Loss of reciprocal modulations of growth and liver function of hepatoma cells in culture by contact with cells or cell membranes.

Nakamura, Toshikazu; Nakayama, Yasuo; Teramoto, Hideo; Nawa, Katsuhiko; Ichihara, Akira

doi:10.1073/pnas.81.20.6398

Cited by 35 publications

(18 citation statements)

References 40 publications

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“…After overnight growth, hepatocytes were overlaid with collagen and cultured in a humidified 37°C incubator in 5% CO 2 (Chandra et al, 2001). Cell density was 2.56ϫ10 5 /cm 2 , which is similar to in vivo density (2-3ϫ10 5 /cm 2 ) (Nakamura et al, 1984).…”

Section: Collagen Sandwich Hepatocyte Culturesupporting

confidence: 75%

Regulation of bile canalicular network formation and maintenance by AMP-activated protein kinase and LKB1

Wakabayashi

Ido

et al. 2010

Journal of Cell Science

105

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SummaryAMP-activated protein kinase (AMPK), a cellular metabolic sensor, is essential in energy regulation and metabolism. Hepatocyte polarization during liver development and regeneration parallels increased metabolism. The current study investigates the effects of AMPK and its upstream activator LKB1 on polarity and bile canalicular network formation and maintenance in collagen sandwich cultures of rat hepatocytes. Immunostaining for the apical protein ABCB1 and the tight junction marker occludin demonstrated that canalicular network formation is sequential and is associated with activation of AMPK and LKB1. AMPK and LKB1 activators accelerated canalicular network formation. Inhibition of AMPK or LKB1 by dominant-negative AMPK or kinase-dead LKB1 constructs blocked canalicular network formation. AICAR and 2-deoxyglucose, which activate AMPK, circumvented the inhibitory effect of kinase-dead LKB1 on canalicular formation, indicating that AMPK directly affects canalicular network formation. After the canalicular network was formed, inhibition of AMPK and LKB1 by dominant-negative AMPK or kinase-dead LKB1 constructs resulted in loss of canalicular network, indicating that AMPK and LKB1 also participate in network maintenance. In addition, activation of AMPK and LKB1 prevented low-Ca 2+ -mediated disruption of the canalicular network and tight junctions. These studies reveal that AMPK and its upstream kinase, LKB1, regulate canalicular network formation and maintenance.Key words: AMPK, LKB1, Bile canaliculi, Polarity, Primary hepatocytes, Collagen sandwich culture, P-glycoprotein, Tight junction Journal of Cell Sciencenon-dividing cells, as seen in vivo (Decaens et al., 2008;LeCluyse et al., 1994), and maintain this functional organization for about 2 weeks (Ben-Ze'ev et al., 1988;Dunn et al., 1989;Musat et al., 1993). Therefore, to investigate the role of AMPK and LKB1 in canalicular network formation and maintenance, we used collagen sandwich cultures of rat primary hepatocytes. Results Association of canalicular network formation and AMPK activationTo investigate the process of canalicular network formation in cultured rat hepatocytes, we examined the daily morphological structure of canaliculi using bright-field illumination combined with immunofluorescence of occludin, a junctional marker, and ABCB1 (P-glycoprotein), an apical marker. Canalicular shape, length and network formation, as well as the distribution of ABCB1 and occludin were recorded in cultures from day 1 through 6. As shown in Fig. 1, in day 1 cultures, canaliculi structures situated between two cells and positive for occludin and ABCB1 were infrequent and small. In day 2 cultures, canalicular number and length per cell increased, with canaliculi mainly rounded and shared by two adjacent cells (Fig. 1A-C). In day 3 cultures, canaliculi were elongated and bar-shaped.

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Section: Collagen Sandwich Hepatocyte Culturesupporting

confidence: 75%

Regulation of bile canalicular network formation and maintenance by AMP-activated protein kinase and LKB1

Wakabayashi

Ido

et al. 2010

Journal of Cell Science

105

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“…The principal site of HCV replication in vivo is thought to be hepatocytes within the liver, which form polarized sheets where the cells are at high density (2-3.0 ϫ 10 5 hepatocytes/cm 2 of liver tissue). 21 In contrast, HCV RNA has been reported to replicate more efficiently in actively proliferating cells, demonstrating reduced replication in cells at high density. 22,23 Because the majority of hepatocytes within the liver are not proliferating and are arrested in G 0 , these data suggest a delicate balance between the cell requirements that are optimal for HCV entry and transmission versus those required for efficient viral RNA replication.…”

Section: Discussionmentioning

confidence: 99%

Hepatitis C virus cell-cell transmission in hepatoma cells in the presence of neutralizing antibodies

et al. 2008

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H epatitis C virus (HCV) has emerged as the major etiological agent of liver disease. Approximately 170 million individuals are infected worldwide, and the majority are at risk for developing serious progressive liver disease, with HCV being the leading indication for liver transplantation. The HCV single-stranded RNA genome encodes a single polyprotein, which is cleaved by viral and cellular proteases to produce the structural proteins; core E1 and E2 and nonstructural proteins; p7, NS2, NS3, NS4A, NS4B, NS5A, and NS5B. The only approved treatment for HCV infection is interferon-␣ in combination with ribavirin, which is toxic and only effective in 50% of individuals with genotype I infections. Clearly, there is a need for more effective therapies and for the development of prophylactic and/or therapeutic vaccines.Cellular and humoral responses are generated during acute infection, but they are insufficient to achieve viral clearance in the majority of individuals, with approximately 60%-80% of new infections becoming persistent. 1,2 Neutralizing antibody (nAb) responses often provide the first-line adaptive defense against infection by limiting virus spread. However, little is known about the impact of the humoral immune response on HCV pathobiology. Serum antibodies (Abs) from chronically HCVinfected individuals demonstrate broadly reactive neutralizing properties in vitro and yet fail to control viral infection in vivo. [3][4][5] The reasons for their lack of effect are poorly understood. HCV may escape neutralization by

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“…The liver is one of the organs with an extremely high cell density (2 ϫ 10 5 to 3.0 ϫ 10 5 hepatocytes/cm 2 [56]), which provides HCV with numerous cell-cell contact sites. In chronically HCV-infected liver, viral replication and the intrahepatic HCV RNA level are very low (7 to 64 genomic equivalents per cell) (57,58), and nAbs and other immunological responses are often present (59).…”

Section: Discussionmentioning

confidence: 99%

Cell-Cell Contact-Mediated Hepatitis C Virus (HCV) Transfer, Productive Infection, and Replication and Their Requirement for HCV Receptors

Liu

2013

J Virol

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bHepatitis C virus (HCV) infection is believed to begin with interactions between cell-free HCV and cell receptors that include CD81, scavenger receptor B1 (SR-B1), claudin-1 (CLDN1), and occludin (OCLN). In this study, we have demonstrated that HCV spreading from infected hepatocytes to uninfected hepatocytes leads to the transfer of HCV and the formation of infection foci and is cell density dependent. This cell-cell contact-mediated (CCCM) HCV transfer occurs readily and requires all these known HCV receptors and an intact actin cytoskeleton. With a fluorescently labeled replication-competent HCV system, the CCCM transfer process was further dissected by live-cell imaging into four steps: donor cell-target cell contact, formation of viral puncta-target cell conjugation, transfer of viral puncta, and posttransfer. Importantly, the CCCM HCV transfer leads to productive infection of target cells. Taken together, these results show that CCCM HCV transfer constitutes an important and effective route for HCV infection and dissemination. These findings will aid in the development of new and novel strategies for preventing and treating HCV infection.

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Loss of reciprocal modulations of growth and liver function of hepatoma cells in culture by contact with cells or cell membranes.

Cited by 35 publications

References 40 publications

Regulation of bile canalicular network formation and maintenance by AMP-activated protein kinase and LKB1

Regulation of bile canalicular network formation and maintenance by AMP-activated protein kinase and LKB1

Hepatitis C virus cell-cell transmission in hepatoma cells in the presence of neutralizing antibodies

Cell-Cell Contact-Mediated Hepatitis C Virus (HCV) Transfer, Productive Infection, and Replication and Their Requirement for HCV Receptors

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