The Intracellular Domain of Cadherin-11 is not Required for the Induction of Cell Aggregation,Adhesion or Gap-Junction Formation

The cadherin family of cell adhesion molecules demonstrates calcium-dependent hemophilic binding, leading to cellular recognition and adhesion. The adhesion mediated by the classical type 1 cadherins is strengthened through catenin-mediated coupling of the cytoplasmic domain to the cytoskeleton. This cytoskeletal interaction may not be essential for the adhesion promoted by all cadherins, several of which lack cytosolic catenin-binding sequences. Cadherin-11, a classical cadherin, possesses a cytoplasmic domain that interacts with catenins, but may also occur as a variant form expressing a truncated cytoplasmic domain. To study the role of the cytoplasmic sequence in cadherin-11 mediated adhesion we have constructed and expressed a truncated cadherin-11 protein lacking the cytoplasmic domain and unable to bind β-catenin. Expression of the truncated cadherin-11 in MDA-MB-435S human mammary carcinoma cells reduced their motility and promoted calcium-dependent cell aggregation, frequent cell contacts, and functional gap-junctions. We conclude that the intracellular catenin-binding domain of cadherin-11, and by inference cytoskeletal interaction, is not required for the initiation and formation of cell adhesion.     

The Intracellular Domain of Cadherin-11 is not Required for the Induction of Cell Aggregation, Adhesion or Gap-Junction Formation

The cadherin family of cell adhesion molecules demonstrates calcium-dependent hemophilic binding, leading to cellular recognition and adhesion. The adhesion mediated by the classical type 1 cadherins is strengthened through catenin-mediated coupling of the cytoplasmic domain to the cytoskeleton. This cytoskeletal interaction may not be essential for the adhesion promoted by all cadherins, several of which lack cytosolic catenin-binding sequences. Cadherin-11, a classical cadherin, possesses a cytoplasmic domain that interacts with catenins, but may also occur as a variant form expressing a truncated cytoplasmic domain. To study the role of the cytoplasmic sequence in cadherin-11 mediated adhesion we have constructed and expressed a truncated cadherin-11 protein lacking the cytoplasmic domain and unable to bind β-catenin. Expression of the truncated cadherin-11 in MDA-MB-435S human mammary carcinoma cells reduced their motility and promoted calcium-dependent cell aggregation, frequent cell contacts, and functional gap-junctions. We conclude that the intracellular catenin-binding domain of cadherin-11, and by inference cytoskeletal interaction, is not required for the initiation and formation of cell adhesion.     

JNK Controls the Onset of Mitosis in Planarian Stem Cells and Triggers Apoptotic Cell Death Required for Regeneration and Remodeling

Regeneration of lost tissues depends on the precise interpretation of molecular signals that control and coordinate the onset of proliferation, cellular differentiation and cell death. However, the nature of those molecular signals and the mechanisms that integrate the cellular responses remain largely unknown. The planarian flatworm is a unique model in which regeneration and tissue renewal can be comprehensively studied in vivo. The presence of a population of adult pluripotent stem cells combined with the ability to decode signaling after wounding enable planarians to regenerate a complete, correctly proportioned animal within a few days after any kind of amputation, and to adapt their size to nutritional changes without compromising functionality. Here, we demonstrate that the stress-activated c-jun–NH₂–kinase (JNK) links wound-induced apoptosis to the stem cell response during planarian regeneration. We show that JNK modulates the expression of wound-related genes, triggers apoptosis and attenuates the onset of mitosis in stem cells specifically after tissue loss. Furthermore, in pre-existing body regions, JNK activity is required to establish a positive balance between cell death and stem cell proliferation to enable tissue renewal, remodeling and the maintenance of proportionality. During homeostatic degrowth, JNK RNAi blocks apoptosis, resulting in impaired organ remodeling and rescaling. Our findings indicate that JNK-dependent apoptotic cell death is crucial to coordinate tissue renewal and remodeling required to regenerate and to maintain a correctly proportioned animal. Hence, JNK might act as a hub, translating wound signals into apoptotic cell death, controlled stem cell proliferation and differentiation, all of which are required to coordinate regeneration and tissue renewal.     

Na,K-ATPase Activity Is Required for Formation of Tight Junctions, Desmosomes, and Induction of Polarity in Epithelial Cells

Na,K-ATPase is a key enzyme that regulates a variety of transport functions in epithelial cells. In this study, we demonstrate a role for Na,K-ATPase in the formation of tight junctions, desmosomes, and epithelial polarity with the use of the calcium switch model in Madin-Darby canine kidney cells. Inhibition of Na,K-ATPase either by ouabain or potassium depletion prevented the formation of tight junctions and desmosomes and the cells remained nonpolarized. The formation of bundled stress fibers that appeared transiently in control cells was largely inhibited in ouabain-treated or potassium-depleted cells. Failure to form stress fibers correlated with a large reduction of RhoA GTPase activity in Na,K-ATPase-inhibited cells. In cells overexpressing wild-type RhoA GTPase, Na,K-ATPase inhibition did not affect the formation of stress fibers, tight junctions, or desmosomes, and epithelial polarity developed normally, suggesting that RhoA GTPase is an essential component downstream of Na,K-ATPase-mediated regulation of these junctions. The effects of Na,K-ATPase inhibition were mimicked by treatment with the sodium ionophore gramicidin and were correlated with the increased intracellular sodium levels. Furthermore, ouabain treatment under sodium-free condition did not affect the formation of junctions and epithelial polarity, suggesting that the intracellular Na(+) homeostasis plays a crucial role in generation of the polarized phenotype of epithelial cells. These results thus demonstrate that the Na,K-ATPase activity plays an important role in regulating both the structure and function of polarized epithelial cells.     

CSPP-L Associates with the Desmosome of Polarized Epithelial Cells and Is Required for Normal Spheroid Formation

Deleterious mutations of the Centrosome/Spindle Pole associated Protein 1 gene, CSPP1, are causative for Joubert-syndrome and Joubert-related developmental disorders. These disorders are defined by a characteristic mal-development of the brain, but frequently involve renal and hepatic cyst formation. CSPP-L, the large protein isoform of CSPP1 localizes to microtubule ends of the mitotic mid-spindle and the ciliary axoneme, and is required for ciliogenesis. We here report the microtubule independent but Desmoplakin dependent localization of CSPP-L to Desmosomes in apical-basal polarized epithelial cells. Importantly, siRNA conferred depletion of CSPP-L or Desmoplakin promoted multi-lumen spheroid formation in 3D-cultures of non-ciliated human colon carcinoma Caco-2 cells. Multi-lumen spheroids of CSPP1 siRNA transfectants showed disrupted apical cell junction localization of the cytoskeleton organizing RhoGEF ECT2. Our results hence identify a novel, non-ciliary role for CSPP-L in epithelial morphogenesis.     

Serum osteoprotegerin and RANKL are not specifically altered in women with postmenopausal osteoporosis treated with teriparatide or risedronate: a randomized, controlled trial.

Risedronate and teriparatide have opposite actions on the osteoblast-osteoclast dipole and are expected to influence the RANK/RANKL/osteoprotegerin (OPG) system. We aimed to evaluate changes in serum OPG and RANKL after risedronate or teriparatide administration in postmenopausal osteoporotic women. Seventy-four postmenopausal Caucasian women (age 64.1+/-1.0 years) were studied. Women with osteopenia served as controls (group 1, n=30). Women with osteoporosis were randomly assigned to either risedronate 35 mg once weekly (group 2, n=21) or teriparatide 20 microg once daily (group 3, n=23) for six months. Blood samples for serum RANKL, OPG, N-terminal propeptide of type 1 collagen (P1NP), and C-terminal telopeptide of type 1 collagen (CTx) were obtained before treatment and three and six months after treatment. P1NP and CTx levels remained unchanged in group 1, decreased in group 2 (p<0.001), and increased in group 3 women (p<0.001) throughout the treatment. OPG levels remained unchanged while RANKL decreased gradually in all groups (p<0.001). There was no correlation between OPG or RANKL and P1NP or CTx. Our data suggest that neither antiresorptive nor osteoanabolic therapy causes specific alterations of serum OPG/RANKL levels; therefore, these cytokines cannot substitute for the established markers of bone turnover in the monitoring of response to osteoporosis treatment.     

Divalent Cations are not Required for the Stability of the Low-Salt Z-DNA Conformation in Poly(dG-ethyl5 dC)

Abstract

It is demonstrated that poly(dG-ethyl⁵dC) adopts Z form in low-salt solution like poly(dGmethyl⁵dC). Its existence is, however, not contingent on the presence of divalent cations in the polynucleotide solution. The Z form is transformed into B form below room temperature. The arising B form cannot be transformed back into Z form by millimolar MgCl₂ concentrations. On the contrary, the addition of MgCl₂ at room temperature converts the low-salt Z form of poly(dG-ethyl⁵dC) into B form. It follows from the results that Z form is a stable DNA conformation not only at high but even at low ionic strengths.     

Formation of Viral Ribonucleic Acid and Virus in Cells that are Permissive or Nonpermissive for Murine Encephalomyelitis Virus (GDVII)

GDVII virus growth in BHK-21 cells, a permissive host for the virus, resembled productive infections with other picornaviruses. Virus yields ranged from 100 to 600 plaque-forming units (PFU)/cell. Virus replication in HeLa cells, a nonpermissive host for GDVII virus, was characterized by virus yields of only 0.1 to 5 PFU/cell. Similar low yields of virus have been obtained from HeLa cells at all multiplicities of input up to 6,000 per cell. The progeny particles from HeLa cells were, like the infecting particles, restricted in the HeLa cell host. Despite the great difference in final yields of virus from BHK-21 and HeLa cells, the times when maximal yields were reached were similar. GDVII virus stock grown in BHK-21 cells was designated HeLa(-). A variant of GDVII virus which is capable of extensive growth in HeLa cells was obtained. This variant, designated HeLa(+) GDVII virus, was passaged serially in HeLa cells. Virus yields of 50 to 150 infective virus particles per cell were obtained from infection of HeLa cells with HeLa(+) GDVII virus. The major species of HeLa(+) virus-specific ribonucleic acid (RNA) produced was single stranded and sedimented with an S value of 35S. The rate of accumulation of HeLa(+) virus-specific RNA in HeLa cell cultures was about four times that of HeLa(-) RNA. The amount of virus-specific HeLa(+) RNA formed in HeLa cells was several-fold greater than that of HeLa(-) RNA. With HeLa(-) parent GDVII virus undergoing productive replication in BHK-21 cells or abortive replication in HeLa cells, the major species of virus-specific RNA produced was single stranded and sedimented with an approximate S value of 35S. The amount of HeLa(-) virus-specific RNA extracted from BHK-21 cells was several-fold greater than the amount obtained from HeLa cells.     

Steroidal Saponins are not Main Building Units of the Prolamellar Body in Etioplasts

Sugar-containing lipids were analyzed by thin layer chromatographyin various cell fractions of etiolated Aoena leaves, Auena intactetioplasts and prolamellar bodies isolated from Cucurbita etioplasts.We confirmed the presence of steroidal saponins, avenacosidesA and B in etiolated leaves and crude etioplast fraction ofAvena, but scarcely detected them in Avena intact etioplastspurified by Percoll density gradient centrifugation. Saponinswere hardly detected in the paracrystalline prolamellar bodiesfrom Cucurbita etioplasts. We concluded that steroidal saponinsare not main building units of the prolamellar body in the etioplasts. (Received August 5, 1982; Accepted February 15, 1983)     

Respiration and Mitochondrial Membrane Potential Are not Required for Apoptosis and Anti-apoptotic Action of Bcl-2 in HeLa Cells

The release of cytochrome c from intermembrane space of mitochondria into cytosol is one of the critical events in apoptotic cell death. The important anti-apoptotic oncoprotein Bcl-2 inhibits this process. In the present study it was shown that apoptosis and release of cytochrome c induced by staurosporine or by tumor necrosis factor- in HeLa cells were not affected by inhibitors of respiration (rotenone, myxothiazol, antimycin A) or by uncouplers (CCCP, DNP) that decrease the membrane potential at the inner mitochondrial membrane. The inhibitors of respiration and the uncouplers did not affect also the anti-apoptotic activity of Bcl-2.     

MONOCULM 3,an Ortholog of WUSCHEL in Rice,Is Required for Tiller Bud Formation

WUSCHEL(WUS)plays an essential role for the maintenance of meristem activity in dicots,but its function is still elusive in monocots.We isolated a new monoculm mutant,monoculm 3(moc3),in which a point mutation causes the premature termination of rice O.sativa WUS(Os WUS).Morphological observation revealed that the formation of tiller buds was disrupted in moc3.MOC3 was localized in the nuclear and could interact with TOPLESS-RELATED PROTEINS(TPRs).The expression of MOC3 was induced by cytokinins and defection of MOC3 affected the expression of several two-component cytokinin response regulators,Os RRs and ORRs.Our results suggest that MOC3 is required for the formation of axillary buds and has a complex relationship with cytokinins.     

Actin Microfilaments are Required for the Expression of Nonhost Resistance in Higher Plants

We investigated the role of actin microfilaments in nonhostresistance of higher plants. Here we present several lines ofevidence to indicate that microfilaments are indeed involvedin blocking fungal penetration of nonhost plants. Erysiphe pisi,a pathogen of pea, normally fails to penetrate into nonhostplants such as barley, wheat, cucumber and tobacco. When tissuesof these nonhost plants were treated with cytochalasins, specificinhibitors of actin polymerization, this fungus became ableto penetrate and formed haustoria in epidermal cells of theseplants. Moreover, treatment of these plants with various kindsand concentrations of cytochalasins allowed several other non-pathogenicfungi, E.graminis hordei, E.graminis tritici, Sphaerotheca fuliginea,Colletotrichum graminicola, My-cosphaella pinodes, C. lagenarium,Altemaria kikuchiana and Corynespora melonis, to also penetratethe cells of these plants. The degree of microfilament depolymeriza-tionvaried depending on the kinds and concentrations of cytochalasinsapplied and we show that this is significantly correlated withthe penetration efficiency of C. graminicola. This indicatesthat the polymerized, filamentous state of actin is necessaryfor plants to block fungal penetration. These results stronglysuggest that actin microfilaments may play important roles inthe expression of nonhost resistance of higher plants. ¹Contribution no. 129 from the Laboratory of Plant Pathology,Mie University     

Notch Signalling Is Required for the Formation of Structurally Stable Muscle Fibres in Zebrafish

Background

Accurate regulation of Notch signalling is central for developmental processes in a variety of tissues, but its function in pectoral fin development in zebrafish is still unknown.

Methodology/Principal Findings

Here we show that core elements necessary for a functional Notch pathway are expressed in developing pectoral fins in or near prospective muscle territories. Blocking Notch signalling at different levels of the pathway consistently leads to the formation of thin, wavy, fragmented and mechanically weak muscles fibres and loss of stress fibres in endoskeletal disc cells in pectoral fins. Although the structural muscle genes encoding Desmin and Vinculin are normally transcribed in Notch-disrupted pectoral fins, their proteins levels are severely reduced, suggesting that weak mechanical forces produced by the muscle fibres are unable to stabilize/localize these proteins. Moreover, in Notch signalling disrupted pectoral fins there is a decrease in the number of Pax7-positive cells indicative of a defect in myogenesis.

Conclusions/Significance

We propose that by controlling the differentiation of myogenic progenitor cells, Notch signalling might secure the formation of structurally stable muscle fibres in the zebrafish pectoral fin.