Energy Metabolism of Human Neutrophils during Phagocytosis

Borregaard, Niels; Herlin, Troels

doi:10.1172/jci110647

Cited by 437 publications

(408 citation statements)

References 30 publications

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“…On the basis of cell volume, this number is close to the values found in human neutrophils [24] and human lymphocytes [25], but is about 2.5-fold higher than in rabbit reticulocytes [26] and even more than 150-times higher than in rabbit [26] and human [27] erythrocytes. Compared to other cells, therefore, platelets have a high ATP turnover, which is the more puzzling since platelets lack a number of energy-consuming processes that are common in many other cells, such as protein synthesis, biosynthesis of complex carbohydrates, etc.…”

Section: Discussionsupporting

confidence: 80%

Metabolic energy is required in human platelets at any stage during optical aggregation and secretion

Verhoeven¹,

Mommersteeg²,

Akkerman³

1984

Biochimica et Biophysica Acta (BBA) - General Subjects

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The relationship between metabolic energy and platelet aggregation and secretion was investigated by sudden exhaustion of the cell energy content after these platelet responses had been initiated. In normal platelets, optical aggregation was at any stage susceptible to energy exhaustion, whereas single platelet disappearance and secretion were hardly affected. Prelowering the platelet energy content, while preserving the adenylate energy charge, made both optical aggregation and the secretion from dense, a-and acid hydrolase-containing granules susceptible to energy exhaustion, but single platelet disappearance was not affected. Complete arrest of secretion occurred when the energy content had fallen below 3-3.5 pmol ATP equivalents (ATPeq)/10 u platelets, while optical aggregation was interrupted below 2-2.5 pmol ATPeq/I0 n platelets. At any stage of optical aggregation and the three secretion responses, the dependence on energy remained the same, indicating a tight coupling between these functions and metabolic energy, which held during the entire responses.

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Section: Discussionsupporting

confidence: 80%

Metabolic energy is required in human platelets at any stage during optical aggregation and secretion

Verhoeven¹,

Mommersteeg²,

Akkerman³

1984

Biochimica et Biophysica Acta (BBA) - General Subjects

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“…This can be explained by the fact that neutrophils mainly use glycolysis rather than mitochondrial oxidative phosphorylation for their energy supply. 2 Accordingly, inhibitors of glycolysis such as sodium iodoacetate and 2-deoxyglucose caused a profound ATP loss with less than 1% of ATP remaining in comparison to untreated neutrophils ( Figure 1; and data not shown). Moreover, two important mitochondrial enzymes, glutamate dehydrogenase (GDH) and fumarase, which are often used as markers of mitochondria, 10-12 displayed a borderline low activity in neutrophils in contrast to HL-60 cells, which have actively respiring mitochondria 13,14 (Figure 2).…”

Section: Resultsmentioning

confidence: 88%

“…This point of view was mainly based on the observation that mitochondrial poisons like cyanides do not influence cellular functions in neutrophils. 2 Moreover, electron microscopy studies identified hardly any mitochondria in neutrophils (see the references in Fossati et al 3 ), and mitochondrial respiration was found to be very low in these cells. 4 However, mitochondria have been recently visualized in neutrophils as a tubular network, by means of specific fluorescent dyes.…”

Section: Introductionmentioning

confidence: 99%

Functional characterization of mitochondria in neutrophils: a role restricted to apoptosis

et al. 2003

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Mitochondria are known to combine life-supporting functions with participation in apoptosis by controlling caspase activity. Here, we report that in human blood neutrophils the mitochondria are different, because they preserve mainly death-mediating abilities. Neutrophil mitochondria hardly participate in ATP synthesis, and have a very low activity of the tested marker enzymes. The presence of mitochondria in neutrophils was confirmed by quantification of mitochondrial DNA copy number, by detection of mitochondrial porin, and by JC-1 measurement of Dw m . During neutrophilic differentiation, HL-60 cells demonstrated a profound cytochrome c depletion and mitochondrial shape change reminiscent of neutrophils. However, blood neutrophils containing extremely low amounts of cytochrome c displayed strong caspase-9 activation during apoptosis, which was also observed in apoptotic neutrophil-derived cytoplasts lacking any detectable cytochrome c. We suggest that other proapoptotic factors such as Smac/DIABLO and HtrA2/Omi, which are massively released from the mitochondria, have an important role in neutrophil apoptosis.

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“…high 5 0 -AMP levels), could contribute to save ATP. Early reports on phagocytic cells have reported an enhanced requirement of energy when these become activated during phagocytosis, or by treatment with PMA and lipopolysaccharides [23]. It is known that endogenous levels of ATP are depleted during phagocytosis [23,25], and hence the requirement of extra energy to provide NADPH as a substrate for the oxidase reaction during phagocytosis could be provided by an enhancement of glycogen degradation and glucose oxidation through glycolysis [23].…”

Section: Discussionmentioning

confidence: 99%

“…Early reports on phagocytic cells have reported an enhanced requirement of energy when these become activated during phagocytosis, or by treatment with PMA and lipopolysaccharides [23]. It is known that endogenous levels of ATP are depleted during phagocytosis [23,25], and hence the requirement of extra energy to provide NADPH as a substrate for the oxidase reaction during phagocytosis could be provided by an enhancement of glycogen degradation and glucose oxidation through glycolysis [23]. We have reported that activated peritoneal macrophages from Escherichia coli-treated rats showed an enhanced glycolytic rate, as measured on the basis of fructose 2,6-bisphosphate levels, a stimulator of this metabolic pathway, as well as by lactate production [45].…”

Section: Discussionmentioning

confidence: 99%

Stimulators of AMP‐activated protein kinase inhibit the respiratory burst in human neutrophils

et al. 2004

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In the present study, we have examined the potential ability of 5 0 -AMP-activated protein kinase (AMPK) to modulate NADPH oxidase activity in human neutrophils. AMPK activated with either 5 0 -aminoimidazole-4-carboxamide ribonucleoside (AICAR) or with 5 0 -AMP significantly attenuated both phorbol 12-myristate 13-acetate (PMA) and formyl methionyl leucyl phenylalanine-stimulated superoxide anion ðO À 2 Þ release by human neutrophils, consistently with a reduced translocation to the cell membrane and phosphorylation of a cytosolic component of NADPH oxidase, namely p47 phox . AMPK was found to be present in human neutrophils and to become phosphorylated in response to either AICAR or other stimulators of its enzyme activity. Furthermore, AICAR also strongly reduced PMA-dependent H 2 O 2 release, and induced the phosphorylation of c-jun N-terminal kinase 1 (p46), p38 mitogenactivated protein kinase and extracellular signal-regulated kinase. Present data demonstrate for the first time that the activation of AMPK, in states of low cellular energy charge (such as under high levels of 5 0 -AMP) or other signals, could be a factor contributing to reduce the host defense mechanisms.

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Energy Metabolism of Human Neutrophils during Phagocytosis

Cited by 437 publications

References 30 publications

Metabolic energy is required in human platelets at any stage during optical aggregation and secretion

Metabolic energy is required in human platelets at any stage during optical aggregation and secretion

Functional characterization of mitochondria in neutrophils: a role restricted to apoptosis

Stimulators of AMP‐activated protein kinase inhibit the respiratory burst in human neutrophils

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