viral load of over 1 × 10⁵ cop/ml. The difference in TNF R-II levels between seropositives and AIDS was however more impressive. With a cut off of 550 pg/ml it had a sensitivity of 95% in delineating HIV from AIDS. It is concluded that a combination of absolute number of CD4 cells and TNF R-II assay along with clinical evaluation may be used to monitor therapy in resource poor countries where frequent viral load assay is unaffordable.     

An ultrastructural comparison of neuromuscular relationships in blood vessels with functional and ''non-functional'' neuromuscular transmission

Summary The neuromuscular relationships of the guinea-pig renal artery, which has previously been shown to be noradrenergically innervated but non-functional, i.e. not responsive to nerve stimulationin vitro, is compared with those of two arteries where functional neuromuscular transmission occurs: the carotid artery, where responses to nerve stimulation are slow and of medium amplitude, and the mesenteric artery, where the responses to nerve stimulation are relatively fast and of large amplitude. Substantial differences of ultrastructure were demonstrated. In the renal artery, there were no nerve varicosities closer than 400 nm to the smooth muscle layer, all varicosities had connective tissue interposed between them and the muscle wall, and there were significantly fewer varicosities (6 ± 3.1 mm^–1) compared with the carotid (33 ± 8.3 mm^–1;P < 0.05) or mesenteric (105 ± 15.8 mm^–1;P < 0.001) arteries. In the carotid artery, a small group of varicosities (17%), with little interposed connective tissue, had an average neuromuscular gap of 1.5 m, whilst the remainder were separated by an average of 4.3 m and by cellular and other connective tissue elements from the nearest smooth muscle cell. In the mesenteric artery, about half of the nerve varicosities were closer than 400 nm to the muscle layer and 25% of the varicosities had no connective tissue except basal lamina interposed in the neuromuscular space. Differences were also shown in the ultrastructural appearance of the nerves: analysis of the neuronal vesicles showed that the majority of varicosities were noradrenergic in all three vessels, with non-adrenergic varicosities forming 6% of the total in the carotid artery and 32% of the total in the mesenteric artery. Noradrenaline content was greater in the mesenteric artery (0.37 ± 0.052 ng mm^–2) compared with the carotid (0.17 ± 0.017 ng mm^–2;P < 0.01) and renal (0.11 ± 0.024 ng mm^–2;P < 0.01) arteries. These differences appear to correlate with the differences of neuromuscular activity in the three arteries.     

Effects of glucagon on Na+, Cl−, K+, Mg2+ and Ca2+ transports in cortical and medullary thick ascending limbs of mouse kidney

The effects of glucagon on transepithelial Na⁺, Cl^–, K⁺, Ca²⁺ and Mg²⁺ net fluxes were investigated in isolated perfused cortical (cTAL) and medullary (mTAL) thick ascending limbs of Henle's loop of the mouse nephron. Transepithelial ion net fluxes (J _Na ⁺,J _Cl ^–,J _K ⁺,J _Ca ²⁺,J _Mg ²⁺) were determined by electron probe analysis of the collected tubular fluid. Simultaneously the transepithelial voltage (PD_te) and the transepithelial resistance (R _te) were recorded. In cTAL-segments (n=8), glucagon (1.2×10^–8 mol · l^–1) stimulated significantly the reabsorption of Na⁺, Cl^–, Ca²⁺ and Mg²⁺J _Na ⁺ increased from 204±20 to 228±23 pmol · min^–1 · mm^–1,J _Cl ^– from 203±18 to 234±21 pmol · min^–1 · mm^–1,J _Ca ²⁺ from 0.52±0.13 to 1.34±0.30 pmol · min^–1 · mm^–1 andJ _Mg ²⁺ from 0.51±0.08 to 0.84±0.08 pmol · min^–1 · mm^–1.J _K+ remained unchanged: 3.2±1.3 versus 4.0±1.9 pmol · min^–1 · mm^–1. Neither PD_te (16.3±1.5 versus 15.9±1.4 mV) norR _te (22.5±3.0 versus 20.3±2.6 cm²) were changed significantly by glucagon. However, in the post-experimental periods a significant decrease in PD_te and increase inR _te were noted. In mTAL-segments (n=9), Mg²⁺ and Ca²⁺ transports were close to zero and glucagon elicited no significant effect. The reabsorptions of Na⁺ and Cl^–, however, were strongly stimulated:J _Na ⁺ increased from 153±17 to 226±30 pmol · min^–1 · mm^–1 andJ _Cl ^– from 151±23 to 243±30 pmol · min^–1 · mm^–1. The rise in NaCl transport was accompanied by an increase in PD_te from 10.3±1.1 to 12.3±1.2 mV and a decrease inR _te from 19.1±2.7 to 17.8±2.0 cm². No net K⁺ movement was detectable either in the absence or in the presence of glucagon. A micropuncture study carried out in hormone-deprived rats indicated that glucagon stimulates Na⁺, Cl^–, K⁺, Mg²⁺ and Ca²⁺ reabsorptions in the loop of Henle. In conclusion our data demonstrate that glucagon stimulates NaCl reabsorption in the mTAL segment and to a lesser extent in the cTAL segment whereas it stimulates Ca²⁺ and Mg²⁺ reabsorptions only in the cortical part of the thick ascending limb of the mouse nephron. These data are in good agreement with, and extend, those obtained in vivo on the rat with the hormone-deprived model.This study was supported by the Commission des Communautés Européennes, Grant no. ST 23, 00951F (CD) and by Wissenschaftsausschuß der Nato über den DAAD     

Sequential activation and production of matrix metalloproteinase-2 during breast cancer progression

The proteolytic processes are thought to be the critical point in tumor invasion and metastasis, mainly by matrix metalloproteinases (MMPs) and serine proteases. We measured the activity of MMP-2 from 28 normal, 12 benign and 126 breast cancer tissues using gelatin zymography. Inactive MMP-2 (72 kD) was expressed in 53.6% of the normal and 66.6% of the cancer tissues, respectively (P= 0.77), while active MMP-2 (62 kD) was expressed in 28.6% and 73.0%, respectively (P = 0.003). The enzymatic activity of active MMP-2 (62 kD) measured in the gel band area was 4.0 ± 7.2 mm² in normal breasts, 7.7 ± 9.8 mm² in benign breast diseases, 9.5 ± 8.5 mm² in ductal carcinoma in situ (DCIS), and 12.0 ± 13.7 mm² in invasive cancers. The MMP-2 activation ratio (62 kD/62 kD + 72 kD) was 0.12 ± 0.18 in normal tissues, 0.10 ± 0.20 in benign diseases, 0.61 ± 0.22 in DCIS, and 0.50 ± 0.28 in invasive cancers. In conclusion, MMP-2 activation was the main cause of the increased 62 kD MMP-2 activity during the early phase of breast cancer, while production of MMP-2 supplemented the increased 62 kD activity in the late phase. We suggest, therefore, that these differential expressions of MMP-2 activation and production during the different stages of breast cancer progression are potential therapeutic targets for biological or gene therapy under the concept of stage-oriented cancer treatment.[]     

Effects of recombinant leukocyte interferon on serum immunoglobulin concentrations and lymphocyte subpopulations in chronic hepatitis B

To investigate immune effects of interferon (IFN) therapy in hepatitis B e antigen (HBeAg)-positive chronic hepatitis B, serum immunoglobulin concentrations and peripheral lymphocyte subpopulations were sequentially studied before, during, and after therapy in nine patients who were treated with recombinant human -IFN in doses ranging from 3 to 10 million units per day for 28 days. Serum immunoglobulin A levels decreased significantly, from 414±23 mg/dl (mean ± SE) to 379±28 mg/dl (P<0.05), after the first week of therapy and to a bottom value of 323±20 mg/dl (P<0.001) at the fourth week. Immunoglobulin G levels decreased significantly, from 2603±175 to 2328±169 mg/dl (P<0.005), after the first week of therapy and to a bottom value of 2005±199 mg/dl (P<0.001) at the fourth week. Immunoglobulin M levels were also reduced significantly after 3 weeks of therapy (from 229±23 to 188±15 mg/dl;P<0.01). These reductions in immunoglobulins A, G, and M returned to pretreatment levels by 4 months after the end of the therapy. In lymphocyte subpopulations, significant depressions were found in CD3-, CD4-, CD8-, and B1-positive cells in peripheral blood after the first week of therapy (CD3, from 1700±114 to 1234±114/mm³,P<0.005; CD4, from 1036±88 to 780±64/mm³,P<0.005; CD8, from 620±57 to 426±60/mm³,P<0.05; and B1, from 519±84 to 276±48/mm³,P<0.01) followed during therapy, while Leul la-positive cells did not change significantly. During the 6-month follow-up period, three patients had a sustained clinical remission in which HBeAg disappeared from serum. Disappearance of HBeAg was unassociated with initial levels or percentage changes of serum immunoglobulins and peripheral lymphocytes expressing each of the test markers in these patients. These findings suggest that immune effects of IFN therapy are independent from its antiviral effects.     

Quantitative analysis of GABA-like-immunoreactive and parvalbumin-containing neurons in the CA1 region of the rat hippocampus using a stereological method,the disector

The numerical density of neurons in the CA1 region of the rat dorsal hippocampus has been estimated by a stereological method, the disector, using pairs of video images of toluidine blue-stained, plastic-embedded, 0.5-m-thick sections, 3 m distant from each other. The chemical properties of those disector-counted cells were further analyzed by postembedding immunocytochemical methods on adjacent, semithin sections using antibodies against gamma-aminobutyric acid (GABA) and a specific calcium-binding protein, parvalbumin (PV). The density of neurons in the CA1 region was 35.2 × 10³/mm³; numerical densities in the stratum oriens (SO), stratum pyramidale (SP), and strata radiatum-lacunosum-moleculare (SRLM) were 11.3 × 10³/mm³, 272.4 × 10³/mm³, and 1.9 × 10³/mm³, respectively. The numerical densities of GABA-like immunoreactive (GABA-LIR) and PV-immunoreactive (PV-IR) neurons were 2.1 × 10³/mm³ and 1.1 × 10³/mm³, respectively, which were 5.8% and 3.2% of all neurons, respectively. In the CA1 region only about 60% of PV-positive neurons were GABA-LIR. However, taking the previous observation into consideration that almost all hippocampal PV-positive neurons were immunoreactive for the GABA-synthesizing enzyme glutamic acid decarboxylase (GAD), neurons that were immunoreactive to either GABA or PV or both (GABA+ and/or PV + neurons) were regarded as a better representative of GABAergic neurons in this region; thus, the numerical density of these GABA + and/or PV + neurons was 2.5 × 10³/mm³ and they were 7.0% of all neurons in the CA1 region. Lamellar analysis showed that the numerical densities of GABA+ and/or PV+, GABA-LIR, and PV-IR neurons were highest in the SP, where they were 8.2 × 10³/mm³, 6.2 × 10³/mm³, and 5.4 × 10³/mm³, respectively. The results of the present study indicate that the proportions of GABAergic neurons and a subpopulation of them, PV-containing GABAergic neurons, to other presumable non-GABAergic neurons are far smaller in the CA1 region of the hippocampus than in several neocortical regions previously reported.     

CD44s-targeted treatment with monoclonal antibody blocks intracerebral invasion and growth of 9L gliosarcoma

Glioma invasiveness is a complex process involving recognition and attachment of tumor cells to particular extracellular matrix (ECM) molecules prior to migrating into proteolytically modified matrix and inducing angiogenesis. CD44 is a group of transmembrane adhesion molecules found on a wide variety of cells including gliomas that has been suggested as the principal mediator of migration/invasion. The aim of the present study was to demonstrate whether antibody specific for the standard form of CD44 (CD44s, 85–90 kDa) might prevent invasion, thus blocking growth of the 9L gliosarcoma in vivo. High expression of CD44s on the surface of 9L cells and brain tumors was demonstrated by immunochemistry. Fluorescence-activated cell sorting (FACS) demonstrated binding saturation of anti-CD44s monoclonal antibody (mAb) to the receptor at 1 g/5 × 10⁵ cells. Blocking of CD44s in vitro resulted in a dose-dependent progressive, up to 95% ± 2.5% detachment of 9L cells from ECM-coated culture surfaces. Blocking of CD44s in vivo resulted in significantly reduced 9L brain tumors (2.5% ± 0.4%) – measured as the quotient: tumor surface (mm²)/brain surface (mm²) × 100 – as compared to untreated (16.1% ± 2.2%) or sham-treated rats (16% ± 3.7% to 16.1% ± 3%). We conclude that CD44s-targeted treatment with specific mAb may be an effective means for preventing glioma progression.     

Effect of prostaglandin E2 on agonist-stimulated cAMP accumulation in the distal convoluted tubule isolated from the rabbit kidney

The effects of calcitonin, vasoactive intestinal peptide (VIP), parathyroid hormone (PTH) and isoprenaline on intracellular cAMP accumulation were determined in the distal tubule (DCT) microdissected from collagenase-treated rabbit kidney. In DCTb (the initial bright portion) calcitonin (10 ng/ml) elicited a highly reproducible response 203.7±19.1 fmol cAMP mm^–1 4 min^–1 (SE, N=13) whereas VIP-induced cAMP accumulation was less and more variable from one experiment to another (1 M, 97.2±17.8 fmol mm^–1 4 min^–1, SE, N=12). When used in combination, these two agonists were non-additive, indicating stimulation of a single pool of cAMP in DCTb. In DCTg, (granular) which consists of at least two cell types, PTH (100 nM) elicited a marked, reproducible accumulation of cAMP (154.3±27.0 fmol mm^–1 4 min^–1; SE, N=5). Isoprenaline (1 M) and VIP (1 M) induced much smaller increases in cAMP levels 20.9±2.7 and 29.4±4.1 fmol mm^–1 4 min^–1 (SE, N=5) respectively, and, when used in combination, were non-additive, demonstrating that VIP and isoprenaline are active on the same cell type. In DCTb, prostaglandin E₂ (PGE₂) inhibited both calcitoninand VIP-stimulated cAMP accumulation (calcitonin 57.8±2.7% inhibition, SE, N=16; VIP, 80.6±2.1% inhibition, SE, N=5). The EC₅₀ values for calcitonin were 1.21±0.33 ng/ml and 1.83±0.25 ng/ ml (SD, N=3) in the absence and presence of PGE₂ (300 nM) respectively with an IC₅₀ for PGE₂ of 26.3±6.3 nM (SE, N=4). In contrast, no effects of PGE₂ were seen in DCTg vis à vis PTH, isoprenaline or VIP. The percentage inhibition of calcitonin-stimulated cAMP accumulation by PGE₂ was of the same order in the presence of isobutylmethylxanthine (an inhibitor of all types of phosphodiesterase), Ro 20-1724 (inhibitor of low-K _m cAMP-specific phosphodiesterase) or in the absence of inhibitor. Preincubation of DCTb with pertussis toxin for up to 8 h in different experimental conditions did not relieve the inhibition by PGE₂. Protein kinase C activation by phorbol ester did not attenuate calcitonin responses. These data demonstrate that the inhibition by PGE₂ of cAMP production is restricted to the initial portion (DCTb) of the distal convoluted tubule and is effective on both calcitonin and VIP responses. When tested in the presence of Ro 20-1724, ionomycin, A₁-adenosine, ₂-adrenergic and muscarinic agonists were without effect on calcitoninand PTH-stimulated cAMP accumulation in DCTb and DCTg respectively.     

Capillary supply of skeletal muscle fibers in untrained and endurance-trained women

Summary Muscle fiber diameters and number of capillaries per fiber, per mm² and around each fiber were determined in needle biopsies from the lateral part of the quadriceps muscle of 11 young women. Six subjects were untrained (UT) and five were endurance-trained athletes (ET). Average values for maximal oxygen uptake were 43.9 (UT) and 62.1 ml/kg×min (ET). Mean fiber diameter was somewhat smaller in the UT than in the ET group (39.1 and 42.7 m), but the difference was not statistically significant. Fibers with the highest content of mitochondria were on the average 9 m thicker than those with the lowest content.The capillary per fiber ratios were 1.11±0.07 (mean±S.E.) and 1.69±0.13 in the UT and ET groups, respectively. The number of capillaries around each fiber was 3.04±0.17 (UT) and 4.42±0.31 (ET). After correction for shrinkage the number of capillaries per mm² was 301 (UT) and 404 (ET). The capillary per fiber ratio increased with increasing fiber diameter and with the content of mitochondria.     

Stimulation of NaCl reabsorption by antidiuretic hormone in the cortical thick ascending limb of Henle's loop of the mouse

The effect of antidiuretic hormone (ADH) on transepithelial Na⁺, Cl^–, Ca²⁺ and Mg²⁺ net fluxes (J_Na, J_Cl, J_Mg, J_Ca) was investigated in isolated perfused cortical thick ascending limb segments (cTAL) of the mouse nephron, using the microperfusion technique and the electron microprobe analysis to determine the ionic composition of the collected tubular fluid. Simultaneously, the transepithelial potential difference (PD_te) and the transepithelial resistance (R_te) were recorded. Prior to the flux measurements cTAL segments were perfused for one hour. During this equilibration period PD_te decreased significantly from +19.9±1.6 to +14.9±1.l mV and R_te increased from 30.6±3.5 cm² to 38.8±2.4 cm² (n=7), reflecting a decline in NaCl transport. After ADH was added to the bath solution at 10^–10 mol.l^–1, PD_te increased from +14.4±1.1 to +18.0±1.5 mV, accompanied by a rise in J_Na and J_Cl from 205±11 to 273±19 and from 216±12 to 283±21 pmol.min^–1.mm^–1 (n=7), respectively. J_Ca and J_Mg also increased from 0.81±0.07 to 1.50±0.12 and from 0.43±0.11 to 0.76±0.08 pmol.min^–1.mm^–1 (n=7), respectively. All these effects were fully reversible after withdrawal of the hormone. In conclusion our data indicate that ADH stimulates divalent cation transport and NaCl transport in the cortical thick ascending limb of Henle's loop of the mouse.     

Blood Flow and Leukocyte Adhesiveness Are Reduced in the Microcirculation of a Peritoneal Disseminated Colon Carcinoma

Dynamic behavior of leukocytes in the microcirculation of solid tumor tissue was visualized using a fluorescent labeling technique combined with the use of a real-time confocal laser-scanning microscope (CLSM) system. Colon tumor cells (RCN-9) were inoculated into the peritoneal cavity of male Fischer 344 rats. Tumor-free rats were similarly injected with physiological saline (intraperitoneally). Ten days after tumor inoculation, the mesentery was exteriorized and subjected to vital microscopic observation under the CLSM system. Leukocytes were labeled with rhodamine 6G (100 g kg^–1, intravenously), and their behavior within the microvessels (10–30 m in diameter) was analyzed both in the solid tumor tissues and the normal mesentery. Wall shear rate was calculated from the measured values of vessel diameter and erythrocyte flow velocity. In tumor microvasculature of tumor-bearing rats, the centerline erythrocyte velocity (0.73 ± 0.58 mm s^–1, mean±standard deviation) and wall shear rate (210 ± 151 s^–1 were significantly lower than those of the tumor-free rats (1.27 ± 0.83 mm s^–, 344 ± 236 s^–1, respectively). Despite such reduced flow conditions, flux of the rolling leukocytes as well as density of the adhered leukocytes both decreased significantly in tumor microvasculature as compared with normal controls. The methods developed in this work show promise in improving our understanding of tumor biology and pathophysiology. © 1998 Biomedical Engineering Society. PAC98: 8722Fy, 8745Hw, 8745Ft, 8764-t, 4262Be     

Neurological functional recovery after thymosin beta4 treatment in mice with experimental auto encephalomyelitis

In the present study, we hypothesized that thymosin beta 4 (Tbeta4) is a potential therapy of multiple sclerosis (MS). To test this hypothesis, SJL/J mice (n=21) were subjected to experimental autoimmune encephalomyelitis (EAE), an animal model of MS. EAE mice were treated with saline or Tbeta4 (6 mg/kg, n=10) every 3 days starting on the day of myelin proteolipid protein (PLP) immunization for total five doses. Neurological function, inflammatory infiltration, oligodendrocyte progenitor cells (OPCs) and mature oligodendrocytes were measured in the brain of EAE mice. Double immunohistochemical staining was used to detect proliferation and differentiation of OPCs. Tbeta4 was used to treat N20.1 cells (premature oligodendrocyte cell line) in vitro, and proliferation of N20.1 cells was measured by bromodeoxyuridine (BrdU) immunostaining. Tbeta4 treatment improved functional recovery after EAE. Inflammatory infiltrates were significantly reduced in the Tbeta4 treatment group compared to the saline groups (3.6±0.3/slide vs 5±0.5/slide, P<0.05). NG2⁺ OPCs (447.7±41.9 vs 195.2±31/mm² in subventricular zone (SVZ), 75.1±4.7 vs 41.7±3.2/mm² in white matter), CNPase⁺ mature oligodendrocytes (267.5±10.3 vs 141.4±22.9/mm²), BrdU⁺ with NG2⁺ OPCs (32.9±3.7 vs 17.9±3.6/mm²), BrdU⁺ with CNPase⁺ mature oligodendrocytes (18.2±1.7 vs 10.7±2.2/mm²) were significantly increased in the Tbeta4 treated mice compared to those of saline controls (P<0.05). These data indicate that Tbeta4 treatment improved functional recovery after EAE, possibly, via reducing inflammatory infiltrates, and stimulating oligodendrogenesis.     

Differential effects of ADH on sodium,chloride, potassium,calcium and magnesium transport in cortical and medullary thick ascending limbs of mouse nephron

The effect of antidiuretic hormone (arginine vasopressin, AVP) on transepithelial Na⁺, Cl^–, K⁺, Ca²⁺ and Mg²⁺ net transports was investigated in medullary (mTAL) and cortical (cTAL) segments of the thick ascending limb (TAL) of mouse nephron, perfused in vitro. Transepithelial net fluxes (J _Na ⁺,J _Cl ^–,J _K ⁺,J _Ca ²⁺,J _Mg ²⁺) were determined by electron probe analysis of the collected tubular fluid. Transepithelial potential difference (PD_te) and transepithelial resistance (R_te) were measured simultaneously. cTAL segments were bathed and perfused with isoosmolal, HCO ₃ ^– containing Ringer solutions, mTAL segments were bathed and perfused with isoosmolal HCO ₃ ^– free Ringer solutions. In cTAL segments, AVP (10^–10 mol·l^–1) significantly increasedJ _Mg ²⁺ andJ _Ca ²⁺ from 0.39±0.08 to 0.58±0.10 and from 0.86±0.13 to 1.19±0.15 pmol·min^–1 mm^–1 respectively. NeitherJ _Na ⁺ norJ _Cl ^–, (J _Na ⁺: 213±30 versus 221±28 pmol·min^–1 mm^–1,J _Cl ^–: 206±30 versus 220±23 pmol·min^–1 mm^–1) nor PD_te (13.4±1.3 mV versus 14.1±1.9 mV) or R_te (24.6±6.5 cm² versus 22.6±6.4 cm²) were significantly changed by AVP. No significant effect of AVP on net K⁺ transport was observed. In mTAL segments, Mg²⁺ and Ca²⁺ net transports were close to zero and AVP (10^–10 mol·l^–1) elicited no effect. However NaCl net reabsorption was significantly stimulated by the hormone,J _Na ⁺ increased from 107±33 to 148±30 andJ _Cl ^– from 121±33 to 165±32 pmol·min^–1 mm^–1. The rise inJ _NaCl was accompanied by an increase in PD_te from 9.0±0.7 to 13.5±0.9 mV and a decrease in R_te from 14.4±2.0 to 11.2±1.7 cm². No K⁺ net transport was detected, either under control conditions or in the presence of AVP.To test for a possible effect of HCO ₃ ^– on transepithelial ion fluxes, mTAL segments were bathed and perfused with HCO ₃ ^– containing Ringer solutions. With the exception ofJ _Ca ²⁺ which was significantly different from zero (J _Ca ²⁺: 0.26±0.06 pmol·min^–1 mm^–1), net transepithelial fluxes of Na⁺, Cl^–, K⁺ and Mg²⁺ were unaffected by HCO ₃ ^– . In the presence of AVP,J _Mg ²⁺ andJ _Ca ²⁺ were unaltered whereasJ _NaCl was stimulated to the same extent as observed in the absence of HCO ₃ ^– . In conclusion our results indicate heterogeneity of response to AVP in cortical and medullary segments of the TAL segment, since AVP stimulates Ca²⁺ and Mg²⁺ reabsorption in the cortical part and Na⁺ and Cl^– reabsorption in the medullary part of this nephron segment.This study was supported by the Commission des communautés européennes, grant no. ST2J 00951 F(CD), and by Wissenschafts-ausschuß der Nato über den DAAD     

Tubular transport processes in proximal tubules of hypothyroid rats. Lack of relationship between thyroidal dependent rise of isotonic fluid reabsorption and Na+−K+-ATPase activity

Hypothyroid rats reconstituted with 10 g/kg b.w. per day of tri-iodothironine (T₃) for 4 days resulted in normal free T₃ and TSH levels. FT₃ levels were: 0.53±0.3 pg/ml in hypothyroid rats; 2.78±1.21 pg/ml in hormone reconstituted rats and 2.90±0.90 pg/ml in euthyroid rats. TSH levels were 3,508±513 g/ml in hypothyroid rats; 1,008±204 g/ml in reconstituted rats and 270±184 ng/ml in euthyroid rats.When hypothyroid rats were reconstituted with 50 g T₃/kg b.w. per day, TSH levels were nearly normal after 4 days (1,157±621 ng/ml). However FT₃ levels after 1–4 days were always higher than in euthyroid rats.Hypothyroid rats show a decrease in isotonic fluid reabsorption (J _v) in the proximal tubule (1.50±0.08 versus 4.96±0.23 10^–2 nl·mm^–1·s^–1 in euthyroid animals). 1 day after T₃ (10 g/kg b.w./day) injectionJ _v was increased significantly to 2.05±0.20 10^–2 nl·mm^–1·s^–1 and continued to increase during 4 days of T₃ reconstitution.When 50 g T₃/kg b.w./day was used,J _v increased to 2.75±0.07 after 1 day and to 3.10±0.42 10^–2 nl·mm^–1·s^–1 after 4 days.J _v was never reaching a value close to that of euthyroid rats because the tubular radius in hypothyroid rats (14.7±1.8 m) is less than that of euthyroid rats (19.2±0.5 m). The radius in hypothyroid rats treated with T₃ was unchanged over a 4 day course with either high or low doses of T₃.Na⁺–K⁺-ATPase activity was found to be 2.91±0.16 M P_i/h×mg protein in homogenates of kidney cortex from hypothyroid rats. Treatment of hypothyroid rats with 10 g or 50 g of T₃ resulted in an initial decrease in ATPase activity, followed by an increase to base level in hypothyroid rats with 10 g and a significantly higher level with 50 g. This decrease in ATPase activity was contrasted to the increase inJ _v.These data indicate that there is a dissociation between the effects of physiological doses of thyroid hormones on proximal tubular reabsorption and the effects of T₃ on Na⁺–K⁺-ATPase activity of kidney cortex. This leads to question the relationship between sodium transport and ATPase activity under physiological doses of thyroid hormones. An early effect of physiological doses of thyroid hormones on brush border Na⁺ permeability is suggested.