Mechanistic paradigms of cell death - revisited (original) (raw)

Related papers

Preface: Mechanisms of Cell Death 2000

Annals of the New York Academy of Sciences, 2006

This book derives from a meeting of The International Cell Death Society held in May, 2000. The theme of the meeting was perhaps best expressed by a quotation used to open the meeting, “Truth does not become more true by virtue of the fact that the entire world ...

Mechanisms of cell death: Current perspectives

Indian Journal of Veterinary Pathology, 2023

Cell death is vital in embryonic development, tissue molding during embryogenesis, immune system development and removal of damaged cells. However, subsequent release of various infl ammatory cytokines intracellularly leads to infl ammatory changes during necrosis, pyroptosis and necroptosis. Necroptosis is regulated cell death with mimicking feature of apoptosis and necrosis. In NETosis and ferroptosis, reactive oxygen species leads to the oxidative cell death. In pyroptosis, caspase-1 enzyme release pro-infl ammatory molecules which lead to infl ammatory changes.

Cell Death: History and Future

Advances in Experimental Medicine and Biology, 2008

Cell death was observed and understood since the 19th century, but there was no experimental examination until the mid-20th century. Beginning in the 1960s, several laboratories demonstrated that cell death was biologically controlled (programmed) and that the morphology was common and not readily explained (apoptosis). By 1990, the genetic basis of programmed cell death had been established, and the first components of the cell death machinery (caspase 3, bcl-2, and Fas) had been identified, sequenced, and recognized as highly conserved in evolution. The rapid development of the field has given us substantial understanding of how cell death is achieved. However, this knowledge has made it possible for us to understand that there are multiple pathways to death and that the commitment to die is not the same as execution. A cell that has passed the commitment stage but is blocked from undergoing apoptosis will die by another route. We still must learn much more about how a cell commits to death and what makes it choose a path to die.

Cell Death: a Molecular Perspective

Current Molecular Biology Reports

One of the vital aspects of a cell is cell death to continue their normal cell turnover, propagation, proper development, and the maintenance of the immune system. Cell death is an essential process in the body as it promotes the removal of unwanted cells. It is the programmed culling of cells in entire eukaryotic development processes to survive and progress for the next generation. Molecular aberration in the process of apoptosis may have pathological manifestations, including cancer, neurodegenerative disorders, autoimmune disease, and ischemic damage. Classically, cell death is categorized primarily into four different types: apoptosis, autophagy, necrosis, and entosis; depending on cellular and molecular signatures governing the pathway involved. The purpose of this review is to compare and contrast the recent literature on cell death and to familiarize with the current state of knowledge on this topic. In summary, the hallmarks of various modes of cell death are thoroughly explained along with the other types of cell death such as ferroptosis, pyroptosis, necroptosis, and lysosomal-dependent cell death.

Cell death: apoptosis versus necrosis (review)

… journal of oncology, 2002

Cell death and the subsequent post-mortem changes, called necrosis, are integral parts of normal development and maturation cycle. Despite the importance of this process, the mechanisms underlying cell death are still poorly understood. In the recent literature, cell death is said to occur by two alternative, opposite modes: apoptosis, a programmed, managed form of cell death, and necrosis, an unordered and accidental form of cellular dying. The incorrect consequence is the overlapping of: a) the process whereby cells die, cell death; and b) the changes that the cells and tissues undergo after the cells die. Only the latter process can be referred to as necrosis and represents a 'no return' process in cell life. In this review, we discuss the excellent basic research developed in this field during last decades and problems that remain to be resolved in defining both experimentally and mechanicistically the events that lead to and characterize cell death. inflammation and disturbed blood supply (1,2). Cell death is an important variable in cancer development, cancer prevention and cancer therapy (3-5). In the treatment of cancer, the major approach is the removal, by surgery, of the neoplasm and/or the induction of cell death in neoplastic cells by radiation, toxic chemicals, antibodies and/or cells of the immune system (6-9). On the other hand, this pathobiological process remains poorly understood and the physiological and biochemical factors that lead to cell death are still not clear. One main factor is the existing confusion between 'apoptosis' process, as compared and contrasted with 'necrosis', leading to the overlapping of the ante mortem changes, i.e. the process of cell death, and the post-mortem changes, i.e. the necrosis process.

Cell death in health and disease

Journal of Cellular and Molecular Medicine, 2007

Cell death is clearly an important factor in development, homeostasis, pathology and in aging, but medical efforts based on controlling cell death have not become major aspects of medicine. There are several reasons why hopes have been slow to be fulfilled, and they present indications for new directions in research. Most effort has focused on the machinery of cell death, or the proximate effectors of apoptosis and their closely associated and interacting proteins. But cells have many options other than apoptosis. These include autophagy, necrosis, atrophy and stepwise or other alternate means of self-disassembly. The response of a cell to a noxious or otherwise intimidating signal will depend heavily on the history, lineage and current status of the cell. Many metabolic and other processes adjust the sensitivity of cells to signals, and viruses aggressively attempt to regulate the death of their host cells. Another complicating factor is that many deathassociated proteins may have functions totally unrelated to their role in cell death, generating the possibility of undesirable side effects if one interferes with them. In the future, the challenge will be more to understand the challenge to the cell from a more global standpoint, including many more aspects of metabolism, and work toward alleviating or provoking the challenge in a targeted fashion.

Types of Cell Death from a Molecular Perspective

Biology

The former conventional belief was that cell death resulted from either apoptosis or necrosis; however, in recent years, different pathways through which a cell can undergo cell death have been discovered. Various types of cell death are distinguished by specific morphological alterations in the cell’s structure, coupled with numerous biological activation processes. Various diseases, such as cancers, can occur due to the accumulation of damaged cells in the body caused by the dysregulation and failure of cell death. Thus, comprehending these cell death pathways is crucial for formulating effective therapeutic strategies. We focused on providing a comprehensive overview of the existing literature pertaining to various forms of cell death, encompassing apoptosis, anoikis, pyroptosis, NETosis, ferroptosis, autophagy, entosis, methuosis, paraptosis, mitoptosis, parthanatos, necroptosis, and necrosis.

Cell Death and Its Different Modes: History of Understanding and Current Trends

International Journal of Biochemistry Research & Review, 2019

Discussions about what is life continue to struggle; there are pros and cons for whether a virus is alive. However, an opposite thing – cell death – appears to be tantamount important and equally not-easygoing to define. Nevertheless, our current knowledge about eukaryotic cell death has made a long way and resulted in a fruitful outcome: starting from three types of cell death (type I, II and III which are mainly applicable to eukaryotic cells of organisms from the biological kingdom animalia) in 1970s, Nomenclature Committee on Cell Death has named already twelve cell death forms in 2018, including the above mentioned apoptosis, autophagy and necrosis among them. How the scientific attitude towards cellular demise evolved and various aspects of different cell death modes are reviewed in this article.