Plasma concentration of myeloperoxidase enzyme in pre- and post-climacterial people: related superoxide anion generation.

Neutrophil granulocytes are involved in the pathogenesis of atherosclerosis also through their free radical generation. The aim of the study was to test how extracellular levels of myeloperoxidase (MPO; a granulocyte enzyme playing role in free radical production) change by age and what effect this change has on the production of the free radical superoxide anion by neutrophils. We also wanted to examine whether the antioxidant effect of different steroid hormones is realized through the MPO. Plasma myeloperoxidase concentrations of healthy blood donors were quantified by ELISA. Superoxide anion production was measured by photometry. Myeloperoxidase concentration was significantly lower in plasmas obtained from older women and men than in those from younger subjects. Adding the MPO inhibitors 4-aminobenzoic acid hydrazide (ABAH) and indomethacin to the granulocytes, the generation of superoxide anion increased and the decreasing effect of the steroids on superoxide production was inhibited. Incubating the neutrophils with the product of the reaction catalyzed by MPO itself (hypochlorite anion), we found significant decrease in superoxide generation. According to our results MPO seems to diminish the production of superoxide anion and so probably has an antioxidant ability. Therefore, its lower plasma levels may contribute to the increasing incidence of atherosclerosis and other free radical mediated disorders in old people. Thus, after further studies MPO might become one of the indicators of cardiovascular risk and the scavenger capacity in general.     

Aging and hematopoiesis. VI. Neutrophilia and other leukocyte changes in aged mice

The concentration of blood leukocytes rose progressively as mice aged. All blood leukocytes increased, although a greater degree of increase was seen in neutrophils and monocytes than in lymphocytes and eosinophils. The total number of nucleated cells per marrow cavity of the humerus was also higher in aged than in young adult mice, the increase primarily reflecting peroxidase-positive cells. Both blood and marrow neutrophils of aged mice responded to perturbations induced by bleeding or by endotoxin injection in a manner qualitatively similar to that seen in young adults. When hematopoietic chimeras were produced by marrow transplantation, blood and marrow neutrophils were characteristic of the age of the recipient, not the cells; i.e., young mice kept a "young" neutrophil pattern and old mice kept an "old" neutrophil pattern when given marrow from either old or young mice. Colonies of granulocytes and/or monocyte-macrophages were grown from young marrow cells placed in plasma clots in Millipore chambers in the peritoneal cavity. The number of colonies was the same in young and in old mice, suggesting that long-range humoral stimulation of cell growth was similar in young and old. Thus, neutrophilia due to increased neutrophil production appears to be a normal part of the aging process in the mouse. The increase in neutrophil production may be due to a changing hematopoietic microenvironment.     

Rat enterocyte injury by oxygen-dependent processes.

Neutrophils migrate to areas of inflammation and, when stimulated, produce O2-, H2O2, and other reactive O2 metabolites. To assess the effects of stimulated neutrophils on enterocytes, rat enterocytes were incubated with peripheral neutrophils. To assess cell viability, trypan blue exclusion and lactate dehydrogenase and protein release were measured. When 10(6) enterocytes/mL were incubated with 2.5 x 10(5) neutrophils/mL stimulated with phorbol myristate acetate, trypan blue exclusion decreased and lactate dehydrogenase and protein release increased. With the addition of 0.10 mg/mL of superoxide dismutase, trypan blue exclusion further decreased and lactate dehydrogenase and protein release increased. This suggests that H2O2- or H2O2/O2(-)-derived metabolites are more damaging to isolated enterocytes than O2-. To test this hypothesis, enterocytes were incubated with xanthine and increasing concentrations of xanthine oxidase in the presence and absence of superoxide dismutase. With increasing concentrations of xanthine oxidase, the cell number decreased and protein release increased. With the addition of superoxide dismutase, fewer cells were present, suggesting that cell lysis occurred. Protein release was further increased by the addition of superoxide dismutase. Enterocytes were then incubated with leucine and increasing concentrations of amino acid oxidase. With increasing concentrations of amino acid oxidase, trypan blue exclusion decreased and protein and lactate dehydrogenase release increased. These effects were ameliorated by the addition of 500 IU catalase/mL. These data suggest that O2- and H2O2, whether created by stimulated neutrophils or an enzyme-generating system, are damaging to isolated enterocytes. Superoxide dismutase did not offer enterocytes protection.     

Peritoneal macrophages function modulation by L-carnitine in aging rats

BACKGROUND AND AIMS: The aging process is associated with a progressive decline in physiological functions involving immune response in most species. The aim of the present study was to determine the effect of L-carnitine on impaired macrophages function in aged rats. METHODS: Superoxide anion production, chemotaxis and phagocytic activity were studied in peritoneal macrophages obtained from young (2 months old) and aged (24 months old) rats. L-carnitine (50 mg/kg bw) or control vehicle was orally gavaged into young and aged rats for 30 consecutive days. RESULTS: The peritoneal macrophages of the aged rats exhibited an increase in superoxide anion generation and a decline in chemotaxis and phagocytic index by comparison with the young rats. Superoxide anion production in aged rats was significantly reduced by L-carnitine treatment, as accompanied by a significant enhancement of chemotactic activity, which was restored to control levels observed in young rats. The age-related reduction in phagocytic index was only slightly, but not significantly, restored by L-carnitine administration, however. CONCLUSION: The findings suggest that L-carnitine administration may be useful in reversing some age-related changes.     

Evidence that microenvironmental factors account for the age-related decline in neutrophil function

We measured the function of neutrophils harvested from the supernatant of long-term marrow cultures in which stromal cell cultures derived from young mice were recharged with hematopoietic cells from old mice and vice versa. The functions measured were superoxide generation and enzyme secretion (lysozyme and glucuronidase), following cell activation by either phorbol myristate acetate (PMA) or Formyl- methionyl-leucyl-phenylalanine (FMLP). In addition we measured cytosolic calcium concentration and its increase following activation by FMLP. In all culture combinations recharge resulted in the recovery of greater than 2 X 10(6) cells/flask (95% neutrophils, 98% viable). Histologic studies of cytoplasmic markers indicated that recovered neutrophils were derived from the stem cell population employed for recharge. For each neutrophil parameter measured, function was markedly improved when old hematopoietic stem cells were recharged onto a young stroma and was significantly diminished when young stem cells were recharged onto an old stroma. This applied to superoxide generation, basal and stimulated enzyme levels, and to basal cytosolic calcium concentration and its increase following activation by FMLP. These results indicate that when old hematopoietic stem cells proliferate in a young microenvironment, neutrophil function returns virtually to normal. Conversely, function diminishes when young stem cells proliferate in an old stroma. These findings demonstrate, for the first time, that neutrophil function is modulated by microenvironmental factors, hormonal, cellular, or matrix, which are decreased in the elderly. That an age-related decline in function is extrinsic to the cell and is reversible has significance for the study of neutrophil function and of cellular aging and has potential therapeutic implications.     

Superoxide dismutase activity in children with chronic liver diseases

BACKGROUND/AIMS: Liver disease in infancy has multiple etiologies. As reactive oxygen intermediates are involved in several types of tissue damage, we have investigated whether different forms of liver disease in infancy are associated with increased free radical generation, using an indirect approach in which superoxide dismutase (a free radical scavenger) activity is determined in the liver tissue. METHODS: A total of 48 liver biopsies performed at diagnosis were evaluated retrospectively. Nine infants had biliary atresia, eight Alagille syndrome, seven alantitrypsin deficiency and 12 cryptogenic hepatitis. As controls we studied 12 biopsies with normal histology obtained from seven children with portal vein thrombosis and five children who underwent biopsy for management reason but had no liver disease. Superoxide dismutase activity in liver biopsy specimens was measured using the cytochrome C method by spectrophotometry and expressed as U SOD/mg protein. RESULTS: Superoxide dismutase activity was significantly increased in biliary atresia (1.25 +/- 0.56 U SOD/mg protein, p<0.0001) and Alagille syndrome (1.31 +/- 0.56 U SOD/mg protein, p<0.0001) as compared with al-antitrypsin deficiency (0.75 +/- 0.3 U SOD/mg protein), neonatal hepatitis (0.72 +/- 0.37 U. SOD/mg protein) and normal controls (0.4 +/- 0.7 U. SOD/mg protein). The highest level of SOD activity was found, however, in control children with portal vein thrombosis (2.09 +/- 0.96 U SOD/mg protein; p<0.0001 as compared to the other groups). CONCLUSION: Superoxide dismutase, a key enzyme in free radical protection, is increased significantly in the liver tissue of infants with cholestatic liver disease due to bile duct damage and in children with portal vein thrombosis, suggesting that products of free radical reactions are involved in the pathogenesis of these disorders.     

Effect of donor and culture age on the function of neutrophils harvested from long-term bone marrow culture

Neutrophils harvested from the supernatants of long-term bone marrow cultures that were initiated from young and old mice were tested for their functional activity. Superoxide generation was measured, as was the secretion of the enzymes lysozyme, myeloperoxidase, and glucuronidase, both basally and following stimulation by phorbol myristate acetate. The function of the neutrophils harvested from cultures that were initiated from young mice was identical to that of cells derived from young mouse peritoneal cavities at the time of death. A minimal decline in function in culture-derived cells was seen over the 15-18 weeks of study. For each of the above measurements examined, neutrophils obtained from cultures initiated from old mice gave values significantly lower than those in neutrophils recovered from cultures initiated from young mice. For some parameters (superoxide generation, myeloperoxidase), the rate of decline in function was more rapid for neutrophils from old rather than young mouse cultures. For other measurements the rates of decline were equal. The results indicated adequate neutrophil function in long-term bone marrow culture for extended periods of time. They also demonstrated that the age-related diminution in neutrophil function observed in vivo persisted in in vitro culture.     

Effect of age on second messenger generation in neutrophils.

Neutrophils from healthy elderly donors generate significantly less diacylglycerol (DAG) and inositol triphosphate (IP3) than neutrophils from young donors, following stimulation by the chemotactic peptide, formyl-methionyl-leucylphenylalanine (FMLP). The defect in signal transduction occurred at a point proximal to the generation of IP3 and DAG, since the reduction in FMLP-induced superoxide generation was corrected if the intervening signal transduction steps were bypassed, either by priming with a substimulatory dose (1.62 nmol/L) of phorbol myristate acetate (PMA), by ionophore elevation of cytosolic calcium, or by using a stimulatory dose of PMA (1.62 mumol/L). FMLP receptor number and affinity were unaffected by aging. On FMLP activation, neutrophils from old, as compared with young, volunteers showed significantly greater and more long-lasting decreases in the concentrations of phosphatidylinositol (PI), phosphatidylinositol 4-monophosphate (PIP), and phosphatidylinositol 4,5-bisphosphate (PIP2). This indicates a reduction with age in the metabolically active precursor pools responsible for the generation of IP3 and DAG. In contrast, aging had little effect on the production of phosphatidic acid (PA), which has recently been suggested to serve as a major activator of the NADPH oxidase. This may explain why the decrease in IP3 and DAG production was not accompanied by a comparable decrement in superoxide generation, which was only 17% lower in the old than in young donor neutrophils. Thus, aging is associated with reductions in the concentration of critically important phosphoinositides, resulting in diminution in the ability to produce key second messengers. Although the aged neutrophil is largely able to compensate for the decrements in signal transduction, its reserve capacity is compromised, making it particularly vulnerable to external insults that also impair function.     

Mediation of endothelial cell damage by serine proteases, but not superoxide, released from antineutrophil cytoplasmic antibody-stimulated neutrophils

OBJECTIVE: To evaluate potential mediators of endothelial cell injury in systemic vasculitis associated with antineutrophil cytoplasmic antibodies (ANCAs), we investigated the factors controlling the neutrophil respiratory burst and endothelial release of von Willebrand factor (vWF) during neutrophil-endothelial cell interactions. METHODS: Superoxide release from neutrophils binding to purified P-selectin or to tumor necrosis factor-activated endothelial cells was measured under flow or static conditions using the superoxide dismutase (SOD)-inhibitable reduction of ferricytochrome c. Neutrophils were activated with fMLP, normal IgG, or ANCA IgG. Enzyme-linked immunosorbent assay was used to measure vWF. Serine protease activity was measured enzymatically. RESULTS: ANCA IgG or fMLP induced superoxide release when perfused over neutrophils that were rolling over P-selectin, but not those that were binding to endothelial cells. In static assays, endothelial cells inhibited superoxide production by neutrophils. Adenosine inhibited the respiratory burst, and, in cocultures, adenosine deaminase overcame the inhibitory effects of endothelial cells. Serine proteases were released during activated neutrophil-endothelial cell coculture. There was enhanced release of vWF during activated neutrophil-endothelial cell coculture; this was not inhibited by diphenyleneiodonium or by SOD plus catalase, but was inhibited by diisopropylfluorophosphate. CONCLUSION: Endothelial cells inhibit superoxide generation by fMLP and ANCA-activated neutrophils. The release of vWF occurs during coculture and is sensitive to serine protease, but not NADPH oxidase inhibition. Serine proteases may play a more important role than reactive oxygen species as mediators of endothelial injury during ANCA-associated systemic vasculitis.     

Nitroarginine,an Inhibitor of Nitric Oxide Synthase,Prevents Changes in Superoxide Radical and Antioxidant Enzymes Induced by Ammonia Intoxication

Injection of large doses of ammonium salts leads to the rapid death of animals. However, the molecular mechanisms involved in ammonia toxicity remain to be clarified. We reported that injecting ammonium acetate (7 mmol/kg) to rats increases the production of superoxide and reduces the activities of some antioxidant enzymes in rat liver and brain. We proposed that these effects induced by ammonia intoxication would be mediated by formation of nitric oxide. To test this possibility we tested whether injection of nitroarginine, an inhibitor of nitric oxide synthase, prevents the effects of ammonia intoxication on antioxidant enzymes and superoxide formation. Following injection of ammonia, glutathione peroxidase, superoxide dismutase and catalase activities were decreased in liver by 42%, 54% and 44%, respectively. In brain these activities were reduced by 35%, 46% and 65%, respectively. Glutathione reductase remained unchanged. Superoxide production in submitochondrial particles from liver and brain was increased by more than 100% in both tissues. Both reduction of activity of antioxidant enzymes and increased superoxide radical production were prevented by previous injection of 45 mg/kg of nitroarginine, indicating that ammonia induces increased formation of nitric oxide, which in turn reduces the activity of antioxidant enzymes, leading to increased formation of superoxide.     

Aging increases neuronal nitric oxide release and superoxide anion generation in mesenteric arteries from spontaneously hypertensive rats

We hypothesized that neuronal NO release as well as its bioavailability and vasomotor response could be affected when aging and hypertension are present simultaneously. The neuronal nitric oxide (NO) release, its metabolism and vasomotor response induced by electrical field stimulation was analyzed in isolated segments of endothelium-denuded mesenteric arteries from young and old spontaneously hypertensive rats (SHR). The nitric oxide synthase (NOS) inhibitor N(G)-nitro-arginine-methyl ester (L-NAME) and NOS inhibitor 7-nitroindazole both strengthened electrical field stimulation-elicited contractions more in arteries from young than aged SHR rats. Superoxide dismutase (SOD) potentiated the L-NAME effect in segments from old rats, whereas catalase decreased the contractions induced by electrical field stimulation and noradrenaline but did not modify the L-NAME effect. In noradrenaline-precontracted segments, sodium nitroprusside induced a similar relaxation in arteries from both experimental groups. This relaxation was increased by SOD in old SHR. 8Br cGMP induced greater relaxation in segments from old than from young SHR. Electrical field stimulation induced a tritium release in arteries preincubated with [(3)H]-noradrenaline, that was similar in both young and old SHR rats. Electrical field stimulation induced NO(2)(-) formation, which was greater in segments from old than young SHR rats. Basal cGMP levels and those stimulated with sodium nitroprusside were similar in segments from both groups. Superoxide anion production was greater from old than young SHR rats. Peroxynitrite production induced by electrical field stimulation was only detected in segments from old SHR. The results obtained in mesenteric arteries from old SHR showed increased neuronal NO release and superoxide anion production with respect to those observed in arteries from young SHR rats. This induced decreased NO bioavailability through peroxynitrite formation. The final effect is to decrease the involvement of neuronal NO in electrical field stimulation-induced vasomotor response in arteries from old SHR rats.     

Modulatory effects of centrophenoxine on different regions of ageing rat brain

The debilitating consequences of age-related brain deterioration are widespread and extremely costly in terms of quality of life and longevity. Free radical induced damage is thought to be responsible, at least in part, for the degenerative effects of aging. This may be largely due to high-energy requirements, high oxygen consumption, high tissue concentration of iron and low of antioxidant enzymes in brain. Therefore, supplementing an external source of free radical scavenger would greatly benefit in ameliorating the free radical damage which may thus be beneficial in aging. In the present study, an important nootropic agent Centrophenoxine, which has an easy access to brain, has been administered to aged animals (16 months old). Rats aged 6 months (young group) and 16 months old (old group) were chosen for the study. Both groups were administered Centrophenoxine (dissolved in physiological saline) intraperitoneally once a day for 6 weeks. Our study indicates an increased activity of Catalase, Superoxide Dismutase, Glutathione reductase, as well as an increase in the reduced, oxidized, and total glutathione content thus resulting in an altered redox state. A substantial increase in the malondialdehyde content was also reported as a result of aging. Whereas, following Centrophenoxine administration (100 mg/kg body weight/day, injected i.p) alterations in the activities of Superoxide dismutase, Glutathione reductase as well as in the reduced and oxidized glutathione content was reported in aged rat brain. Lipid peroxidation was also reported to be significantly decreased in aged animals after Centrophenoxine supplementation for 6 weeks. The use of an extraneous antioxidant substance may prove beneficial in combating the conditions of oxidative stress in ageing brain.     

Cultured senescent myoblasts derived from human vastus lateralis exhibit normal mitochondrial ATP synthesis capacities with correlating concomitant ROS production while whole cell ATP production is decreased

The free radical theory of aging says that increased oxidative stress and mitochondrial dysfunction are associated with old age. In the present study we have investigated the effects of cellular senescence on muscle energetic by comparing mitochondrial content and function in cultured muscle satellite cells at early and late passage numbers. We show that cultured muscle satellite cells undergoing senescence express a reduced mitochondrial mass, decreased whole cell ATP level, normal to increased mitochondrial ATP production under ATP utilization, increased mitochondrial membrane potential and increased superoxide/mitochondrial mass and hydrogen peroxide/mitochondrial mass ratios. Moreover, the increased ROS production correlates with the corresponding mitochondrial ATP production. Thus, myotubes differentiated from human myoblasts undergoing senescence have a reduced mitochondrial content, but the existent mitochondria express normal to increased functional capabilities. The present data suggest that the origin of aging lies outside the mitochondria and that a malfunction in the cell might be preceding and initiating the increase of mitochondrial ATP synthesis and concomitant ROS production in the single mitochondrion in response to decreased mitochondrial mass and reduced extra-mitochondrial energy supply. This then can lead to the increased damage of DNA, lipids and proteins of the mitochondria as postulated by the free radical theory of aging.     

Aging-dependent regulation of antioxidant enzymes and redox status in chronically loaded rat dorsiflexor muscles

This study compares changes in the pro-oxidant production and buffering capacity in young and aged skeletal muscle after exposure to chronic repetitive loading (RL). The dorsiflexors from one limb of young and aged rats were loaded 3 times/week for 4.5 weeks using 80 maximal stretch-shortening contractions per session. RL increased H2O2 in tibialis anterior muscles of young and aged rats and decreased the ratio of reduced/oxidized glutathione and lipid peroxidation in aged but not young adult animals. Glutathione peroxidase (GPx) activity decreased whereas catalase activity increased with RL in muscles from young and aged rats. RL increased CuZn superoxide disumutase (SOD) and Mn SOD protein concentration and CuZn SOD activity in muscles from young but not aged animals. There were no changes in protein content for GPx-1 and catalase or messenger RNA for any of the enzymes studied. These data show that aging reduces the adaptive capacity of muscles to buffer increased pro-oxidants imposed by chronic RL.     

The role of calcium in the age-related decline of neutrophil function

Upon activation by formyl-methionyl-leucyl-phenylalanine (FMLP), either in the presence of absence of cytochalasin B, neutrophils from old subjects generated significantly less superoxide than did neutrophils from the young. This reduction in activity was associated with a significant decrease in the basal cytosolic calcium concentration and a diminished flux of calcium to the cytosol after activation. At all concentrations of FMLP tested, cytosolic calcium remained significantly lower in neutrophils from the old as compared with the young, whereas permeability to extracellular calcium and efflux of calcium from the cell were also significantly diminished. Pretreatment of the cell with the ionophore ionomycin elevated the cytosolic calcium concentration and significantly improved function in old neutrophils. These findings demonstrate that aging results in alterations in neutrophil calcium homeostasis that may play a role in the age-related decline in neutrophil function.     

Cyclooxygenases in rat Leydig cells: effects of luteinizing hormone and aging

Previous studies suggested that increased Leydig cell cyclooxygenase (COX)2 expression may be involved in the reduced testosterone production that characterizes aged Leydig cells. Our objective herein was to further elucidate the relationships among LH stimulation, Leydig cell COX2 and COX1 expression, aging, and testosterone production. Incubation of Leydig cells from young or aged rats with LH or dibutyryl cAMP resulted in increases in both intracellular COX2 protein expression and testosterone production. COX1 expression did not respond to LH or dibutyryl cAMP. Incubation of adult cells with a protein kinase A inhibitor suppressed the stimulatory effects of LH on COX2 and testosterone production. Short-term incubation of Leydig cells with TGF-alpha or IL-1beta also increased COX2 protein levels; IGF-I had no effect. In vivo, LH also was found to stimulate both COX2 and testosterone, but not COX1. As reported previously, COX2 expression was greater in old than in young cells, and old Leydig cells responded to inhibition of COX2 in vitro with increased testosterone production. However, the effects of the COX2 inhibitors were not restricted to old cells; young Leydig cells also responded to COX2 inhibition with increased testosterone production. This and the observation that the incubation of young or old cells with LH resulted in increased COX2 and testosterone production in both cases suggests that the relationship between COX2 and testosterone production is not unique to aged Leydig cells. Moreover, the close correlation between increases in COX2 and testosterone in LH-stimulated young and aged Leydig cells is difficult to reconcile with the contention that the increased expression of COX2 in aged cells is responsible for age-related suppression of Leydig cell testosterone production.     

Superoxide production by Crohn''s disease neutrophils.

Neutrophil superoxide anion production was measured in healthy subjects and in patients with quiescent and active Crohn's disease using superoxide dismutase inhibitable cytochrome C reduction. Three stimuli were used: phorbol 12-myristate 13-acetate (PMA1), phorbol 20-oxo-20-deoxy 12-myristate 13-acetate (PMA2), and Candida albicans in serum. Normal neutrophils produced significantly more superoxide anion than Crohn's disease neutrophils with both PMA1 (mean (SD) 9.6 (2.2) v 8.6 (1.8) nmol/10(6) cells/5 minutes, p = 0.04) and PMA2 (1.8 (0.8) v 0.8 (0.77) nmol/10(6) cells/5 minutes, p = 0.00004). With C albicans in serum, normal and Crohn's disease neutrophils produced similar amounts of superoxide anion (4.4 (1.5) v 4.3 (1.7) nmol/10(6) cells/30 minutes, not significant). Results were independent of disease activity. Superoxide anion production by PMA-stimulated Crohn's disease neutrophils is significantly lower than by normal neutrophils.     

Cholesterol-induced upregulation of angiotensin II and its effects on monocyte-endothelial interaction and superoxide production.

Atherogenesis involves an early endothelial dysfunction hallmarked by elevated free radical production and increased adhesiveness for monocytes. It was hypothesized that activation of the tissue renin angiotensin system may contribute to the endothelial alteration. To test this hypothesis, thoracic aortae were isolated from normocholesterolemic (NC; n = 6) and hypercholesterolemic (HC; n = 6; diet: 0.5% cholesterol; 6 weeks) New Zealand white rabbits, and incubated for 2 h with the angiotensin II (Ang II) receptor antagonist Sar-1,Ile-8-Ang II, the antioxidant pyrolidine dithiocarbamate (PDTC) and the protein kinase C (PKC) antagonist staurosporin. Superoxide production from aortic segments was measured by lucigenin-enhanced chemiluminescence. In comparison to the normocholesterolemic state, hypercholesterolemia led to a significant increase in superoxide production (221 +/- 44%, p < 0.02); this was reduced by ex vivo treatment of the vessel segment with Ang II-antagonist (to 130 +/- 29%; p < 0.04 vs HC), or PKC-antagonist (to 86 +/- 26%; p < 0.001 vs HC), or PDTC (to 103 +/- 27%; p < 0.02 vs HC). Monocyte-endothelial interaction was assessed by functional binding assay. When compared to normocholesterolemic rabbits, hypercholesterolemia led to a twofold increase in monocyte binding (74 +/- 13 vs 37 +/- 4 monocytoid cells per high power field (m/hpf); p < 0.03). The Ang II-antagonist and the PKC-antagonist led to a normalization of monocyte-endothelial binding (Ang II-antagonist: 37 +/- 9 m/hpf; PKC-antagonist: 41 +/- 17 m/hpf; p < 0.05). In conclusion, these results indicate that hypercholesterolemia activates the tissue renin angiotensin system, which results in an increased endothelial production of superoxide and monocyte adhesiveness. Ang II-antagonist inhibits free radical production and monocyte adhesion through a mechanism which may include PKC.     

Is reduced cell size the mechanism for shrinkage of the adrenal zona reticularis in aging?

In aging humans, corticosteroid production is preserved, or even increased, but there is an unexplained reduction in adrenal androgen secretion that likely has significant health implications. Preliminary analyses on adrenocortical morphology have revealed an age-associated reduction in the thickness of the zona reticularis (ZR), the cortical zone responsible for the majority of DHEA/DHEA sulfate production in the adult human, but no change in the overall thickness of the adrenal cortex. The ZR width could decrease in aging due to loss of ZR cells and/or to shrinkage of ZR cells. In the current study, we investigated whether there was a relation between thickness of the zona reticularis in young and old humans and the cell density in this zone. Paraffin-embedded sections of the adrenal cortex of 10 young (21-35 yr old) and 10 old (54-89 yr old) adults who had died suddenly as the result of trauma were stained with hematoxylin and eosin. These specimens were chosen from a larger cohort of samples for having a broad ZR in the young group and a narrower ZR in the older group. After determining the overall cortical thickness and the width of the ZR by use of computerized image analysis software, we counted the number of adrenocortical cells in two random high power fields of the ZR of each specimen. The ZR width of the older group (57 +/- 7 arbitrary units, Mean +/- SE) was significantly reduced compared to that of the young group (124 +/- 21), P < 0.001. On the other hand, the overall cortical width in the old group (232 +/- 17) was similar to that of the young adults (249 +/- 38). In the old group, the ZR comprised 24.7 +/- 3% of the total cortical width, whereas it was 50 +/- 2% of the cortical width in the young adrenals, P < 0.001. The cell density (cell number/60 x high power field) of the ZR of old adults (83 +/- 9) was similar to that of the young group (87 +/- 5). In summary, although the width of the ZR regresses with aging, cell size in this zone is preserved. Therefore, loss of trophic support for ZR cells would not appear to be the explanation for zonal shrinkage in aging. Rather, it is likely that aging effects may be due to increased cell loss in the ZR or else reduced rates of differentiation/migration of cells into this cortical zone.