Mate Change Reduces the Reproductive Rate of Males in a Monogamous Pipefish Corythoichthys haematopterus: The Benefit of Long-Term Pair Bonding

Monogamy has evolved independently in many taxa, and often involves biparental care of the young and/or low defendability of multiple mates. In many teleost fishes, however, strict monogamy is practised without such limitations. In this study, we examined why males of the pipefish Corythoichthys haematopterus (family: Syngnathidae) reproduce monogamously without changing to another mate. For this we examined the time cost associated with mate change by experimentally removing females from mating pairs and compelling the males to change mates. Mate‐changing males needed longer interspawning intervals, an average of 8.5 d, than their monogamous counterparts, which was primarily because of the time needed for the new female to prepare mature eggs. As a result, we assume that mate change entails considerable reproductive costs associated with a decrease in reproductive rate. Monogamy and long‐term pair bonding in C. haematopterus are likely maintained because of high reproductive rates by repeatedly reproducing with the same mate over a lifetime.     

Hypertonic activation of a non-selective cation conductance in HeLa cells and its contribution to cell volume regulation

In whole-cell recordings on single HeLa cells, the hypertonic activation of a cation conductance with a selectivity ratio P(Na):P(Li):P(K):P(Cs):P(NMDG):P(Ca):P(Cl) of 1.00:0.86:0.84:0.56:0.10:0.07:0.15 was observed. This (non-selective) cation conductance was reduced to 59 and 30% of maximal stimulation by Gd(3+) and flufenamate, respectively, but it was insensitive to amiloride (with each compound applied at 100 microm/l). As was determined by the Coulter counter technique, the cation conductance was the main mechanism of regulatory volume increase (RVI) in HeLa cells. Whereas a significant contribution of Na(+)/H(+) antiport was also detectable, Na(+)-K(+)-2Cl(-) symport most likely did not contribute to RVI.     

IK channels are involved in the regulatory volume decrease in human epithelial cells

Parallel activation ofCa²⁺-dependent K⁺ channels and volume-sensitiveCl channels is known to be responsible for KCl effluxduring regulatory volume decrease (RVD) in human epithelial Intestine407 cells. The present study was performed to identify theK⁺ channel type. RT-PCR demonstrated mRNA expression ofCa²⁺-activated, intermediate conductance K⁺(IK), but not small conductance K⁺ (SK1) or largeconductance K⁺ (BK) channels in this cell line. Whole cellrecordings showed that ionomycin or hypotonic stress activated inwardlyrectifying K⁺ currents that were reversibly blocked by IKchannel blockers [clotrimazole (CLT) and charybdotoxin] but not by SKand BK channel blockers (apamin and iberiotoxin). Inside-out recordingsrevealed the existence of CLT-sensitive single K⁺-channelactivity, which exhibited an intermediate unitary conductance (30 pS at100 mV). The channel was activated by cytosolic Ca²⁺ ininside-out patches and by a hypotonic challenge in cell-attached patches. The RVD was suppressed by CLT, but not by apamin oriberiotoxin. Thus we conclude that the IK channel is involved in theRVD process in these human epithelial cells.

     

The presence and functions of muscarinic receptors in human T cells: the involvement in IL-2 and IL-2 receptor system

The existence and functions of muscarinic acetylcholine (mACh) receptors in human T lymphocytes were investigated. RT-PCR analysis demonstrated the presence of M(1) and M(2) subtypes of mACh receptors in human T lymphocytes. Pretreatment with oxotremorine-M (Oxo-M) caused the increase in phytohemagglutinin-induced IL-2 production. Since 4-DAMP suppressed Oxo-M-caused enhancement in IL-2 production, M(1) receptors seem to be involved in the enhancement of the production. Oxo-M stimulated IL-2 receptor mRNA expression and DNA synthesis. Our results suggest that muscarinic receptors, perhaps M(1) receptors are involved in the enhancement of TCR-induced IL-2 production and IL-2 receptor expression in human T lymphocytes. Thus muscarinic receptors positively modulate cell growth in human T lymphocytes by the autocrine mechanism through enhancing expression of both IL-2 and the receptors.     

Introduction of short interfering RNA to silence endogenous E-selectin in vascular endothelium leads to successful inhibition of leukocyte adhesion

Short interfering RNAs (siRNAs) are powerful sequence-specific reagents that suppress gene expression in mammalian cells. We report for the first time that gene silencing of endothelial E-selectin by siRNAs leads to successful inhibition of leukocyte-endothelial interaction under flow. siRNAs designed to target human E-selectin were tranfected into human umbilical vein endothelial cells (HUVEC). Western blotting analysis revealed that transfection of these siRNAs, but not the scrambled control siRNA (100nM each), attenuated E-selectin expression in HUVEC activated with TNF-alpha (10ng/ml, 4h) without affecting expression of ICAM-1. Moreover, a leukocyte adhesion assay under flow (shear stress=1.0dyne/cm(2)) demonstrated that HUVEC transfected with a siRNA against E-selectin (siE-01) supported significantly less HL60 adhesion as compared to those transfected with the control siRNA (scE-01) after activation (p<0.03). This technique provides a powerful strategy to dissect a specific function of a given molecule in leukocyte-endothelial interaction.     

Synergistic activation of the rat laminin gamma1 chain promoter by the gut-enriched Kruppel-like factor (GKLF/KLF4) and Sp1

Laminin is a multifunctional heterotrimeric protein present in extracellular matrix where it regulates processes that compose tissue architecture including cell differentiation. Laminin γ1 is the most widely expressed laminin chain and its absence causes early lethality in mouse embryos. Laminin γ1 chain gene (LAMC1) promoter contains several GC/GT-rich motifs including the bcn-1 element. Using the bcn-1 element as a bait in the yeast one-hybrid screen, we cloned the gut-enriched Kruppel-like factor (GKLF or KLF4) from a rat mesangial cell library. We show that GKLF binds bcn-1, but this binding is not required for the GKLF-mediated activation of the LAMC1 promoter. The activity of GKLF is dependent on a synergism with another Kruppel-like factor, Sp1. The LAMC1 promoter appears to have multiple GKLF- and Sp1-responsive elements which may account for the synergistic activation. We provide evidence that the synergistic action of GKLF and Sp1 is dependent on the promoter context and the integrity of GKLF activation and DNA-binding domain. GKLF is thought to participate in the switch from cell proliferation to differentiation. Thus, the Sp1–GKLF synergistic activation of the LAMC1 promoter may be one of the avenues for expression of laminin γ1 chain when laminin is needed to regulate cell differentiation.     

Hematopoietic stem cells differentiate into vascular cells that participate in the pathogenesis of atherosclerosis

Excessive accumulation of smooth-muscle cells (SMCs) has a key role in the pathogenesis of vascular diseases. It has been assumed that SMCs derived from the outer medial layer migrate, proliferate and synthesize extracellular matrix components on the luminal side of the vessel. Although much effort has been devoted to targeting migration and proliferation of medial SMCs, there is no effective therapy that prevents occlusive vascular remodeling. We show here that in models of post-angioplasty restenosis, graft vasculopathy and hyperlipidemia-induced atherosclerosis, bone-marrow cells give rise to most of the SMCs that contribute to arterial remodeling. Notably, purified hematopoietic stem cells differentiate into SMCs in vitro and in vivo. Our findings indicate that somatic stem cells contribute to pathological remodeling of remote organs, and may provide the basis for the development of new therapeutic strategies for vascular diseases through targeting mobilization, homing, differentiation and proliferation of bone marrow-derived vascular progenitor cells.     

Hyaluronan synthesis by anaplastic large cell lymphoma with massive lymphomatous effusion. A case report

BACKGROUND: Hyaluronan (HA) synthesis is frequently observed in malignant mesothelioma cells, whereas it is rarely found in lymphoma cells. Previous studies have reported that a high HA concentration in the serum was related to poor prognosis in lymphomas, although the mechanism was not elucidated. We recently encountered a case of anaplastic large cell lymphoma with an HA-rich, massive, lymphomatous effusion. Several studies were performed to clarify the character of this unusual lymphoma and to observe whether the lymphoma cells synthesized HA. CASE: A 59-year-old female was admitted with abdominal pain. Radiologic studies revealed a pleural effusion and paraaortic lymph node swelling. A biopsied specimen was compatible with anaplastic large cell lymphoma. Detailed cytologic observations revealed that the lymphoma cells in the pleural effusion had alcian blue-positive, productive material in the prominent Golgi area and microvillous structures on the surface. Further studies found that most of the lymphoma cells had HA-binding protein and expressed CD44 antigen, a receptor for HA. In addition, the HA concentration in the supernatant of the primary culture cells was extremely high and increased time dependently. CONCLUSION: These observations suggest that the lymphoma cells synthesized and released HA. Interactions of the released HA and CD44 on the surface might play an important role in the peculiar serosal growth of lymphoma cells.     

G-CSF stimulates angiogenesis and promotes tumor growth: potential contribution of bone marrow-derived endothelial progenitor cells

Solid tumors require neovascularization for their growth. Recent evidence indicates that bone marrow-derived endothelial progenitor cells (EPCs) contribute to tumor angiogenesis. We show here that granulocyte colony-stimulating factor (G-CSF) markedly promotes growth of the colon cancer inoculated into the subcutaneous space of mice, whereas G-CSF had no effect on cancer cell proliferation in vitro. The accelerated tumor growth was associated with enhancement of neovascularization in the tumor. We found that bone marrow-derived cells participated in new blood vessel formation in tumor. Our findings suggest that G-CSF may have potential to promote tumor growth, at least in part, by stimulating angiogenesis in which bone marrow-derived EPCs play a role.