Theoretical calculations of rotationally inelastic collisions of He with NaK(A (1)Σ(+)): Transfer of population, orientation, and alignment.

We have performed extensive calculations to investigate thermal energy, rotationally inelastic collisions of NaK (A(1)Σ(+)) with He. We determined a potential energy surface using a multi-reference configuration interaction wave function as implemented by the GAMESS electronic structure code, and we have performed coupled channel scattering calculations using the Arthurs and Dalgarno formalism. We also calculate the Grawert coefficients B(λ)(j, j') for each j → j' transition. These coefficients are used to determine the probability that orientation and alignment are preserved in collisions taking place in a cell environment. The calculations include all rotational levels with j or j' between 0 and 50, and total (translational and rotational) energies in the range 0.0002-0.0025 a.u. (∼44-550 cm(-1)). The calculated cross sections for transitions with even values of Δj tend to be larger than those for transitions with odd Δj, in agreement with the recent experiments of Wolfe et al. (J. Chem. Phys. 134, 174301 (2011)). The calculations of the energy dependence of the cross sections and the calculations of the fraction of orientation and alignment preserved in collisions also exhibit distinctly different behaviors for odd and even values of Δj. The calculations also indicate that the average fraction of orientation or alignment preserved in a transition becomes larger as j increases. We interpret this behavior using the semiclassical model of Derouard, which also leads to a simple way of visualizing the distribution of the angles between the initial and final angular momentum vectors j and j'. Finally, we compare the exact quantum results for j → j' transitions with results based on the simpler, energy sudden approximation. That approximation is shown to be quite accurate.

IRF-1 deficiency skews the differentiation of dendritic cells toward plasmacytoid and tolerogenic features.

Members of the IFN regulatory factors (IRFs) family are transcriptional regulators that play essential roles in the homeostasis and function of the immune system. Recent studies indicate a direct involvement of some members of the family in the development of different subsets of dendritic cells (DC). Here, we report that IRF-1 is a potent modulator of the development and functional maturation of DC. IRF-1-deficient mice (IRF-1(-/-)) exhibited a predominance of plasmacytoid DC and a selective reduction of conventional DC, especially the CD8alpha(+) subset. IRF-1(-/-) splenic DC were markedly impaired in their ability to produce proinflammatory cytokines such as IL-12. By contrast, they expressed high levels of IL-10, TGF-beta, and the tolerogenic enzyme indoleamine 2,3 dioxygenase. As a consequence, IRF-1(-/-) DC were unable to undergo full maturation and retained plasmacytoid and tolerogenic characteristics following virus infection ex vivo and in vivo. Accordingly, DC from IRF-1(-/-) mice were less efficient in stimulating the proliferation of allogeneic T cells and instead, induced an IL-10-mediated, suppressive activity in allogeneic CD4(+)CD25(+) regulatory T cells. Together, these results indicate that IRF-1 is a key regulator of DC differentiation and maturation, exerting a variety of effects on the functional activation and tolerogenic potential of these cells.

Impaired myelopoiesis in mice devoid of interferon regulatory factor 1.

Interferon regulatory factor (IRF)-1 is a transcription factor controlling the expression of several genes, which are differentially induced depending on the cell type and signal. IRF-1 modulates multiple functions, including regulation of immune responses and host defence, cell growth, cytokine signalling and hematopoietic development. Here, we investigated the role of IRF-1 in granulocytic differentiation in mice with a null mutation in the IRF-1 gene. We show that IRF-1(-/-) bone marrow cells exhibit an increased number of immature granulocytic precursors, associated with a decreased number of mature granulocytic elements as compared to normal mice, suggestive of a defective maturation process. Clonogenetic analyses revealed a reduced number of CFU-G, CFU-M and CFU-GM colonies in IRF-1(-/-) mice, while the number of BFU-E/CFU-E colonies was unchanged. At the molecular level, the expression of CAAT-enhancer-binding protein (C/EBP)-epsilon, -alpha and PU.1 was substantially lower in the CD11b(+) cells from the bone marrow of IRF-1(-/-) mice as compared to cells from wild-type mice. These results, together with the fact that IRF-1 is markedly induced early during granulo-monocytic differentiation of CD34+ cells, highlight the pivotal role of IRF-1 in the early phases of myelopoiesis.

Age-dependent activin receptor expression pinpoints activin A as a physiological regulator of rat Sertoli cell proliferation.

It is currently believed that the fertility level of the adult mammalian testis is related to the total number of Sertoli cells, which is established in the early prepubertal life. We have previously reported that, in an in-vitro system, terminal Sertoli cell proliferation is sustained by activin A in concert with FSH. In this paper, we have addressed the question of whether this activin A effect correlates with activin receptor II (ActRII) expression pattern during early post-natal testis development. We first determined the precise developmental interval of activin proliferative effect on Sertoli cells in vitro and then analysed the expression of ActRII in purified testicular cell populations by Northern blot and in-situ hybridization. While the 3 kb ActRII isoform was widely expressed at different ages and in several testicular cells, including Sertoli cells, germ cells and myoid cells, the canonical 6 kb ActRII isoform was specifically and transiently expressed at a high rate in Sertoli cells at 7-9 days after birth, the time when these cells respond to activin A in vitro. In the light of these results, we conclude that activin A regulates terminal Sertoli cell proliferation in the rat testis and that this effect is mediated by the 6 kb isoform of ActRII.

A competitive PCR-based method to measure human fibroblast growth factor receptor 1-4 (FGFR1-4) gene expression.

The four members of the fibroblast growth factor receptor (FGFR) family are cell-surface membrane-spanning tyrosine kinase receptors involved in a wide spectrum of biologic processes. Much evidence also indicates that mutations in FGFR genes result in several craniosynostotic disorders and chondrodysplasias, and that changes in qualitative and quantitative FGFR expression profiles are implicated in tumor induction or progression. Here, we describe a precise and reliable competitive PCR-based assay to evaluate human FGFR1-4 gene expression. A single multispecific synthetic competitive template was designed to amplify FGFR1-4 homologous stretches and constructed to contain FGFR1/FGFR2/FGFR3/FGFR4/GAPDH tandemly arranged forward and reverse primers that allow competition for cDNA-specific primer annealing. The housekeeping GAPDH transcript was utilized as a reference for comparing the expression profiles of different RNA pools. The assay herein described allows the comparison of relative FGFR expression levels, both within a single RNA pool and among multiple RNA pool samples. The major advantages of such a PCR-based approach are its ability to obtain unbiased FGFR mRNA expression patterns and to detect transcripts present in low copy number. Qualitative and semiquantitative analyses of the FGFR1-4 transcript repertoire in mesenchymal- and epithelial-derived primary cell cultures and cell lines demonstrated the utility of such a method to investigate the FGFR1-4 functional role in FGF signal transduction.

Identification and cellular localisation of voltage-operated calcium channels in immature rat testis.

Sertoli cells regulate the spermatogenic process mainly through the secretion of a complex fluid into the lumen of the seminiferous tubules behind the blood-testis barrier, containing many of the essential proteins necessary for maintenance and maturation of male germ cells. Thus, the study of Sertoli cell secretory processes is strictly correlated with the understanding of the regulatory mechanisms of spermatogenesis. In this work the authors have explored the voltage-sensitive calcium channel variety in the immature rat testis, their localisation and distribution within the seminiferous epithelium and peritubular and interstitial tissues as well as the possible role in the control of Sertoli cell secretion. The results reported in this paper, obtained by in situ hybridisation, immunohistology of rat testicular sections and Western blot analysis of Sertoli cell plasma membranes, show that mammalian Sertoli cells express mRNA encoding for several voltage-operated calcium channel subunits and express such proteins on their surface. Experiments performed on Sertoli cell monolayers cultured in the presence of specific toxins indicate that both N and P/Q-type Ca(2+) channels are involved in the regulation of protein secretion.

Increased production of cytokines and growth factors by aortic allografts: A possible explanation for myointimal hyperplasia formation.

Accelerated myointimal hyperplasia is a major complication of arterial allografts. The aim of our study was to analyze the role of growth factors in the genesis of myointimal hyperplasia in arterial allografts. Two groups of experiments were performed: Isografts and Allografts. The Isograft group consisted of 18 inbred Lewis rats in which a 1-cm long segment of aorta was inserted as abdominal aortic interposition graft. The aortic segments were obtained from syngeneic Lewis rats. The Allograft group consisted of 18 inbred Lewis rats, in which a 1-cm long segment of aorta was interposed at the level of the abdominal aorta. The aortic segments were obtained from allogeneic Brown-Norway rats. No immunosuppression was used. The animals were sacrificed 4 weeks after surgery and the aortic grafts were analyzed by light, electron microscopy (n = 3 for each group) and immunohistochemistry (n = 3 for each group). In addition, aortic segments (n = 12 for each group) were put in an organ culture to assess production of growth factors. All allografts showed evidence of severe myointimal hyperplasia, which was minimal in isografts. PDGF, bFGF and TGF-beta(1) production, generally considered to be the cause of myointimal hyperplasia, was not increased in allografts, whereas IL-1, TNF-alpha and GM-CSF production was increased in allografts and probably lymphocytes were the source of these cytokines (p < 0.001). We conclude that myointimal hyperplasia in aortic allografts is associated with an increase of IL-1, TNF-alpha and GM-CSF produced by lymphocytes.

Decreased proliferation and altered differentiation in osteoblasts from genetically and clinically distinct craniosynostotic disorders.

Craniosynostoses are a heterogeneous group of disorders characterized by premature fusion of cranial sutures. Mutations in fibroblast growth factor receptors (FGFRs) have been associated with a number of such conditions. Nevertheless, the cellular mechanism(s) involved remain unknown. We analyzed cell proliferation and differentiation in osteoblasts obtained from patients with three genetically and clinically distinct craniosynostoses: Pfeiffer syndrome carrying the FGFR2 C342R substitution, Apert syndrome with FGFR2 P253R change, and a nonsyndromic craniosynostosis without FGFR canonic mutations, as compared with control osteoblasts. Osteoblasts from craniosynostotic patients exhibited a lower proliferation rate than control osteoblasts. P253R and nonsyndromic craniosynostosis osteoblasts showed a marked differentiated phenotype, characterized by high alkaline phosphatase activity, increased mineralization and expression of noncollagenous matrix proteins, associated with high expression and activation of protein kinase Calpha and protein kinase Cepsilon isoenzymes. By contrast, the low proliferation rate of C342R osteoblasts was not associated with a differentiated phenotype. Although they showed higher alkaline phosphatase activity than control, C342R osteoblasts failed to mineralize and expressed low levels of osteopontin and osteonectin and high protein kinase Czeta levels. Stimulation of proliferation and inhibition of differentiation were observed in all cultures on FGF2 treatment. Our results suggest that an anticipated proliferative/differentiative switch, associated with alterations of the FGFR transduction pathways, could be the causative common feature in craniosynostosis and that mutations in distinct FGFR2 domains are associated with an in vitro heterogeneous differentiative phenotype.

Activin stimulates Sertoli cell proliferation in a defined period of rat testis development.

The action of activin-A on Sertoli and spermatogonial cell proliferation during early postnatal life was studied by using in vitro organ culture of testis fragments from 9-day-old rats. Activin significantly stimulated 3H-thymidine incorporation into testis fragments cultured for 3 days in the presence of FSH, whereas it had no effect in the absence of the hormone. This effect was dose dependent in the range 10-200 ng/ml and was specifically inhibited by the activin-binding protein, follistatin. The effect of activin upon proliferation of different testicular cells was studied in detail by 5-bromo-2'-deoxyuridine-labeling fragments at the end of in vitro culture and then determining percentages of different labeled cells on immunostained histological sections. Concomitant treatment with FSH and activin, but not with FSH or activin alone, significantly stimulated Sertoli cell proliferation but markedly depressed that of differentiating type A spermatogonia. In contrast, proliferative activity of undifferentiated type A spermatogonia was independent of activin, irrespective of the presence of FSH. The effect of donor animal age was then investigated by culturing fragments derived from 3- and 18-day-old rats for 3 days. An age-related response was evident. Sertoli cell proliferation was stimulated by FSH alone in fragments from 3-day-old rats, activin having no apparent effect at this age. In contrast, none of the hormones tested either alone or in combination was effective in 18-day-old animals. These results demonstrate that activin acts with FSH in maintaining mitotic potentiality of Sertoli cells in a defined phase of their maturation path, when their proliferative activity is approaching the final arrest. These findings suggest that activin may be an important local factor in regulating Sertoli cell number and that the mitosis of differentiating spermatogonia subsides during Sertoli cell proliferation.

Shear stress induces changes in the morphology and cytoskeleton organisation of arterial endothelial cells.

OBJECTIVES: The aim of this study was to determine the changes in the morphology and cytoskeleton organisation of endothelial cells (EC) determined by exposure to a laminar flow. Cultured EC were exposed to a wall shear stress of 6 dyne/cm2 for 24 hours. CHIEF OUTCOME MEASURES: The morphology of EC was analysed by light and scanning electron microscopy. The organisation of the cytoskeleton was determined by double fluorescence labeling with antibody anti-vimentin, anti-vinculin, anti-tubulin, and with rhodamine-labeled phalloidin. RESULTS: EC exposed to laminar flow become round-shaped with decreased area of adhesion to the substrate. There was a clear reorganisation of the cytoskeleton after exposure to shear stress; the distribution of actin changed from a stress fibre pattern to a more diffuse membrane-associated distribution. These changes in shape and cytoskeleton organisation were reversible after a 48-hour resting period. CONCLUSIONS: EC respond to laminar flow in a predictable manner and these findings may be correlated to the functional changes of EC observed after exposure to shear stress.

Shear stress influences the release of platelet derived growth factor and basic fibroblast growth factor by arterial smooth muscle cells. Winner of the ESVS prize for best experimental paper 1993.

OBJECTIVES: To determine the correlation between haemodynamic forces and the release of two mitogens for smooth muscle cells (SMC): Platelet Derived Growth Factor (PDGF) and basic Fibroblast Growth Factor (bFGF). METHODOLOGY: Bovine aortic smooth muscle cells were seeded on fibronectin coated polystyrene cylinders and allowed to reach confluence. The cells were subjected to a laminar flow of 50 cc/min (3 dyne/cm2), 100 cc/min (6 dyne/cm2) and 150 cc/min (9 dyne/cm2) in an in vitro system. Control cells were subjected to similar incubation conditions without flow. PRINCIPAL RESULTS: Shear stress increased the release of mitogens by SMC. The release of mitogens was proportional to the level of shear stress and was still evident 24 hours after flow cessation. Conditioned serum-free medium from SMC subjected to shear stress increased tritiated thymidine uptake in Swiss 3T3 fibroblasts 13-fold as compared to conditioned serum-free medium from control SMC not subjected to shear stress (p < 0.01) and threefold as compared to standard control (p < 0.001). Addition of an excess of anti-PDGF antibody reduced the mitogenic activity of the conditioned medium by 30% (p < 0.01). Addition of an excess of anti-bFGF antibody reduced the mitogenic activity of the conditioned medium by 60% (p < 0.01). CONCLUSIONS: Increasing shear stress promotes the release of both PDGF and bFGF from arterial SMC in culture and is a possible explanation for atherosclerosis formation.