Effect of material removal state on the selection of theoretical models when scratching single-crystal copper using the load modulation approach

Over the past decade, the Nomenclature Committee on Cell Death (NCCD) has formulated guidelines for the definition and interpretation of cell death from morphological, biochemical, and functional perspectives. Since the field continues to expand and novel mechanisms that orchestrate multiple cell death pathways are unveiled, we propose an updated classification of cell death subroutines focusing on mechanistic and essential (as opposed to correlative and dispensable) aspects of the process. As we provide molecularly oriented definitions of terms including intrinsic apoptosis, extrinsic apoptosis, mitochondrial permeability transition (MPT)-driven necrosis, necroptosis, ferroptosis, pyroptosis, parthanatos, entotic cell death, NETotic cell death, lysosome-dependent cell death, autophagy-dependent cell death, immunogenic cell death, cellular senescence, and mitotic catastrophe, we discuss the utility of neologisms that refer to highly specialized instances of these processes. The mission of the NCCD is to provide a widely accepted nomenclature on cell death in support of the continued development of the field.

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Caspase Activity and a Specific Cytochrome C Are Required for Sperm Differentiation in Drosophila

Arama

2003

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The final stage of spermatid terminal differentiation involves the removal of their bulk cytoplasm in a process known as spermatid individualization. Here we show that apoptotic proteins play an essential role during spermatid individualization in Drosophila melanogaster. Several aspects of sperm terminal differentiation, including the activation of caspases, are reminiscent of apoptosis. Notably, caspase inhibitors prevent the removal of bulk cytoplasm in spermatids and block sperm maturation in vivo, causing male sterility. We further identified loss-of-function mutations in one of the two Drosophila cyt-c genes, cyt-c-d, which block caspase activation and subsequent spermatid terminal differentiation. Finally, a giant ubiquitin-conjugating enzyme, dBruce, is required to protect the sperm nucleus against hypercondensation and degeneration. These observations suggest that an apoptosis-like mechanism is required for spermatid differentiation in Drosophila.

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Axonal Degeneration Is Regulated by the Apoptotic Machinery or a NAD⁺-Sensitive Pathway in Insects and Mammals

Schoenmann¹,

Assa-Kunik²,

Tiomny³

et al. 2010

J. Neurosci.

129

153

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Selective degeneration of neuronal projections and neurite pruning are critical for establishment and maintenance of functional neural circuits in both insects and mammals. However, the molecular mechanisms that govern developmental neurite pruning versus injuryinduced neurite degeneration are still mostly unclear. Here, we show that the effector caspases 6 and 3 are both expressed within axons and that, on trophic deprivation, they exhibit distinct modes of activation. Surprisingly, inhibition of caspases is not sufficient for axonal protection and a parallel modulation of a NAD ϩ -sensitive pathway is required. The proapoptotic protein BAX is a key element in both pathways as its genetic ablation protected sensory axons against developmental degeneration both in vitro and in vivo. Last, we demonstrate that both pathways are also involved in developmental dendritic pruning in Drosophila. More specifically, the mouse Wld S (Wallerian degeneration slow) protein, which is mainly composed of the full-length sequence of the NAD ϩ biosynthetic Nmnat1 enzyme, can suppress dendritic pruning in C4da (class IV dendritic arborization) sensory neurons in parallel to the fly effector caspases. These findings indicate that two distinct autodestruction pathways act separately or in concert to regulate developmental neurite pruning.

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A Ubiquitin Ligase Complex Regulates Caspase Activation During Sperm Differentiation in Drosophila

et al. 2007

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In both insects and mammals, spermatids eliminate their bulk cytoplasm as they undergo terminal differentiation. In Drosophila, this process of dramatic cellular remodeling requires apoptotic proteins, including caspases. To gain further insight into the regulation of caspases, we screened a large collection of sterile male flies for mutants that block effector caspase activation at the onset of spermatid individualization. Here, we describe the identification and characterization of a testis-specific, Cullin-3–dependent ubiquitin ligase complex that is required for caspase activation in spermatids. Mutations in either a testis-specific isoform of Cullin-3 (Cul3Testis), the small RING protein Roc1b, or a Drosophila orthologue of the mammalian BTB-Kelch protein Klhl10 all reduce or eliminate effector caspase activation in spermatids. Importantly, all three genes encode proteins that can physically interact to form a ubiquitin ligase complex. Roc1b binds to the catalytic core of Cullin-3, and Klhl10 binds specifically to a unique testis-specific N-terminal Cullin-3 (TeNC) domain of Cul3Testis that is required for activation of effector caspase in spermatids. Finally, the BIR domain region of the giant inhibitor of apoptosis–like protein dBruce is sufficient to bind to Klhl10, which is consistent with the idea that dBruce is a substrate for the Cullin-3-based E3-ligase complex. These findings reveal a novel role of Cullin-based ubiquitin ligases in caspase regulation.

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The two Drosophila cytochrome C proteins can function in both respiration and caspase activation

Arama

Bader

Srivastava

et al. 2005

EMBO J

117

147

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Cytochrome C has two apparently separable cellular functions: respiration and caspase activation during apoptosis. While a role of the mitochondria and cytochrome C in the assembly of the apoptosome and caspase activation has been established for mammalian cells, the existence of a comparable function for cytochrome C in invertebrates remains controversial. Drosophila possesses two cytochrome c genes, cyt-c-d and cyt-c-p. We show that only cyt-c-d is required for caspase activation in an apoptosislike process during spermatid differentiation, whereas cyt-c-p is required for respiration in the soma. However, both cytochrome C proteins can function interchangeably in respiration and caspase activation, and the difference in their genetic requirements can be attributed to differential expression in the soma and testes. Furthermore, orthologues of the apoptosome components, Ark (Apaf-1) and Dronc (caspase-9), are also required for the proper removal of bulk cytoplasm during spermatogenesis. Finally, several mutants that block caspase activation during spermatogenesis were isolated in a genetic screen, including mutants with defects in spermatid mitochondrial organization. These observations establish a role for the mitochondria in caspase activation during spermatogenesis.

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Alternative Germ Cell Death Pathway in Drosophila Involves HtrA2/Omi, Lysosomes, and a Caspase-9 Counterpart

2013

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In both flies and mammals, almost one-third of the newly emerging male germ cells are spontaneously eliminated before entering meiosis. Here, we show that in Drosophila, germ cell death (GCD) involves the initiator caspase Dronc independently of the apoptosome and the main executioner caspases. Electron microscopy of dying germ cells revealed mixed morphologies of apoptosis and necrosis. We further show that the lysosomes and their catabolic enzymes, but not macroautophagy, are involved in the execution of GCD. We then identified, in a screen, the Parkinson's disease-associated mitochondrial protease, HtrA2/Omi, as an important mediator of GCD, acting mainly through its catalytic activity rather than by antagonizing inhibitor of apoptosis proteins. Concomitantly, other mitochondrial-associated factors were also implicated in GCD, including Pink1 (but not Parkin), the Bcl-2-related proteins, and endonuclease G, which establish the mitochondria as central mediators of GCD. These findings uncover an alternative developmental cell death pathway in metazoans.

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Mutations in the β-propeller domain of the Drosophila brain tumor (brat) protein induce neoplasm in the larval brain

et al. 2000

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Inactivation of both alleles of the fruit¯y D. melanogaster brain tumor (brat) gene results in the production of a tumor-like neoplasm in the larval brain, and lethality in the larval third instar and pupal stages. We cloned the brat gene from a transposon-tagged allele and identi®ed its gene product. brat encodes for an 1037 amino acid protein with an N-terminal B-box1 zinc ®nger followed by a B-box2 zinc ®nger, a coiled-coil domain, and a C-terminal b-propeller domain with six blades. All these motifs are known to mediate protein ± protein interactions. Sequence analysis of four brat alleles revealed that all of them are mutated at the bpropeller domain. The clustering of mutations in this domain strongly suggests that it has a crucial role in the normal function of Brat, and de®nes a novel protein motif involved in tumor suppression activity. The brat gene is expressed in the embryonic central and peripheral nervous systems including the embryonic brain. In third instar larva brat expression was detected in the larval central nervous system including the brain and the ventral ganglion, in two glands ± the ring gland and the salivary gland, and in parts of the foregut ± the gastric caecae and the proventriculus. A second brat-like gene was found in D. melanogaster, and homologs were identi®ed in the nematode, mouse, rat, and human. Accumulated data suggests that Brat may regulate proliferation and di erentiation by secretion/transportmediated processes.

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Eli Arama

Guidelines for the use and interpretation of assays for monitoring autophagy (3rd edition)

Molecular mechanisms of cell death: recommendations of the Nomenclature Committee on Cell Death 2018

Caspase Activity and a Specific Cytochrome C Are Required for Sperm Differentiation in Drosophila

Axonal Degeneration Is Regulated by the Apoptotic Machinery or a NAD⁺-Sensitive Pathway in Insects and Mammals

A Ubiquitin Ligase Complex Regulates Caspase Activation During Sperm Differentiation in Drosophila

The two Drosophila cytochrome C proteins can function in both respiration and caspase activation

Alternative Germ Cell Death Pathway in Drosophila Involves HtrA2/Omi, Lysosomes, and a Caspase-9 Counterpart

Mutations in the β-propeller domain of the Drosophila brain tumor (brat) protein induce neoplasm in the larval brain

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Eli Arama

Guidelines for the use and interpretation of assays for monitoring autophagy (3rd edition)

Molecular mechanisms of cell death: recommendations of the Nomenclature Committee on Cell Death 2018

Caspase Activity and a Specific Cytochrome C Are Required for Sperm Differentiation in Drosophila

Axonal Degeneration Is Regulated by the Apoptotic Machinery or a NAD+-Sensitive Pathway in Insects and Mammals

A Ubiquitin Ligase Complex Regulates Caspase Activation During Sperm Differentiation in Drosophila

The two Drosophila cytochrome C proteins can function in both respiration and caspase activation

Alternative Germ Cell Death Pathway in Drosophila Involves HtrA2/Omi, Lysosomes, and a Caspase-9 Counterpart

Mutations in the β-propeller domain of the Drosophila brain tumor (brat) protein induce neoplasm in the larval brain

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Product

Resources

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Axonal Degeneration Is Regulated by the Apoptotic Machinery or a NAD⁺-Sensitive Pathway in Insects and Mammals