Manuel Bauer scite author profile

Integrin activation is essential for the function of all blood cells, including platelets and leukocytes. The blood cell-specific FERM domain protein Kindlin-3 is required for the activation of the beta1 and beta3 integrins on platelets. Impaired activation of beta1, beta2 and beta3 integrins on platelets and leukocytes is the hallmark of a rare autosomal recessive leukocyte adhesion deficiency syndrome in humans called LAD-III, characterized by severe bleeding and impaired adhesion of leukocytes to inflamed endothelia. Here we show that Kindlin-3 also binds the beta2 integrin cytoplasmic domain and is essential for neutrophil binding and spreading on beta2 integrin-dependent ligands such as intercellular adhesion molecule-1 and the complement C3 activation product iC3b. Moreover, loss of Kindlin-3 expression abolished firm adhesion and arrest of neutrophils on activated endothelial cells in vitro and in vivo, whereas selectin-mediated rolling was unaffected. Thus, Kindlin-3 is essential to activate the beta1, beta2 and beta3 integrin classes, and loss of Kindlin-3 function is sufficient to cause a LAD-III-like phenotype in mice.

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Adenine Nucleotide Translocase-1, a Component of the Permeability Transition Pore, Can Dominantly Induce Apoptosis

Bauer

et al. 1999

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Here, we describe the isolation of adenine nucleotide translocase-1 (ANT-1) in a screen for dominant, apoptosis-inducing genes. ANT-1 is a component of the mitochondrial permeability transition complex, a protein aggregate connecting the inner with the outer mitochondrial membrane that has recently been implicated in apoptosis. ANT-1 expression led to all features of apoptosis, such as phenotypic alterations, collapse of the mitochondrial membrane potential, cytochrome c release, caspase activation, and DNA degradation. Both point mutations that impair ANT-1 in its known activity to transport ADP and ATP as well as the NH2-terminal half of the protein could still induce apoptosis. Interestingly, ANT-2, a highly homologous protein could not lead to cell death, demonstrating the specificity of the signal for apoptosis induction. In contrast to Bax, a proapoptotic Bcl-2 gene, ANT-1 was unable to elicit a form of cell death in yeast. This and the observed repression of apoptosis by the ANT-1–interacting protein cyclophilin D suggest that the suicidal effect of ANT-1 is mediated by specific protein–protein interactions within the permeability transition pore.

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P2Z purinoreceptor ligation induces activation of caspases with distinct roles in apoptotic and necrotic alterations of cell death

et al. 1999

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Myeloic cells express a peculiar surface receptor for extracellular ATP, called the P2Z/P2X U purinoreceptor, which is involved in cell death signalling. Here, we investigated the role of caspases, a family of proteases implicated in apoptosis and the cytokine secretion. We observed that extracellular ATP induced the activation of multiple caspases including caspase-1, -3 and -8, and subsequent cleavage of the caspase substrates PARP and lamin B. Using caspase inhibitors, it was found that caspases were specifically involved in ATP-induced apoptotic damage such as chromatin condensation and DNA fragmentation. In contrast, inhibition of caspases only marginally affected necrotic alterations and cell death proceeded normally whether or not nuclear damage was blocked. Our results therefore suggest that the activation of caspases by the P2Z receptor is required for apoptotic but not necrotic alterations of ATP-induced cell death.z 1999 Federation of European Biochemical Societies.

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Dysfunction of endocytic and autophagic pathways in a lysosomal storage disease

Fukuda

Ewan

Bauer

et al. 2006

Annals of Neurology

267

197

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Extracellular ATP Activates Transcription Factor NF-κB through the P2Z Purinoreceptor by Selectively Targeting NF-κB p65 (RelA)

et al. 1997

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Cells of the macrophage lineage express a peculiar surface receptor for extracellular ATP, designated P2Z/P2X7 purinergic receptor, that induces pore formation and collapse of the plasma membrane potential. Although the function of the P2Z receptor is largely unknown, accumulating evidence implicates its role in cell signaling and immune reactions. Here, we investigated the effect of P2Z receptor ligation on the activation of NF-κB, a transcription factor controlling cytokine expression and apoptosis. Exposure of microglial cells to ATP but not other nucleotides resulted in potent NF-κB activation. This effect was specifically mediated by the P2Z receptor, because selective receptor antagonists prevented NF-κB activation. NF-κB activation required reactive oxygen intermediates and proteases of the caspase family, because it was abolished by antioxidants and specific protease inhibitors. The subunit composition of the ATP-induced NF- κB–DNA complex was rather unusual. Whereas exposure to LPS-induced prototypical NF-κB p50 homo- and p65 (RelA)/p50 heterodimers, ATP stimulation resulted in the sole appearance of a p65 homodimer. This is the first demonstration that a certain stimulus activates a particular NF-κB subunit. Because different NF-κB complexes exhibit distinct transcriptional and DNA-binding activities, ATP may control the expression of a subset of NF-κB target genes distinct from those activated by classical proinflammatory mediators.

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Bcl-2 down-regulates the activity of transcription factor NF-kappaB induced upon apoptosis.

et al. 1996

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Abstract. Among the many target genes of the transcription factor NF-KB are p53 and c-myc, both of which are involved in apoptosis. This prompted us to investigate the role of NF-KB in this process. We report that NF-KB is potently activated upon serum starvation, a condition leading to apoptosis in 293 cells. Similar to Bcl-2, a transdominant-negative mutant of the NF-KB p65 subunit partially inhibited apoptosis, indicating a direct involvement of the transcription factor in induction of cell death. As expected, the p65 mutant suppressed KB-dependent gene expression. Surprisingly, transiently or stably overexpressed Bcl-2 had the same effect. The transcription inhibitory activity of the two proteins correlated with their cell death protective potential. Like Bcl-2, the related protein Bcl-XL but not Bcl-xs was able to suppress KB-dependent transcription. Bcl-2 inhibited NF-KB activity by an unusual mechanism. It did not prevent the release of IKB in the cytoplasm but down-modulated the transactivating potential of nuclear p65. These data show that NF-KB can participate in apoptosis. We suggest that at least part of the anti-apoptotic potential of Bcl-2 may be explained from a hitherto undiscovered activity of Bcl-2 in controlling nuclear gene expression.

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The permeability transition pore signals apoptosis by directing Bax translocation and multimerization

Giorgi¹,

Lartigue²,

et al. 2002

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Mitochondria are key players of apoptosis and can irreversibly commit the cell to death by releasing cytochrome c (Cyt.c) to the cytosol, where caspases 9 and 3 subsequently get activated. Under conditions of oxidative stress, opening of the mitochondrial permeability transition pore (PTP) represents an early trigger and is crucial in causing Cyt.c release. To account for the latter, current models propose that PTP gating would result, as is the case in vitro, in the rupture of the outer mitochondrial membrane caused by mitochondrial matrix swelling. Using live cell imaging and recombinant fluorescent probes based on the green fluorescent protein (GFP) and its mutants, we report that directed repetitive gating of the PTP triggers a delayed Cyt.c efflux, which is not associated with mitochondrial swelling. Instead, subcellular imaging shows that PTP opening signals the redistribution of the cytosolic protein Bax to the mitochondria, where it secondarily forms clusters that appear to be a prerequisite for Cyt.c release. Fluorescence resonance energy transfer imaging further reveals that Bax clustering coincides with the formation of Bax multimers. We conclude that the PTP is not itself a component of the Cyt.c release machinery, but that it acts indirectly by signaling Bax translocation and multimerization.

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Human monocytes are severely impaired in base and DNA double-strand break repair that renders them vulnerable to oxidative stress

Bauer

Goldstein

Christmann

et al. 2011

Proc. Natl. Acad. Sci. U.S.A.

162

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Monocytes are key players in the immune system. Crossing the blood barrier, they infiltrate tissues and differentiate into (i) macrophages that fight off pathogens and (ii) dendritic cells (DCs) that activate the immune response. A hallmark of monocyte/macrophage activation is the generation of reactive oxygen species (ROS) as a defense against invading microorganisms. How monocytes, macrophages, and DCs in particular respond to ROS is largely unknown. Here we studied the sensitivity of primary human monocytes isolated from peripheral blood and compared them with macrophages and DCs derived from them by cytokine maturation following DNA damage induced by ROS. We show that monocytes are hypersensitive to ROS, undergoing excessive apoptosis. These cells exhibited a high yield of ROS-induced DNA single-and double-strand breaks and activation of the ATR-Chk1-ATM-Chk2-p53 pathway that led to Fas and caspase-8, -3, and -7 activation, whereas macrophages and DCs derived from them were protected. Monocytes are also hypersensitive to ionizing radiation and oxidized low-density lipoprotein. The remarkable sensitivity of monocytes to oxidative stress is caused by a lack of expression of the DNA repair proteins XRCC1, ligase IIIα, poly (ADP-ribose) polymerase-1, and catalytic subunit of DNA-dependent protein kinase (DNA-PK cs ), causing a severe DNA repair defect that impacts base excision repair and double-strand break repair by nonhomologous end-joining. During maturation of monocytes into macrophages and DCs triggered by the cytokines GM-CSF and IL-4, these proteins become up-regulated, making macrophages and DCs repair-competent and ROS-resistant. We propose that impaired DNA repair in monocytes plays a role in the regulation of the monocyte/macrophage/DC system following ROS exposure.DNA damage response | monocytes | macrophages | dendritic cells

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Manuel Bauer

Kindlin-3 is required for β2 integrin–mediated leukocyte adhesion to endothelial cells

Adenine Nucleotide Translocase-1, a Component of the Permeability Transition Pore, Can Dominantly Induce Apoptosis

P2Z purinoreceptor ligation induces activation of caspases with distinct roles in apoptotic and necrotic alterations of cell death

Dysfunction of endocytic and autophagic pathways in a lysosomal storage disease

Extracellular ATP Activates Transcription Factor NF-κB through the P2Z Purinoreceptor by Selectively Targeting NF-κB p65 (RelA)

Bcl-2 down-regulates the activity of transcription factor NF-kappaB induced upon apoptosis.

The permeability transition pore signals apoptosis by directing Bax translocation and multimerization

Human monocytes are severely impaired in base and DNA double-strand break repair that renders them vulnerable to oxidative stress

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