Thyroid hormone differentially regulates cellular development in neonatal rat heart and kidney.

The role of thyroid hormone in the control of cardiac and renal cell development was examined in neonatal rats made hyperthyroid by administration of triiodothyronine (T3, 0.1 mg/kg s.c. on postnatal days 1-5) or hypothyroid by administration of propylthiouracil (PTU, 20 mg/kg s.c. given to dams on gestational day 17 through postnatal day 5 and to pups on postnatal days 1-5). Indices of total cell number (total DNA per tissue), cell packing density (DNA per g tissue), and relative cell size (protein/DNA ratio) were evaluated from birth through young adulthood. PTU administration led to primary shortfalls in cell number that were of similar magnitude in both tissues, but persisted somewhat longer in the kidney than in the heart. Deficits in cell packing density and cell size in the hypothyroid animals were secondary to the effect on cell number, displaying smaller magnitudes of effect and a lag in appearance and disappearance of the deficits compared to that for total DNA; indeed, the phase in which tissues were restoring their cell numbers was accompanied by increased cell packing density, reflecting a more rapid restitution of cell numbers than tissue weight or cell size. In contrast to the relatively similar effects of PTU on developing cardiac and renal cells, the effects of T3 were selective for the heart. Although T3 caused general growth impairment, it evoked marked cardiac overgrowth that was accompanied by a striking increase in cell number and a small increase in cell size. The cardiac hyperplasia is unique to the developing animal, as post-replicative heart cells in adult animals show only hypertrophy in response to thyroid hormone.(ABSTRACT TRUNCATED AT 250 WORDS)     

Extracellular recombinant annexin II confers UVC-radiation resistance and increases the Bcl-xL to Bax protein ratios in human UVC-radiation-sensitive cells

In this study, we found that refractoriness to ultraviolet (UVC) light-induced cell death was increased in UVC-radiation-sensitive cells derived from Cockayne syndrome patients when the cells were precultured in medium supplemented with recombinant annexin II (rANX II). In CS3BES cells, an immortal cell line derived from Cockayne syndrome patients, the rANX II supplementation-induced UVC-radiation resistance was suppressed by treatment with an anti-annexin II antibody and EGTA. The amount of biotinylated annexin II on the cell surface increased in the rANX II-supplemented cells but did not increase in the cells that were cotreated with rANX II and EGTA. The capacity to remove UVC-radiation-damaged DNA, (6-4) photoproducts and cyclobutane pyrimidine dimers, was the same in cells that were precultured with rANX II and in control cells that did not receive rANX II supplementation. The rANX II supplementation-induced UVC-radiation resistance was also observed in nucleotide excision repair-deficient cells and xeroderma pigmentosum group A-downregulated cells. The Bcl-xL to Bax protein ratios, an index of survival activity in cells exposed to lethal stresses, were increased in the cells that had been precultured in rANX II for 24 h prior to UVC irradiation. Treatment with a phosphatidylinositol 3-kinase inhibitor suppressed the increased UVC-radiation resistance and Bcl-xL to Bax ratios in the cells with rANX II supplementation. Furthermore, downregulation of Bcl-xL by siRNA transfection also suppressed the UVC-radiation resistance that was induced by rANX II supplementation. These results suggest that the increase in the Bcl-xL to Bax ratios may be associated with enhanced resistance to UVC-radiation-induced cell death.     

IGF-I and IGFBP-3 transport in the rat heart

Specific binding of IGF-binding protein (IGFBP)-3 was shown to be present in the isolated, beating rat heart. The uptake of perfused (125)I-labeled IGF-I in the beating heart was decreased to 9% by blocking IGF-I binding sites with the IGF-I analog Long R(3) (LR(3)) IGF-I. When LR(3) was perfused with complexes of (125)I-IGF-I. IGFBP-3, uptake of (125)I-IGF-I was decreased to 41%, which was significantly greater than LR(3) and (125)I-IGF-I (41 vs. 9%). These data suggest that both microvessel IGF-I and IGFBP-3 binding sites contribute to the transport of IGF-I in the perfused rat heart. This also suggests a novel and plausible mechanism whereby circulating IGFs reach sites of IGF bioactivity.     

Membrane-insertion fragments of Bcl-xL, Bax, and Bid

Apoptosis regulators of the Bcl-2 family associate with intracellular membranes from mitochondria and the endoplasmic reticulum, where they perform their function. The activity of these proteins is related to the release of apoptogenic factors, sequestered in the mitochondria, to the cytoplasm, probably through the formation of ion and/or protein transport channels. Most of these proteins contain a C-terminal putative transmembrane (TM) fragment and a pair of hydrophobic alpha helices (alpha5-alpha6) similar to the membrane insertion fragments of the ion-channel domain of diphtheria toxin and colicins. Here, we report on the membrane-insertion properties of different segments from antiapoptotic Bcl-x(L) and proapoptotic Bax and Bid, that correspond to defined alpha helices in the structure of their soluble forms. According to prediction methods, there are only two putative TM fragments in Bcl-x(L) and Bax (the C-terminal alpha helix and alpha-helix 5) and one in activated tBid (alpha-helix 6). The rest of their sequence, including the second helix of the pore-forming domain, displays only weak hydrophobic peaks, which are below the prediction threshold. Subsequent analysis by glycosylation mapping of single alpha-helix segments in a model chimeric system confirms the above predictions and allows finding an extra TM fragment made of helix alpha1 of Bax. Surprisingly, the amphipathic helices alpha6 of Bcl-x(L) and Bax and alpha7 of Bid do insert in membranes only as part of the alpha5-alpha6 (Bcl-x(L) and Bax) or alpha6-alpha7 (Bid) hairpins but not when assayed individually. This behavior suggests a synergistic insertion and folding of the two helices of the hairpin that could be due to charge complementarity and additional stability provided by turn-inducing residues present at the interhelical region. Although these data come from chimeric systems, they show direct potentiality for acquiring a membrane inserted state. Thus, the above fragments should be considered for the definition of plausible models of the active, membrane-bound species of Bcl-2 proteins.     

Transglutaminase differentially regulates growth signalling in rat perivenous and periportal hepatocytes

The influence of transglutaminase 2 (TG2) activity on the proliferative effect of epidermal growth factor (EGF) and on EGF receptor affinity in periportal hepatocytes (PPH) and perivenous hepatocytes (PVH) has been investigated using a primary culture system. PPH and PVH subpopulations have been isolated using the digitonin/collagenase perfusion technique. DNA synthesis was assessed by [3H] thymidine incorporation into hepatocytes. The assay for binding of [125I] EGF to cultured hepatocytes was analysed by Scatchard plot analysis. Pretreatment with the TG2 inhibitor monodansylcadaverine (MDC) greatly increased EGF-induced DNA synthesis in both PPH and PVH. Furthermore, [125I] EGF binding studies in PVH treated with MDC indicated that high-affinity EGF receptor expression was markedly up-regulated, whereas in PPH, there was no significant effect. Treatment with retinoic acid (RA), an inducer of TG2 expression, significantly decreased EGF-induced DNA synthesis in both PPH and PVH. Binding studies in the presence of RA revealed that the high-affinity EGF receptor was down-regulated and completely absent in both PPH and PVH. These results suggest that TG2 was involved in the differential growth capacities of PPH and PVH through down-regulation of high-affinity EGF receptors.     

Bcl-B, a novel Bcl-2 family member that differentially binds and regulates Bax and Bak

A novel human member of the Bcl-2 family was identified, Bcl-B, which is closest in amino acid sequence homology to the Boo (Diva) protein. The Bcl-B protein contains four Bcl-2 homology (BH) domains (BH1, BH2, BH3, BH4) and a predicted carboxyl-terminal transmembrane (TM) domain. The BCL-B mRNA is widely expressed in adult human tissues. The Bcl-B protein binds Bcl-2, Bcl-X(L), and Bax but not Bak. In transient transfection assays, Bcl-B suppresses apoptosis induced by Bax but not Bak. Deletion of the TM domain of Bcl-B impairs its association with intracellular organelles and diminishes its anti-apoptotic function. Bcl-B thus displays a unique pattern of selectivity for binding and regulating the function of other members of the Bcl-2 family.     

Thyroid hormone differentially regulates development of beta-adrenergic receptors, adenylate cyclase and ornithine decarboxylase in rat heart and kidney.

In mature animals, thyroid hormone produces parallel up-regulation of beta-adrenergic receptor binding sites and their linkage to adenylate cyclase; during development, these same processes may be critical in establishing the set-point for subsequent adrenergic reactivity. In the current study, we administered triiodothyronine to neonatal rats for the first five days postpartum and evaluated [125I]pindolol binding capabilities and adenylate cyclase activity in membrane preparations from heart and kidney. In the heart, hyperthyroidism elicited an initial increase in receptor density, with subsequent deficits and an eventual return to normal values by young adulthood. In contrast, the ability of isoproterenol, a beta-adrenergic agonist, to stimulate adenylate cyclase was enhanced regardless of whether receptor numbers were increased or decreased; the same effects were also present for basal adenylate cyclase activity and non-receptor-mediated stimulation by forskolin. Enhanced cyclase activity involved both increases in the magnitude of response as well as accelerated onset of the postweaning peak of enzyme activity, results which suggest a direct impact of thyroid status on the ontogenetic expression of adenylate cyclase itself. The kidney, which possesses less efficient beta-receptor coupling to adenylate cyclase in the neonate, was less drastically affected by triiodothyronine for either beta-receptor binding sites or enzyme activity. As we had previously shown that neonatal hyperthyroidism uncouples beta-receptors from growth-related enzymes, such as ornithine decarboxylase, we also evaluated whether the promotion of adenylate cyclase responses was mechanistically linked to effect on ornithine decarboxylase; administration of cyclic AMP analogs to 5 days-old rats led to inhibition of the enzyme in the heart, whereas the same treatment in 9 days-old animals was ineffective. These data suggest that thyroid hormone differentially regulates the development of beta-receptors as well as adenylate cyclase and ornithine decarboxylase, with preferential effects on tissues, such as the heart, that already possess efficient linkage of the receptors to cell transduction mechanisms at birth.     

GABA differentially regulates the gene expression of proopiomelanocortin in rat intermediate and anterior pituitary

The GABAergic regulation of proopiomelanocortin messenger RNA (POMC mRNA) levels in rat pituitary was investigated using molecular hybridization of DNA complementary to POMC mRNA. Endogenous GABA levels increased, in vivo, by inhibiting the GABA catabolic enzyme GABA-transaminase (GAT) with ethalonamine-O-sulfate (EOS) or with vinyl-GABA (VG). Rats were treated with VG (100 mg/kg or 800 mg/kg) or EOS (100 mg/kg), administered each second day. GABA levels in the neurointermediate lobe (NIL) and anterior lobe (AL) of the hypophysis and in the hypothalamus were significantly increased following 4 days of VG treatment (800 mg/kg). All treatments resulted in a 40-60% decrease in POMC mRNA levels after 4 days in the NIL but not in the AL. A similar decrease of about 60% in POMC mRNA levels in the NIL was seen when EOS was given in the drinking water (5 mg/ml). In this set of experiments the time course of alteration of POMC mRNA in the NIL and the concentration of alpha-MSH, a POMC-derived peptide, were analysed. After one day of EOS treatment, when POMC levels had already decreased by 40%, alpha-MSH levels were significantly elevated (34% above controls), possibly reflecting an inhibition of alpha-MSH secretion. However, after 4 and 8 days, POMC mRNA levels and tissue alpha-MSH levels had significantly decreased. When tested in vitro, on primary cultures of IL cells, GABA (10 microM) reduced POMC mRNA levels by 40% after 3 days of treatment. These results show that GABA exerts a direct inhibitory effect on POMC gene expression in the intermediate lobe.     

The C-terminal helix of Bcl-xL mediates Bax retrotranslocation from the mitochondria

The proapoptotic Bcl-2 protein Bax can commit a cell to apoptosis by translocation from the cytosol to the mitochondria and permeabilization of the outer mitochondrial membrane. Prosurvival Bcl-2 family members, such as Bcl-x_L, control Bax activity. Bcl-x_L recognizes Bax after a conformational change in the N-terminal segment of Bax on the mitochondria and retrotranslocates it back into the cytoplasm, stabilizing the inactive form of Bax. Here we show that Bax retrotranslocation depends on the C-terminal helix of Bcl-x_L. Deletion or substitution of this segment reduces Bax retrotranslocation and correlates with the accumulation of GFP-tagged or endogenous Bax on the mitochondria of non-apoptotic cells. Unexpectedly, the substitution of the Bcl-x_L membrane anchor by the corresponding Bax segment reverses the Bax retrotranslocation activity of Bcl-x_L, but not that of Bcl-x_L shuttling. Bax retrotranslocation depends on interaction to the Bcl-x_L membrane anchor and interaction between the Bax BH3 domain and the Bcl-x_L hydrophobic cleft. Interference with either interaction increases mitochondrial levels of endogenous Bax. In healthy cells, mitochondrial Bax does not permeabilize the outer mitochondrial membrane, but increases cell death after apoptosis induction.     

Bradykinin elicits "second window" myocardial protection in rat heart through an NO-dependent mechanism

Bradykinin is an important endogenous mediator exerting acute protective effects in the ischemic myocardium. The aims of this study were to investigate whether exogenously administered bradykinin could evoke delayed myocardial protection and to determine whether any protection observed might be dependent on nitric oxide (NO) generation. Conscious rats received bradykinin (40 microg/kg iv) or saline, preceded 15-20 min earlier by the NO synthase inhibitor N(omega)-nitro-L-arginine methyl ester (L-NAME, 10 mg/kg ip) or saline. Twenty-four hours later, hearts were Langendorff perfused and subjected to 35 min of regional ischemia and 120 min of reperfusion. Infarct size was assessed using tetrazolium staining and expressed as a percentage of the risk zone. Bradykinin pretreatment reduced the infarct-to-risk ratio from 53.5 +/- 3.2% to 29.1 +/- 4.7% (P < 0.01). The administration of L-NAME before bradykinin abrogated the delayed protection (infarct size 52.3 +/- 5.0%) but alone did not influence infarct size (53.5 +/- 4.8%). These results are the first to demonstrate that bradykinin can evoke a delayed ("second window") enhancement of myocardial tolerance to ischemia, an action that is dependent on the early generation of NO.     

Ischemic preconditioning of the whole heart confers protection on subsequently isolated ventricular myocytes

Current cellular models of ischemic preconditioning (IPC) rely on inducing preconditioning in vitro and may not accurately represent complex pathways triggered by IPC in the intact heart. Here, we show that it is possible to precondition the intact heart and to subsequently isolate individual ventricular myocytes that retain the protection triggered by IPC. Myocytes isolated from Langendorff-perfused hearts preconditioned with three cycles of ischemia-reperfusion were exposed to metabolic inhibition and reenergization. Injury was assessed from induction of hypercontracture and loss of Ca(2+) homeostasis and contractile function. IPC induced an immediate window of protection in isolated myocytes, with 64.3 +/- 7.6% of IPC myocytes recovering Ca(2+) homeostasis compared with 16.9 +/- 2.4% of control myocytes (P < 0.01). Similarly, 64.1 +/- 5.9% of IPC myocytes recovered contractile function compared with 15.3 +/- 2.2% of control myocytes (P < 0.01). Protection was prevented by the presence of 0.5 mM 5-hydroxydecanoate during the preconditioning stimulus. This early protection disappeared after 6 h, but a second window of protection developed 24 h after preconditioning, with 54.9 +/- 4.7% of preconditioned myocytes recovering Ca(2+) homeostasis compared with 12.6 +/- 2.9% of control myocytes (P < 0.01). These data show that "true" IPC of the heart confers both windows of protection in the isolated myocytes, with a similar temporal relationship to in vivo preconditioning of the whole heart. The model should allow future studies in isolated cells of the protective mechanisms induced by true ischemia.     

Ghrelin regulates Bax and PCNA but not Bcl-2 expressions following scrotal hyperthermia in the rat

More recently, we have reported the beneficial effects of ghrelin in improvement of histopathological features of the rat testis following local heat exposure. However, the exact mechanism and the precise role of apoptosis- and proliferation-specific proteins in this regeneration process remained to be explored. Thus, thirty adult male Wistar rats were allotted for the experiment and subdivided equally into three groups: control-saline (CS), heat-saline (HS) and heat-ghrelin (HG). The scrota of HS and HG groups were immersed once in water bath at 43 °C for 15 min. HG animals received 2 nmol of ghrelin subcutaneously immediately after heating every other day until day 60 and the other groups were given physiological saline using the same method. The testes of all groups were taken after rat killing on days 30 and 60 after heat treatment for immunocytochemical detection of pro-apoptotic factor Bax, anti-apoptotic protein Bcl-2 and proliferation-associated peptide PCNA in the germ cells. Ghrelin could significantly suppress the Bax expression in spermatocytes compared to the HS group at day 30 (P < 0.05). Likewise, the mean percentages of spermatogonia containing Bax substance were lower in ghrelin-exposed animals, however the differences were not statistically significant. There were immunoreactive cells against Bcl-2 in each germ cell neither in the control nor in the heated animals of experimental groups. In contrast, the number of PCNA immunolabeling cells were higher in HG group in compared to HS or CS animals on both experimental days (P < 0.001). Down-regulation of Bax expression concurrent with overexpression of PCNA in HG group indicates the ability of ghrelin in acceleration of testicular germ cells regeneration following heat stress. These findings indicate that ghrelin may be used as a novel and efficient antioxidant agent to induce resumption of spermatogenesis upon environmental heat exposure.     

Bcl-xL regulates apoptosis by heterodimerization-dependent and -independent mechanisms.

A hydrophobic cleft formed by the BH1, BH2 and BH3 domains of Bcl-xL is responsible for interactions between Bcl-xL and BH3-containing death agonists. Mutants were constructed which did not bind to Bax but retained anti-apoptotic activity. Since Bcl-xL can form an ion channel in synthetic lipid membranes, the possibility that this property has a role in heterodimerization-independent cell survival was tested by replacing amino acids within the predicted channel-forming domain with the corresponding amino acids from Bax. The resulting chimera showed a reduced ability to adopt an open conductance state over a wide range of membrane potentials. Although this construct retained the ability to heterodimerize with Bax and to inhibit apoptosis, when a mutation was introduced that rendered the chimera incapable of heterodimerization, the resulting protein failed to prevent both apoptosis in mammalian cells and Bax-mediated growth defect in yeast. Similar to mammalian cells undergoing apoptosis, yeast cells expressing Bax exhibited changes in mitochondrial properties that were inhibited by Bcl-xL through heterodimerization-dependent and -independent mechanisms. These data suggest that Bcl-xL regulates cell survival by at least two distinct mechanisms; one is associated with heterodimerization and the other with the ability to form a sustained ion channel.     

Insulin differentially regulates protein phosphotyrosine phosphatase activity in rat hepatoma cells.

We have studied the effect of insulin stimulation on phosphotyrosine phosphatase (PTPase) activity in the well-differentiated rat hepatoma cell line Fao. PTPase activity was measured using a 32P-labeled peptide corresponding to the major site of insulin receptor autophosphorylation. Of the PTPase activity in Fao cells, 14% was in the cytosolic fraction, whereas 86% was in the particulate fraction; this latter fraction also had a 4-fold higher specific activity. Purification of the particulate fraction by lectin chromatography resulted in a 50% increase in specific activity, although this glycoprotein-rich fraction contained only 1.5% of the total activity. Both the cytosolic and particulate PTPase fractions were active toward the tyrosyl-phosphorylated insulin receptor in vitro. The activity of the particulate fraction but not the cytosolic fraction was inhibited by addition of a micromolar concentration of a phosphorylated peptide corresponding to residues 1142-1153 of the human insulin receptor sequence. By contrast, addition of the nonphosphorylated peptide even at millimolar concentration was without effect. Both PTPase fractions were inhibited by Zn+ at similar concentrations, whereas the cytosolic PTPase activity was 10-fold more sensitive to vanadate inhibition. Treatment of cells with 100 nM insulin increased PTPase activity in the particulate fraction by 40% and decreased activity in the cytosolic fraction by 35%. These effects occurred within 15 min and were half-maximal at 3-4 nM insulin. When assessed as total activity, the magnitude of the changes in PTPase activity in the particulate and cytosolic fractions could not be explained on the basis of a translocation of PTPases between the two pools.(ABSTRACT TRUNCATED AT 250 WORDS)     

Distribution of IGF-I mRNA and IGF-I binding sites in the rat kidney

Summary In the present study we have investigated the distribution of IGF-I mRNA and IGF-I binding sites in the rat kidney. The distribution of IGF-I mRNA was investigated using a simple and sensitive non-radioactive in situ hybridisation technique based on probe labelling with digoxigenin labelled-UTP followed by detection with conventional immunocytochemical techniques. IGF-I mRNA was found predominantly in medullary collecting ducts and sparsely in cortical collecting duct cells. In addition IGF-I mRNA was expressed in scattered proximal tubular cells in the cortex and in cells confined to the glomerular tuft. IGF-I binding sites were studied using radiolabelled IGF-I and conventional autoradiographical techniques on tissue sections. It was found that IGF-I binding sites were widely distributed throughout the entire kidney and that the specific binding was highest in the inner medulla. These findings add further complexity to the understanding of IGF-I production and action on renal structures.     

Bcl-xL stimulates Bax relocation to mitochondria and primes cells to ABT-737

Bax cytosol-to-mitochondria translocation is a central event of the intrinsic pathway of apoptosis. Bcl-xL is an important regulator of this event and was recently shown to promote the retrotranslocation of mitochondrial Bax to the cytosol. The present study identifies a new aspect of the regulation of Bax localization by Bcl-xL: in addition to its role in Bax inhibition and retrotranslocation, we found that, like with Bcl-2, an increase of Bcl-xL expression levels led to an increase of Bax mitochondrial content. This finding was substantiated both in pro-lymphocytic FL5.12 cells and a yeast reporting system. Bcl-xL-dependent increase of mitochondrial Bax is counterbalanced by retrotranslocation, as we observed that Bcl-xLΔC, which is unable to promote Bax retrotranslocation, was more efficient than the full-length protein in stimulating Bax relocation to mitochondria. Interestingly, cells overexpressing Bcl-xL were more sensitive to apoptosis upon treatment with the BH3-mimetic ABT-737, suggesting that despite its role in Bax inhibition, Bcl-xL also primes mitochondria to permeabilization and cytochrome c release.     

Distribution of IGF-I mRNA and IGF-I binding sites in the rat kidney.

In the present study we have investigated the distribution of IGF-I mRNA and IGF-I binding sites in the rat kidney. The distribution of IGF-I mRNA was investigated using a simple and sensitive non-radioactive in situ hybridisation technique based on probe labelling with digoxigenin labelled-UTP followed by detection with conventional immunocytochemical techniques. IGF-I mRNA was found predominantly in medullary collecting ducts and sparsely in cortical collecting duct cells. In addition IGF-I mRNA was expressed in scattered proximal tubular cells in the cortex and in cells confined to the glomerular tuft. IGF-I binding sites were studied using radiolabelled IGF-I and conventional autoradiographical techniques on tissue sections. It was found that IGF-I binding sites were widely distributed throughout the entire kidney and that the specific binding was highest in the inner medulla. These findings add further complexity to the understanding of IGF-I production and action on renal structures.     

Hypoxia differentially regulates nutrient transport in rat jejunum regardless of luminal nutrient present

Aggressive enteral nutrition and poor intestinal perfusion are hypothesized to play an important pathogenic role in nonocclusive small bowel necrosis. This study tests the hypothesis that glucose and glutamine transport are differentially regulated during hypoxia regardless of the luminal nutrient present. Sprague-Dawley rats (247 +/- 3 g; n = 16) were randomized to receive 1 h of intestinal hypoxia or serve as normoxic controls. During this hour, jejunal loops were randomized to receive in situ perfusions of mannitol, glucose, or glutamine. When compared with normoxic groups, glucose but not glutamine transport was impaired (P < 0.001) during hypoxia. Messenger RNA abundance of the sodium glucose cotransporter sodium-dependent glucose cotransporter-1 (SGLT-1) and neutral basic amino acid transporter B(o) did not differ with hypoxia or nutrient perfused. Jejunal brush-border SGLT-1 abundance was decreased (P = 0.039) with hypoxia; however, total cellular SGLT-1 protein abundance did not differ among treatment groups. These data indicate that SGLT-1 activity is regulated during hypoxia at the posttranslational level. Additional information regarding the mechanisms regulating nutrient transport in the hypoperfused intestine is critical for optimizing the composition of enteral nutrient formulas.