Fetal and early post-natal development of the human spleen: from primordial arterial B cell lobules to a non-segmented organ

Immunohistological analysis of 31 human spleens from the 11th week of gestation to the early postnatal period suggested that fetal organ development may be preliminarily divided into four stages. At stage 0 the organ anlage contained erythrocyte precursors, few macrophages and almost no lymphocytes. Fetal spleens of stage I exhibited arterial vascular lobules and lymphocytes just began colonizing the organ. At stage II, B and T lymphocytes formed periarteriolar clusters. B cell clusters predominated, because B cells aggregated around the more peripheral branches of splenic arterioles, while T cells occupied the more centrally located parts of the vessels. The vascular lobules of stage I and II consisted of central arterioles surrounded by B cells, capillaries and peripheral venules. The lobular architecture slowly dissolved at late stage II when sinuses grew out from the peripheral venules into the centre of the lobule. Interestingly, the B cell accumulations around peripheral arterioles did not represent the precursors of follicles, but apparently persisted as periarteriolar B cell clusters in the adult splenic red pulp, while follicles containing FDCs developed at late stage II from B cells in direct contact to T cell clusters around larger arterial vessels. At stage III before birth the lobular architecture was no longer recognized. The chemokine CXCL13 was already present in vascular smooth muscle and adjacent stromal cells at stage I before B cells immigrated. CCL21, on the contrary, was only demonstrated in fibroblast-like cells supporting T cell clusters from stage II onwards.     

Hygrophorones A-G: fungicidal cyclopentenones from Hygrophorus species (Basidiomycetes)

Twenty new 5-(hydroxyalkyl)-2-cyclopentenone derivatives (hygrophorones) could be isolated from Hygrophorus latitabundus, H. olivaceoalbus, H. persoonii, and H. pustulatus. Their fungicidal activity was exemplarily tested. The hygrophorones have structural similarities to the antibiotic pentenomycin. Chemically, hygrophorones are 2-cyclopentenones with hydroxy or acetoxy substituents at C-4 and/or C-5. An odd-numbered 1' oxidized alkyl chain (C(11), C(13), C(15), or C(17)) is attached at C-5. In addition, from H. persoonii the new gamma-butyrolactone derivative [5-(E)-2-hydroxytetradexylidene-5H-furan-2-one] could be isolated. Some hygrophorones are responsible for the color reaction of the stipes of these fungi upon treatment with potassium hydroxide solution. Structural elucidations are based on 1D ((1)H, (13)C) and 2D (COSY, NOESY, HSQC, HMBC) NMR spectroscopic analyses as well as HR-FT-ICR-MS investigations.     

Chloroherpeton thalassium gen. nov. et spec. nov., a non-filamentous,flexing and gliding green sulfur bacterium

A flexing and gliding green sulfur bacterium has been isolated from marine sources off the North East coast of the USA. Chloroherpeton thalassium is an obligate phototroph, and requires CO₂ and S^2- for growth; some organic acids can contribute to cell carbon, and N₂ may be fixed. The cells contain typical chlorosomes, and gas vesicles may be present. Bacteriochlorophyll c is the main light harvesting pigment, and a small quantity of bacteriochlorophyll a is also present. Over 80% of the carotenoid is -carotene. DNA base composition of the isolates ranges from 45.0–48.2 mol% G+C.In memory of R. Y. Stanier     

Resistance and susceptibility in human onchocerciasis--beyond Th1 vs. Th2

As research progress has led to programs for the elimination of onchocerciasis as a public health problem, research must now be intensified to protect elimination efforts. A profound understanding of the immunology in the human-parasite relationship is required for predicting the impacts of an altered immune response in a population post-microfilaricide treatment, and for the development of a vaccine against onchocerciasis, a highly desirable tool to guarantee sustained elimination success. This article summarizes the recent advancements in understanding the human immune mechanisms against onchocerciasis, and focuses on the new concept of T-cell suppressor responses as a major counterbalance mechanism for effector responses driven by T helper 1 and T helper 2 cells against the filarial worms.     

Controlled reduction of the humidity induces a shortcut recovery reaction in the photocycle of photoactive yellow protein

The photocycle of the blue-light photoreceptor protein Photoactive Yellow Protein (PYP) was studied at reduced relative humidity (RH). Photocycle kinetics and spectra were measured in thin films of PYP in which the relative humidity was set at values between 29 and 98% RH with saturated solutions of various salts. We show that in this range, approximately 200 water molecules per PYP molecule are released from the film. As humidity decreased, photocycle transition rates changed, until at low humidity (RH < 50%) an authentic photocycle was no longer observed and the absorption spectrum of the dark, equilibrium state of PYP started to shift to 355 nm, that is, to a form resembling that of pB(dark). At moderately reduced humidity (i.e., >50% RH), an authentic photocycle is still observed, although its characteristics differ from those in solution. As humidity decreases, the rate of ground state recovery increases, while the rate of depletion of the first red-shifted intermediate pR dramatically decreases. The latter observation contrasts all so-far known modulations of the rate of the transition of the red-shifted- to the blue-shifted intermediates of PYP, which is consistently accelerated by all other modulations of the mesoscopic context of the protein. Under these same conditions, the long-lived, blue-shifted intermediate was formed not only with slower kinetics than in solution but also to a smaller extent. Global analysis of these data indicates that in this low humidity environment the photocycle can take a different route than in solution, that is, part of pG recovers directly from pR. These experiments on wild-type PYP, in combination with observations on a variant of PYP obtained by site-directed mutagenesis (the E46Q mutant protein), further document the context dependence of the photocycle transitions of PYP and are relevant for the interpretation of results obtained in both spectroscopic and diffraction studies with crystalline PYP.     

Some physiological functions of the L-leucine dehydrogenase in Bacillus subtilis

Mutants of Bacillus subtilis constitutive for L-leucine dehydrogenase synthesis were selected. Using these mutants we could determine two functional roles for the L-leucine dehydrogenase. This enzyme liberates ammonium ions from branched chain amino acids when supplied as the sole nitrogen source. Another function is to synthesize from L-isoleucine, L-leucine, and L-valine the branched chain -keto acids which are precursors of branched chain fatty acid biosynthesis. These results together with the inducibility of the enzyme suggest that the L-leucine dehydrogenase has primarily a catabolic rather than an anabolic function in the metabolism of Bacillus subtilis.     

The IKK-2/Ikappa Balpha /NF-kappa B pathway plays a key role in the regulation of CCR3 and eotaxin-1 in fibroblasts. A critical link to dermatitis in Ikappa Balpha -deficient mice.

Tumor necrosis factor (TNF)-alpha-induced phosphorylation of the IkappaB proteins by the IkappaB kinase (IKK) complex containing IKK-2 and subsequent degradation of the IkappaB proteins are prerequisites for NF-kappaB activation, resulting in the stimulation of a variety of pro-inflammatory target genes. The C-C chemokine eotaxin-1 is a potent chemoattractant for eosinophils and Th2 lymphocytes, may play an important role in the pathogenesis of atopic dermatitis, and acts via binding to its receptor CCR3. To investigate the role of NF-kappaB signaling in the regulation of these genes, we stably expressed a transdominant mutant of IkappaBalpha and a constitutively active mutant of IKK-2 in mouse NIH3T3 fibroblasts. The transdominant IkappaBalpha mutant completely inhibited TNF-alpha-mediated induction of both eotaxin-1 and CCR3, whereas expression of constitutively active IKK-2 was sufficient to drive almost full expression of these two genes in the absence of TNF-alpha. Moreover, we observed elevated expression levels of CCR3 and eotaxin-1 protein levels in the skin of IkappaBalpha-deficient mice characterized by a widespread dermatitis. Finally, using dermal fibroblasts derived from IkappaBalpha-deficient mice, we observed elevated basal expression, enhanced inducibility by TNF-alpha, and attenuated down-regulation upon TNF-alpha withdrawal of both CCR3 and eotaxin-1 mRNA levels. These results demonstrate that the IKK-2/IkappaBalpha/NF-kappaB pathway plays a critical role for CCR3 and eotaxin-1 expression in fibroblasts and suggests a critical link to the pathogenesis of atopic dermatitis.     

Compartment analysis of T cell receptor gamma--and immunoglobulin V(H) rearrangements by microdissection in patients with malt lymphoma and chronic gastritis with lymphatic hyperplasia.

The interpretation of clonality within H. pylori-associated gastritis and low-grade MALT lymphoma remains controversial. Due to the observation of MALT lymphoma regression after H. pylori eradication, new definitions concerning the border between benign reactive lesions and malignant gastric lymphoma are needed. Gene rearrangements for immunoglobulin heavy-chain in low-grade MALT lymphoma (N= 12) and H. pylori-associated chronic gastritis with lymphatic hyperplasia (N= 13) were analyzed by microdissection and polymerase chain reaction. Furthermore, T cell receptor-gamma chain rearrangements were analyzed by gene scan analysis. In 11 of 12 cases with initial low-grade MALT lymphoma, intraepithelial and subepithelial B cell rearrangements showed a restricted usage of the immunoglobulin heavy-chain 3. In H. pylori-associated chronic gastritis, the intraepithelial B cell compartment showed an oligoclonal the immunoglobulin heavy-chain rearrangement pattern with a predominance of VH3. The subepithelial compartment did not show any restrictive immunoglobulin heavy-chain gene usage. Additionally a mono- to oligoclonal rearrangement pattern of the T cell receptor-y chain was observed in low-grade MALT lymphoma, whereas an oligoclonal pattem was observed in chronic gastritis. Our data provide evidence that low-grade MALT lymphoma may start within the epithelium and subsequently infiltrate the subepithelial compartment. The observation of a mono- to oligoclonal TCR-gamma rearrangement suggests that an antigen selecting process also takes place within reactive T cells. Combining TCR-gamma gene scan analysis with IgH chain rearrangement analysis might help in discriminating between chronic gastritis and initial MALT lymphoma in questionable cases.     

Sodium and ATP affinities of the cardiac (Na,K)-ATPase in relation to nitric oxide synthesis in spontaneously hypertensive rats

The (Na,K)-ATPase is hypothesized to be involved in systemic vascular hypertension through its effects on smooth muscle reactivity and cardiac contractility. Investigating the kinetic properties of the above enzyme we tried to assess the molecular basis of alterations in transmembraneous efflux of Na(+) from cardiac cells in spontaneously hypertensive rats (SHR) with increased synthesis of nitric oxide (NO). In the investigated group of SHR the systolic blood pressure was increased by 64% and the synthesis of NO was increased by 60% in the heart. When activating the cardiac (Na,K)-ATPase with substrate, its activity was higher in SHR in the whole concentration range of ATP. Evaluation of kinetic parameters revealed an increase of the V(max) (by 37%) probably due to increased affinity of the ATP-binding site as indicated by the lowered K(m) value (by 38%) in SHR. During activation with Na(+), we observed no change in the enzyme activity below 10 mmol/l of NaCl whereas in the presence of higher concentrations of NaCl the (Na,K)-ATPase was stimulated. The value of V(max) increased (by 64%), however the K(Na) increased (by 106%), indicating an adaptation of the Na(+)-binding site of the enzyme to increased [Na(+)](i). Thus the (Na,K)-ATPase in our SHR group is able to extrude the excessive Na(+) from myocardial cells more effectively also at higher [Na(+)](i), while the enzyme from controls is unable to increase its activity further. This improvement of the (Na,K)-ATPase function is supported also by increased affinity of its ATP-binding site probably due to enhanced NO-synthesis.