Joan P. Stabila

β-Adrenergic receptors (βAR) regulate cardiomyocyte proliferation during early postnatal life

Cardiomyocyte development switches from hyperplasmic to hypertrophic growth between postnatal days 3 and 4 in rats. The mechanisms responsible for this transition have been controversial. β‐Adrenergic receptor (βAR) activation of mitogenic responses in vitro has been reported. We hypothesized that tonic activation of the βAR signaling regulates cell division in neonatal cardiomyocytes via effects on signaling ki‐nases known to be important in cell cycle regulation. The purpose of the current study was to elucidate the roles of βAR in rat cardiomyocyte growth in vivo. We demonstrated that βAR blockade induced a significant reduction in cardiomyocyte proliferation as measured by the BrdU labeling index. Blockade of βAR did not affect p38 or p44/42 MAPK activities. We further demonstrated that βAR blockade induced a prompt deactivation of the p70 ribosomal protein S6 kinase (p70 S6K). To confirm these results, we measured p70 S6K activity directly. Basal activity of p70 S6K in neonatal cardiomyocytes was fourfold higher than that of insulin‐treated adult rat liver. The activity of p70 S6K was reduced by 60% within 1 min after βAR blockade. We conclude that the βAR are involved in regulation of neonatal cardiomyocyte proliferation and that this mi‐togenic control may be mediated via the p70 S6K pathway.

High ambient glucose induces angiotensin-independent AT-1 receptor activation, leading to increases in proliferation and extracellular matrix accumulation in MES-13 mesangial cells

Diabetic nephropathy is associated with mesangial ECM (extracellular matrix) accumulation. We have shown that AT-1R [Ang II (angiotensin II) type I receptor] signalling induces ECM proteins via transactivation of PI3K (phosphoinositide 3-kinase) in mesangial cells. In the present study, we examined the mechanisms underlying the effect of high ambient glucose on cell proliferation and ECM expansion in a mesangial context. High glucose induced increases in PI3K activity, proliferation and ECM accumulation in mesangial cells. These effects were abrogated by losartan, an AT-1R antagonist, but not by [Sar1,Thr8]-Ang II (Sar is sarcosine), an inactive analogue of Ang II, or by a neutralizing antibody against Ang I/II. Overexpression of a constitutively active PI3Kalpha or AT-1R alone was sufficient to induce similar changes by high glucose. In contrast, overexpression of an inactive AT-1R lowered the basal levels and rendered the cells non-responsive to high glucose. Moreover, cells overexpressing wild-type AT-1R had enhanced sensitivity to acute Ang II stimulation. These cells, however, did not respond to conditioned medium obtained from mesangial cells cultured in high glucose. We further demonstrated that iAng (intracellular Ang II) can be induced by high glucose but only under certain conditions. Efficient suppression of iAng by short hairpin RNA against angiotensinogen, however, did not affect high glucose-induced effects on MES-13 cells. These results suggest that high ambient glucose induces activation of AT-1R in an Ang II-independent manner to transactivate PI3K, resulting in proliferation and ECM accumulation in mesangial cells.

Effect of disruption of Akt-1 of lin(-)c-kit(+) stem cells on myocardial performance in infarcted heart.

AIMS We have demonstrated an important role of bone marrow-derived stem cells in preservation of myocardial function. We investigated whether Akt-1 of lin(-)c-kit(+) stem cells preserves ventricular function following myocardial infarction (MI). METHODS AND RESULTS Isolated lin(-)c-kit(+) cells were conjugated with anti-c-kit heteroconjugated to anti-vascular cell adhesion molecule to facilitate the attachment of stem cells into damaged tissues. Female severe combined immunodeficient mice were used as recipients. MI was created by ligation of the left descending artery. After 48 h, animals were divided into four groups: (i) sham (n = 5): animals underwent thoracotomy without MI; (ii) MI (n = 5): animals underwent MI and received medium; (iii) MI + wild-type (Wt) stem cells (n = 6): MI animals received 5 x 10(5) Wt lin(-)c-kit(+) stem cells; (iv) MI + Akt-1(-/-) stem cells (n = 6): MI animals received 5 x 10(5) Akt-1(-/-) lin(-)c-kit(+) stem cells. Two weeks later, left ventricular function was measured in the Langendorff mode. The peripheral administration of Wt armed stem cells into MI animals restored ventricular function, which was absent in animals receiving Akt-1(-/-) cells. Real-time PCR indicates a decrease in SRY3, a Y chromosome marker in hearts receiving Akt-1(-/-) cells. An increase in angiogenic response was demonstrated in hearts receiving Wt stem cells but not Akt-1(-/-) stem cells. CONCLUSION Our results demonstrate that the peripheral administration of Wt lin(-)c-kit(+) stem cells restores ventricular function and promotes angiogenic response following MI. These benefits were abrogated in MI mice receiving Akt-1(-/-) stem cells, suggesting the pivotal role of Akt-1 in mediating stem cells to protect MI hearts.

β-Adrenergic Receptor Mediated Protection against Doxorubicin-Induced Apoptosis in Cardiomyocytes: The Impact of High Ambient Glucose

Recent studies have demonstrated that the beta2-adrenergic receptor (beta2AR)-Galphai signaling pathway exerts a cardiac antiapoptotic effect. The goals of this study were to determine the intracellular signaling factors involved in beta2AR-mediated protection against doxorubicin-induced apoptosis in H9c2 cardiomyocyte and explore the impact of high ambient glucose on the antiapoptotic effect. Under physiological glucose environment (100 mg/dl), beta2AR stimulation prevented doxorubicin-induced apoptosis, which was attenuated by cotreatment with wortmannin, a phosphoinositide 3-kinase (PI3K) inhibitor, or transfection of a dominant-negative Akt. Inhibition of Src kinase with 4-amino-5-(4-chlorophenyl)-7-(t-butyl)pyrazolo[3,4-d] pyrimidine or cSrc small interfering RNA 32 also attenuated the antiapoptotic effect. Inhibition of platelet-derived growth factor receptor (PDGFR) with AG1296 reversed the beta2AR-induced antiapoptotic effect. Transfection of an active Src cDNA (Y529F) alone was sufficient to render the cells resistant to apoptosis, and the resistance was blocked by wortmannin. Transfection of an active PI3K minigene (iSH2-p110) alone also induced resistance to apoptosis, and the resistance was reversed by an Akt-inhibitor but not by AG1296. High ambient glucose (450 mg/dl) caused two major effects: 1) it significantly reduced betaAR-induced PDGFR phosphorylation, Src kinase activity, and activation of PI3K signaling pathway; and 2) it partially attenuated beta2AR-induced antiapoptotic effect. These data provide in vitro evidence supporting a signaling cascade by which beta2AR exerts a protective effect against doxorubicin-induced apoptosis via sequential involvement of Galphai, Gbetagamma, Src, PDGFR, PI3K, and Akt. High ambient glucose significantly attenuates beta2AR-mediated cardioprotection by suppressing factors involved in this cascade including PDGFR, Src, and PI3K/Akt.

Role of the L- amino acid transporter-1 (LAT-1) in Mouse Trophoblast Cell Invasion

LAT-1 (L-type amino acid transporter 1) is a system L, Na(+)-independent amino acid transporter responsible for transport of large neutral amino acids. Dysregulated expression of LAT-1 is characteristic of many primary human cancers and its over expression is related to tumor invasion. LAT-1 is highly expressed in the trophoblast giant cells (TGCs) at the time of implantation. Since trophoblast giant cells are highly invasive during the process of endometrial implantation and placentation, LAT-1 may play a role in the invasive phenotype. Our objectives were to identify the effects of increased and decreased LAT-1 expression on mouse trophoblast invasion. We therefore examined the role of amino acid deprivation, pharmacologic blockade specific to leucine transport and gene silencing (siRNA) on LAT-1 expression and trophoblast cell invasion. We utilized mouse primary trophoblast stem (TS) cells. LAT-1 mRNA expression was quantified by real time qPCR, protein by Western blotting and cell invasion was measured in Transwell plates through Matrigel. Amino acid transport using uptake of tritiated leucine. Under limited leucine availability and/or pharmacologic blockage, LAT-1 gene expression was significantly increased, p<0.05. This was associated with a 3-fold increase in cell invasion, p<0.05. In contrast, following siRNA-mediated gene silencing decreased LAT-1 expression (both mRNA and protein) was associated with decreased cell invasion and decreased leucine uptake, p<0.05. Upregulation of LAT-1 gene expression via limited amino acid availability or following pharmacologic blockade of transport leads to an increase in mouse trophoblast stem cell invasiveness. Downregulation of LAT-1 expression via genetic silencing leads to inhibition of invasiveness. These results demonstrate that LAT-1 plays an important role in trophoblast invasion.

LAT-1 Expression in Pre- and Post-implantation Embryos and Placenta

OBJECTIVES LAT-1 (L-type amino acid transporter 1) is a system L, Na(+)-independent amino acid transporter responsible for transport of large neutral amino acids. Dysregulated expression of LAT-1 is characteristic of many primary human cancers and is related to tumor invasion. Primary rat hepatocytes in culture increase LAT-1 mRNA in response to amino acid depletion. Transformed hepatic cell lines demonstrate constitutive expression of LAT-1. These observations suggest that LAT-1 expression confers a growth and survival advantage under limited amino acid availability. LAT-1 is highly expressed in the placenta. It has been shown previously that amino acids are fundamental regulators of cell function and energy metabolism in pre-implantation embryos. Our objectives were to analyze qualitatively and quantitatively LAT-1 expression in pre-implantation stages of mouse embryo development and to identify cell types expressing LAT-1 in post-implantation stages. METHODS LAT-1 was quantified by real-time qPCR. Localization of expression was by laser capture microdissection, in situ hybridization and immunohistochemistry. RESULTS Our results show increasing mRNA levels of LAT-1 as the embryo develops from zygote to blastocyst with highest levels at hatching blastocyst. Expression studies of LAT-1 on microdissected samples from developing mouse placenta show highest levels of LAT-1 mRNA in trophoblast giant cells (TGCs) at the time of implantation (E7.5), followed by maternal decidua, ectoplacental cone and epiblast. At later stages of development (E9.5 and E11.5) no differential expression of LAT-1 was observed. In situ hybridization and immunohistochemistry also showed differential expression of LAT-1 mRNA and protein, respectively, with darkest staining in TGCs at E7.5. By E9.5 and E11.5 mRNA expression was no longer preferentially localized to TGCs, hybridization was equal across the different cell types and regions. LAT-1 protein expression, however, still showed highest intensity of staining in TGCs at E9.5 and E11.5. CONCLUSIONS Since trophoblast giant cells are invasive cells that displace and phagocytose the uterine epithelial cells, these data suggest that LAT-1 may play a role in the invasive phenotype. The mechanism of LAT-1 regulation during placentation, therefore, might provide valuable clues to its role in tumor progression and invasion.

An inverted cAMP response element mediates the cAMP induction of the ovine β1-adrenergic receptor gene

We identified an inverted, functional cAMP response element (CRE) located at ‐1599 bp relative to the translation start site within the ovine β1‐adrenergic receptor (β1AR) gene promoter. In transfection studies with SK‐N‐MC cells, a 40‐bp oligonucleotide containing the potential CRE, β1AR‐CRE, conferred a 3‐ to 4‐fold increase in luciferase activity mediated by cAMP. The induction was mimicked by co‐transfecting the cells with a vector overexpressing the α‐catalytic subunit of the cAMP‐dependent protein kinase (PKA) without treatment, and was blocked by overexpressing a PKA inhibitor (PKI). In electrophoretic mobility shift assays, a discrete binding pattern was shown in cell nuclear extract probed with the 40 bp β1AR‐CRE. The binding was shown to be specific and supershifted by addition of a CRE binding protein (CREB‐1) antibody. These data demonstrate that cAMP mediates the induction of β1AR gene expression by interacting with an inverted CRE within the promoter region. This is the first reported functional CRE among all β1AR genes.

Haplotype-dependent Differential Activation of the Human IL-10 Gene Promoter in Macrophages and Trophoblasts: Implications for Placental IL-10 Deficiency and Pregnancy Complications

Citation Sharma S, Stabila J, Pietras L, Singh AR, McGonnigal B, Ernerudh J, Matthiesen L, Padbury JF. Haplotype‐dependent differential activation of the human IL‐10 gene promoter in macrophages and trophoblasts: Implications for placental IL‐10 deficiency and pregnancy complications. Am J Reprod Immunol 2010; 64: 179–187

Liganded and Unliganded Steroid Receptor Modulation of Beta 1 Adrenergic Receptor Gene Transcription

The classical model of gene regulation by hormones involves a hormone-bound receptor interacting with a DNA response element to increase or decrease gene transcription. Steroid hormone regulation more commonly involves atypical cis-elements, co-receptors, accessory proteins, and unique modes of interaction on different genes. The thyroid hormone and retinoic acid receptors belong to the super family of steroid nuclear receptors and may modify gene expression even in the absence of ligand binding. In these studies, we characterized thyroid receptor– and retinoic acid receptor–mediated regulation of β1 adrenergic receptor (β1AR) gene expression. Using cloned fragments of the ovine β1AR in a luciferase reporter vector, we examined the effects of thyroid receptor and retinoic acid receptor, alone and in combination with T3 or retinoic acid on β1AR expression. We examined expression in SK-N-SH neuroblastoma cells, CV-1 fibroblasts, and, in neonatal rat, primary cardiomyocytes. We demonstrated that even in the absence of ligand binding, thyroid receptor and retinoic acid receptor can significantly increase β1AR transcription activity. This effect is important in the developmental transition in β1AR expression during fetal and postnatal life.

Liganded and Unliganded Thyroid Hormone Receptor Modulation of β 1 Adrenergic Receptor Gene Transcription

Liganded and Unliganded Thyroid Hormone Receptor Modulation of β 1 Adrenergic Receptor Gene Transcription