Commitment and proliferation kinetics of human lymphocytes stimulated in vitro: Effects of colchicine on mitogen response

We have examined the effects of colchicine on concanavalin A (Con A)- and phytohemagglutinin (PHA)-stimulated human peripheral blood lymphocytes and from the time course of proliferation have extracted the relative size of the responding cell population, the rate of entry of this population into S-phase, and the length of the lag period. Additions of colchicine at any time did not appear to influence the size of the responding population nor did it greatly affect the duration of the lag period. Only the rate at which the cell population enters initial S-phase is a function of the time of previous exposure to colchicine. Colchicine does not appear to inhibit the commitment of stimulated lymphocytes to enter the cell cycle. Rather, it merely serves to decrease the biochemical processes responsible for fixing a maximal rate of entry into S-phase.     

DNA polymerase γ, cytochrome c oxidase and mitochondrial integrity in rabbit spleen lymphocytes stimulated with concanavalin A

The activities of two mitochondrial enzymes: DNA polymerase γ and cytochrome c oxidase, have been compared with the kinetics of nuclear DNA synthesis and levels of the nuclear DNA polymerases α and β in rabbit spleen lymphocytes untreated or stimulated with concanavalin A (ConA). At early initiation of the culture, before the maximum increase of both the replicative α-polymerase and nuclear DNA synthesis, a simultaneous enhancement in the activities of the two mitochondrial enzymes was observed, just preceding and paralleling the expansion of the ATP pool. It is suggested that this is a reflection of increased mitochondrial activity providing the energy which results in an elevation of the concentration of dNTPs to values which are optimal for the replicative α-polymerase. During the later stages of incubation of lymphocytes, the activities of both DNA polymerase γ and cytochrome c oxidase decrease, paralleling a progressive loss of integrity of the mitochondrial structures within an increasing proportion of the lymphocyte population.     

Studies on rabbit lymphocytes in vitro : XVII. Kinetics of reversible concanavalin a stimulation and restimulation of blast transformation after blocking with α-methyl- -mannopyranoside

The stimulation of transformation of rabbit peripheral blood lymphocytes by Concanavalin A (ConA) has a narrow dose optimum, is reversible by α- -methyl-mannopyranoside (MAM) and cultures that have been stimulated and reversed may be restimulated by removal of the blocking saccharide and re-addition of ConA. The kinetics of the stimulatory dose of ConA, the blocking dose of MAM, and the time of stimulation and blocking indicate a competitive binding of lymphocyte receptors and blocking saccharide for ConA. Most of the lymphocytes that respond to ConA become enlarged during the first 16–24 h after stimulation, although fully developed ‘blast’ cell transformation and mitosis do not occur until after approx. 40 h. Lymphocytes that are held in vitro prior to ConA stimulation gradually lose the ability to respond to ConA stimulation (delayed stimulation). Morphologic and metabolic analysis of ConA-stimulated and MAM blocked cultures demonstrate (1) that RNA synthesis gradually decreases in blocked cultures at a time that it is increasing in stimulated cultures; (2) that cells enlarged after ConA stimulation become smaller following MAM inhibition; (3) that the ability of blocked cells to be restimulated by ConA gradually decreases following MAM block (delayed restimulation). Lymphocyte activation requires the continued presence of the stimulant for consumation of the transformation process, and activated cells that have been blocked have a temporary ability to respond to restimulation at a time when cells that have not been preactivated are unable to respond. The requirement of increasing amounts of blocking MAM to reverse stimulation by ConA as the time of contact of ConA with the cells in culture increases is consistent with the concept that internalization, or stripping of mitogen or cellular receptors is the important cellular event initiating transformation. Blocking is achieved by permitting re-externalization of lectin or cell surface receptors. Stimulation requires the continued internalization or stripping of newly formed receptors by reaction with the stimulating mitogen during the entire culture period prior to initiation of DNA synthesis.     

Involvement of integrins α3β1 and α5β1 and glycoprotein IIb in megakaryocyte‐induced osteoblast proliferation

As the prevalence of osteoporosis is expected to increase over the next few decades, the development of novel therapeutic strategies to combat this disorder becomes clinically imperative. These efforts draw extensively from an expanding body of knowledge pertaining to the physiologic mechanisms of skeletal homeostasis. To this body of knowledge, we contribute that cells of hematopoietic lineage may play a crucial role in balancing osteoblastic bone formation against osteoclastic resorption. Specifically, our laboratory has previously demonstrated that megakaryocytes (MKs) can induce osteoblast (OB) proliferation in vitro, but do so only when direct cell‐to‐cell contact is permitted. To further investigate the nature of this interaction, we have effectively neutralized several adhesion molecules known to function in the analogous interaction of MKs with another cell type of mesenchymal origin—the fibroblast (FB). Our findings implicate the involvement of fibronectin/RGD‐binding integrins including α3β1 (VLA‐3) and α5β1 (VLA‐5) as well as glycoprotein (gp) IIb (CD41), all of which are known to be expressed on MK membranes. Furthermore, we demonstrate that interleukin (IL)‐3 can enhance MK‐induced OB activation in vitro, as demonstrated in the MK–FB model system. Taken together, these results suggest that although their physiologic and clinical implications are very different, these two models of hematopoietic–mesenchymal cell activation are mechanistically analogous in several ways. J. Cell. Biochem. 109: 927–932, 2010. © 2010 Wiley‐Liss, Inc.     

Platelet-derived growth factor and inflammatory cytokines have differential effects on the expression of integrins α1β1 and α5β1 by human dermal fibroblasts in vitro

Dermal fibroblasts are essential for the repair of cutaneous wounds. Fibroblasts presumably use cell surface receptors of the integrin family during migration into a wound from the adjacent uninjured tissue and for the subsequent matrix repairs. We have investigated the possible roles of platelet-derived growth factor and inflammatory cytokines in the regulation of integrin expression on wound fibroblasts using a porcine cutaneous wound model and cultured human cells. Tissue specimens collected from 4-day pig wounds were stained with antibodies specific for the α1 and α5 integrin subunits. Staining for α1 was markedly decreased on fibroblasts adjacent to the wound and in the granulation tissue, while staining for α5 was clearly enhanced in both locations. Normal adult human dermal fibroblasts in culture express the integrins α1β1, a collagen receptor, and α5β1, a fibronectin receptor. Quantitative flow cytometry was used to measure cell surface integrin expression after treatment with platelet-derived growth factor (PDGF)-AA, PDGF-AB, or PDGF-BB. Each isoform of PDGF produced a significant decrease in the level of α1 present on the cell surface and an increase in the level of α5. Furthermore, PDGF-BB produced a corresponding decrease in α1 mRNA and an increase in α5 mRNA. In contrast, treatment with three inflammatory cytokines, IL-1β, TNF-α, and IFN-γ, produced clear increases in the levels of α1 and α5 present on the cell surface. Our observations suggest that the differential effects of PDGF and inflammatory cytokines may be part of the mechanism regulating the expression of α1 and α5 integrins by dermal fibroblasts during wound repair. © 1996 Wiley-Liss, Inc.     

Cytokine expression by human marrow-derived mesenchymal progenitor cells in vitro: Effects of dexamethasone and IL-1α

We previously reported the purification, culture-expansion, and osteogenic differentiation potential of mesenchymal progenitor cells (MPCs) derived from human bone marrow. As a first step to establishing the phenotypic characteristics of MPCs, we reported on the identification of unique cell surface proteins which were detected with monoclonal antibodies. In this study, the phenotypic characterization of human marrow-derived MPCs is further established through the identification of a cytokine expression profile under standardized growth medium conditions and in the presence of regulators of the osteogenic and stromal cell lineages, dexamethasone and interleukin-1α (IL-1α), respectively. Constitutively expressed cytokines in this growth phase include G-CSF, SCF, LIF, M-CSF, IL-6, and IL-11, while GM-CSF, IL-3, TGF-β2, and OSM were not detected in the growth medium. Exposure of cells in growth medium to dexamethasone resulted in a decrease in the expression of LIF, IL-6, and IL-11. These cytokines have been reported to exert influence on the differentiation of cells derived from the bone marrow stroma through target cell receptors that utilize gp130-associated signal transduction pathways. Dexamethasone had no effect on the other cytokines expressed under growth medium conditions and was not observed to increase the expression of any of the cytokines measured in this study. In contrast, IL-1α increased the expression of G-CSF, M-CSF, LIF, IL-6, and IL-11 and induced the expression of GM-CSF. IL-1α had no effect on SCF expression and was not observed to decrease the production of any of the cytokines assayed. These data indicate that MPCs exhibit a distinct cytokine expression profile. We interpret this cytokine profile to suggest that MPCs serve specific supportive functions in the microenvironment of bone marrow. MPCs provide inductive and regulatory information which are consistent with the ability to support hematopoiesis, and also supply autocrine, paracrine, and juxtacrine factors that influence the cells of the marrow microenvironment itself. In addition, the cytokine profiles expressed by MPCs, in response to dexamethasone and IL-1α, identify specific cytokines whose levels of expression change as MPCs differentiate or modulate their phenotype during osteogenic or stromagenic lineage entrance/progression. © 1996 Wiley-Liss, Inc.     

Folate receptor α regulates cell proliferation in mouse gonadotroph αT3-1 cells

We have previously found that the mRNA and protein levels of the folate receptor alpha (FRα) are uniquely over-expressed in clinically human nonfunctional (NF) pituitary adenomas, but the mechanistic role of FRα has not fully been determined. We investigated the effect of FRα over-expression in the mouse gonadotroph αT3-1 cell line as a model for NF pituitary adenomas. We found that the expression and function of FRα were strongly up-regulated, by Western blotting and folic acid binding assay. Furthermore, we found a higher cell growth rate, an enhanced percentage of cells in S-phase by BrdU assay, and a higher PCNA staining. These observations indicate that over-expression of FRα promotes cell proliferation. These effects were abrogated in the same αT3-1 cells when transfected with a mutant FRα cDNA that confers a dominant-negative phenotype by inhibiting folic acid binding. Finally, by real-time quantitative PCR, we found that mRNA expression of NOTCH3 was up-regulated in FRα over-expressing cells. In summary, our data suggests that FRα regulates pituitary tumor cell proliferation and mechanistically may involve the NOTCH pathway. Potentially, this finding could be exploited to develop new, innovative molecular targeted treatment for human NF pituitary adenomas.     

Cyclic strain induces reorganization of integrin α5β1 and α2β1 in human umbilical vein endothelial cells

Cyclic strain has been shown to modulate endothelial cell (EC) morphology, proliferation, and function. We have recently reported that the focal adhesion proteins focal adhesion kinase (pp125^FAK) and paxillin, are tyrosine phosphorylated in EC exposed to strain and these events regulate the morphological change and migration induced by cyclic strain. Integrins are also localized on focal adhesion sites and have been reported to induce tyrosine phosphorylation of pp125^FAK under a variety of stimuli. To study the involvement of different integrins in signaling induced by cyclic strain, we first observed the redistribution of α and β integrins in EC subjected to 4 h cyclic strain. Human umbilical vein endothelial cells (HUVEC) seeded on either fibronectin or collagen surfaces were subjected to 10% average strain at a frequency 60 cycles/min. Confocal microscopy revealed that β₁ integrin reorganized in a linear pattern parallel with the long axis of the elongated cells creating a fusion of focal adhesion plaques in EC plated on either fibronectin (a ligand for α₅β₁) or collagen (a ligand for α₂β₁) coated plates after 4 h exposure to cyclic strain. β₃ integrin, which is a vitronectin receptor, did not redistribute in EC exposed to cyclic strain. Cyclic strain also led to a reorganization of α₅ and α₂ integrins in a linear pattern in HUVEC seeded on fibronectin or collagen, respectively. The expression of integrins α₅, α₂, and β₁ did not change even after 24 h exposure to strain when assessed by immunoprecipitation of these integrins. Cyclic strain-induced tyrosine phosphorylation of pp125^FAK occurred concomitant with the reorganization of β₁ integrin. We concluded that α₅β₁ and α₂β₁ integrins play an important role in transducing mechanical stimuli into intracellular signals. J. Cell. Biochem. 64:505–513. © 1997 Wiley-Liss, Inc.     

Regulation of β-amyloid stimulated proinflammatory responses by peroxisome proliferator-activated receptor α

Amyloid deposition within the brains of Alzheimer's Disease patients results in the activation of microglial cells and the induction of a local inflammatory response. The interaction of microglia or monocytes with β-amyloid (Aβ) fibrils elicits the activation a complex tyrosine kinase-based signal transduction cascade leading to stimulation of multiple independent signaling pathways and ultimately to changes in proinflammatory gene expression. The Aβ-stimulated expression of proinflammatory genes in myeloid lineage cells is antagonized by the action of a family of ligand-activated nuclear hormone receptors, the peroxisome proliferator-activated receptors (PPARs). We report that THP-1 monocytes express predominantly PPARγ isoform and lower levels of PPARα and PPARδ isoforms. PPAR mRNA levels are not affected by differentiation of the cells into a macrophage phenotype, nor are they altered following exposure to the classical immune stimulus, lipopolysaccharide. Previous studies have found that PPARγ agonists act broadly to inhibit inflammatory responses. The present study explored the action of the PPARα isoform and found that PPARα agonists inhibited the Aβ-stimulated expression of TNFα and IL-6 reporter genes in a dose-dependent manner. Moreover, the PPARα agonist WY14643 inhibited macrophage differentiation and COX-2 gene expression. However, the PPARα agonists failed to inhibit Aβ-stimulated elaboration of neurotoxic factors by THP-1 cells. These findings demonstrate that PPARα acts to suppress a diverse array of inflammatory responses in monocytes.     

Functional α1‐ and β2‐adrenergic receptors in human osteoblasts

Central (hypothalamic) control of bone mass is proposed to be mediated through β2‐adrenergic receptors (β2‐ARs). While investigations in mouse bone cells suggest that epinephrine enhances both RANKL and OPG mRNA via both β‐ARs and α‐ARs, whether α‐ARs are expressed in human bone cells is controversial. The current study investigated the expression of α1‐AR and β2‐AR mRNA and protein and the functional role of adrenergic stimulation in human osteoblasts (HOBs). Expression of α1B‐ and β2‐ARs was examined by RT‐PCR, immunofluorescence microscopy and Western blot (for α1B‐ARs). Proliferation in HOBs was assessed by ³H‐thymidine incorporation and expression of RANKL and OPG was determined by quantitative RT‐PCR. RNA message for α1B‐ and β2‐ARs was expressed in HOBs and MG63 human osteosarcoma cells. α1B‐ and β2‐AR immunofluorescent localization in HOBs was shown for the first time by deconvolution microscopy. α1B‐AR protein was identified in HOBs by Western blot. Both α1‐agonists and propranolol (β‐blocker) increased HOB replication but fenoterol, a β2‐agonist, inhibited it. Fenoterol nearly doubled RANKL mRNA and this was inhibited by propranolol. The α1‐agonist cirazoline increased OPG mRNA and this increase was abolished by siRNA knockdown of α1B‐ARs in HOBs. These data indicate that both α1‐ARs and β2‐ARs are present and functional in HOBs. In addition to β2‐ARs, α1‐ARs in human bone cells may play a role in modulation of bone turnover by the sympathetic nervous system. J. Cell. Physiol. 220: 267–275, 2009. © 2009 Wiley‐Liss, Inc.     

Structural classification of αββ and ββα supersecondary structure units in proteins

We present a fully automatic structural classification of supersecondary structure units, consisting of two hydrogen-bonded β strands, preceded or followed by an α helix. The classification is performed on the spatial arrangement of the secondary structure elements, irrespective of the length and conformation of the intervening loops. The similarity of the arrangements is estimated by a structure alignment procedure that uses as similarity measure the root mean square deviation of superimposed backbone atoms. Applied to a set of 141 well-resolved nonhomologous protein structures, the classification yields 11 families of recurrent arrangements. In addition, fragments that are structurally intermediate between the families are found; they reveal the continuity of the classification. The analysis of the families shows that the α helix and β hairpin axes can adopt virtually all relative orientations, with, however, some preferable orientations; moreover, according to the orientation, preferences in the left/right handedness of the α–β connection are observed. These preferences can be explained by favorable side by side packing of the α helix and the β hairpin, local interactions in the region of the α–β connection or stabilizing environments in the parent protein. Furthermore, fold recognition procedures and structure prediction algorithms coupled to database-derived potentials suggest that the preferable nature of these arrangements does not imply their intrinsic stability. They usually accommodate a large number of sequences, of which only a subset is predicted to stabilize the motif. The motifs predicted as stable could correspond to nuclei formed at the very beginning of the folding process. Proteins 30:193–212, 1998. © 1998 Wiley-Liss, Inc.     

DNA synthesis and proliferation of human lymphocytes in vitro: III. Fate of cycling cells in aging cultures of phytohemagglutinin stimulated human lymphocytes

There are few data available on cell cycle events that occur when proliferation of normal cells in culture is curtailed due to “natural aging” of the culture conditions. Stathmokinetic and cytofluorometry studies were performed on PHA-stimulated human lymphocyte cultures for eight consecutive days. Cell proliferation peaked on day 5 and then gradually decreased. Percent labeled mitosis curves performed each day demonstrated that, for those cells which progressed to mitosis, the cell cycle time remained constant at 18 ± 1 hour throughout the entire period of culture. However when the fate of all cells pulse-labeled with ³H-thymidine (S phase cells) was followed daily, only 64 ± 5% of labeled cells reached mitosis on day 3 and <20% on day 6. When the growth fraction was estimated by standard methods (with the labeling index) and used to predict future cell counts in the culture, proliferation was greatly overestimated; but after correcting the growth fraction for labeled cells not reaching mitosis, proliferation was accurately predicted by a newly derived “dividing fraction.” Flow cytofluorometry confirmed accumulation of cells in S and G₂ + M phases, and mitotic indices ruled out accumulation in M phase. Assessment of non-viable cells with cytofluorometry demonstrated that death occurred in all phases of the cell cycle. We conclude that with increasing age of culture, an increased fraction of cycling PHA-stimulated lymphocytes fail to progress all the way to mitosis and are arrested in S or G₂ phases. These observations provide evidence against the existence of a specific “restriction point” in G₁ or at the G₁/S interface in aging proliferating human lymphocyte cultures, but it remains to be determined whether cells arrested in S or G₂ phases retain the capacity to complete the cell cycle in more favorable culture environments.     

An efficient and enantioselective Michael addition of aromatic oximes to α,β‐unsaturated aldehydes promoted by a chiral diamine catalyst derived from α,α‐diphenyl prolinol

Chiral diamine catalysts 11a–e derived from α ,α ‐diphenyl prolinol were prepared and successfully applied to the Michael addition of aromatic oximes to α ,β ‐unsaturated aldehydes in mediocre to good yields (up to 78%) and good to high enantioselectivities (up to 93% ee ).     

Antidiabetic potential: in vitro inhibition effects of some natural phenolic compounds on α‐glycosidase and α‐amylase enzymes

α‐Glycosidase is a catalytic enzyme and it destroys the complex carbohydrates into simple absorbable sugar units. The natural phenolic compounds were tested for their antidiabetic properties as α‐glycosidase and α‐amylase inhibitors. The phenolic compounds investigated in this study have been used as antidiabetic common medicines. This paper aimed to consider their capability to inhibit α‐amylase and α‐glycosidase, two significant enzymes defined in serum glucose adjustment. These examination recorded impressive inhibition profiles with IC₅₀ values in the range of 137.36–737.23 nM against α‐amylase and 29.01–157.96 nM against α‐glycosidase.     

TNF‐α increases αvβ3 integrin expression and migration in human chondrosarcoma cells

Chondrosarcoma is a type of highly malignant tumour with a potent capacity to invade locally and cause distant metastasis. Chondrosarcoma shows a predilection for metastasis to the lungs. Tumour necrosis factor (TNF)‐α is a key cytokine involved in inflammation, immunity, cellular homeostasis and tumour progression. Integrins are the major adhesive molecules in mammalian cells and have been associated with metastasis of cancer cells. However, the effects of TNF‐α in migration and integrin expression in chondrosarcoma cells are largely unknown. In this study, we found that TNF‐α increased the migration and the expression of αvβ3 integrin in human chondrosarcoma cells. Activations of MAPK kinase (MEK), extracellular signal‐regulating kinase (ERK) and nuclear factor‐κB (NF‐κB) pathways after TNF‐α treatment were demonstrated, and TNF‐α‐induced expression of integrin and migration activity was inhibited by the specific inhibitor and mutant of MEK, ERK and NF‐κB cascades. Taken together, our results indicated that TNF‐α enhances the migration of chondrosarcoma cells by increasing αvβ3 integrin expression through the MEK/ERK/NF‐κB signal transduction pathway. J. Cell. Physiol. 226: 792–799, 2011. © 2010 Wiley‐Liss, Inc.     

β-Turn conformations in crystal structures of model peptides containing α,α-Di-n-propylglycine and α,α-Di-n-butylglycine

The crystal state conformations of three peptides containing the α,α-dialkylated residues. α,α-di-n-propylglycine (Dpg) and α,α-di-n-butylglycine (Dbg), have been established by x-ray diffraction. Boc-Ala-Dpg-Alu-OMe (I) and Boc-Ala-Dbg-Ala-OMe (III) adopt distorted type II β-turn conformations with Ala (1) and Dpg/Dbg (2) as the corner residues. In both peptides the conformational angles at the Dxg residue (I: ? = 66.2°, ψ = 19.3°; III: ? = 66.5°. ψ = 21.1°) deviate appreciably from ideal values for the i + 2 residue in a type II β-turn. In both peptides the observed (N…O) distances between the Boc CO and Ala (3) NH groups are far too long (1: 3.44 Å: III: 3.63 Å) for an intramolecular 4 → 1 hydrogen bond. Boc-Ala-Dpg-Ata-NHMe (II) crystallizes with two independent molecules in the asymmetric unit. Both molecules HA and HB adopt consecutive β-turn (type III-III in HA and type III-I in IIB) or incipient 3₁₀-helical structures, stabilized by two intramolecular 4 → 1 hydrogen bonds. In all four molecules the bond angle N-C^α-C′ (τ) at the Dxg residues are ≥ 110°. The observation of conformational angles in the helical region of ?,ψ space at these residues is consistent with theoretical predictions. © 1995 John Wiley & Sons, Inc.     

Ecosystem stability in space: α, β and γ variability

The past two decades have seen great progress in understanding the mechanisms of ecosystem stability in local ecological systems. There is, however, an urgent need to extend existing knowledge to larger spatial scales to match the scale of management and conservation. Here, we develop a general theoretical framework to study the stability and variability of ecosystems at multiple scales. Analogously to the partitioning of biodiversity, we propose the concepts of alpha, beta and gamma variability. Gamma variability at regional (metacommunity) scale can be partitioned into local alpha variability and spatial beta variability, either multiplicatively or additively. On average, variability decreases from local to regional scales, which creates a negative variability–area relationship. Our partitioning framework suggests that mechanisms of regional ecosystem stability can be understood by investigating the influence of ecological factors on alpha and beta variability. Diversity can provide insurance effects at the various levels of variability, thus generating alpha, beta and gamma diversity–stability relationships. As a consequence, the loss of biodiversity and habitat impairs ecosystem stability at the regional scale. Overall, our framework enables a synthetic understanding of ecosystem stability at multiple scales and has practical implications for landscape management.     

Studies on the 5α-androstane-3β, 17β-diol-6α-hydroxylase and on the 5α-androstane-3β, 17β-diol-7α-hydroxylase in anterior hypophysis of male rats.

In anterior pituitaries from male rats, it appeared that 5α-androstane-3β, 17β-diol was quickly metabolized into 5α-androstane-3β,6α-17β-triol and 5α-androstane-3β,7α, 17β-triol by action of 6α- and 7α-hydroxylases. Hydroxysteroid hydroxylases were located in endoplasmic reticulum and were dependent on NADPH⁺. Their optimum pH was 8.0, optima temperature, 37°C, and their apparent Km was 2.7 μM. Hydroxylative reactions were not reversible and not modified by gonadectomy. Hydroxylation seemed an efficient control of the pituitary level of 5α-andros-tane-3β, 17β-diol.