Mitochondria: in sickness and in health

Mitochondria perform diverse yet interconnected functions, producing ATP and many biosynthetic intermediates while also contributing to cellular stress responses such as autophagy and apoptosis. Mitochondria form a dynamic, interconnected network that is intimately integrated with other cellular compartments. In addition, mitochondrial functions extend beyond the boundaries of the cell and influence an organism's physiology by regulating communication between cells and tissues. It is therefore not surprising that mitochondrial dysfunction has emerged as a key factor in a myriad of diseases, including neurodegenerative and metabolic disorders. We provide a current view of how mitochondrial functions impinge on health and disease.     

Autophagy: in sickness and in health

The degradation of intracellular components in lysosomes (autophagy) has recaptured the attention of cell biologists in recent years. The main reason for this renewed interest is the dissection of the molecular machinery that participates in this process, because the identification of new intracellular elements involved in autophagy has provided new tools to trace, quantify and manipulate autophagy in a growing number of organisms. As a result, a better understanding of the physiological roles of autophagy, the consequences of its malfunctioning and its participation in different pathological processes has emerged. This article reviews our current knowledge of the role of autophagy in disease and the efforts to reconcile its proposed dual function as both a cell protector and a cell killer.     

Tonsillectomies: in dollars and cents

Over the last quarter of a century, much controversy has been generated on the indications for tonsillectomy and adenoidectomy. The economic aspects of this operation have received comparatively little attention. The rate per 10,000 children 0 to 19 years of age for the whole province of Ontario for the year 1971 was 174 and ranged from a high of 307 in one county to a low of 59 in another. The total cost of these operations to the health insurance plan was 11.4 million dollars. National studies on the indications for these operations, their benefits and hazards are urgently required.     

Histochemistry: Live and in Color

Histochemistry—chemistry in the context of biological tissue—is an invaluable set of techniques used to visualize biological structures. This field lies at the interface of organic chemistry, biochemistry, and biology. Integration of these disciplines over the past century has permitted the imaging of cells and tissues using microscopy. Today, by exploiting the unique chemical environments within cells, heterologous expression techniques, and enzymatic activity, histochemical methods can be used to visualize structures in living matter. This review focuses on the labeling techniques and organic fluorophores used in live cells.     

Status and Role in Archaeology:

Abstract

Three categories of individuals currently interested in the recovery of prehistoric archaeological material on the Plains as well as in the United States generally, may be distinguished: the professional archaeologist, the amateur, and the pot-hunter, or vandal. Each of these types is placed in perspective in relation to the others and to the field of prehistoric archaeology, with special emphasis on the status and roles of different types of pot-hunters.

The amateur is aligned with the professional, especially in terms of objectives and approach, while each is differentiated in status and role from the existing variety of pot-hunters. The position is developed that pot-hunters decidedly do not comprise a homogeneous grouping, there being within their numbers at least 3 subtypes, each manifesting important differences.

Federal and state antiquities legislation is viewed as inadequate, by itself, to check the destruction of prehistoric sites, objects, and related material. Such laws must be coordinated, not only with the effort of the professional and the amateur in undertaking controlled excavations, but also with the equally important task of demonstrating to unwitting pot-hunters the implications of their destructive activity in contrast to the positive contributions of the scientific approach to antiquities.     

Translation: in retrospect and prospect

This review is occasioned by the fact that the problem of translation, which has simmered on the biological sidelines for the last 40 years, is about to erupt center stage--thanks to the recent spectacular advances in ribosome structure. This most complex, beautiful, and fascinating of cellular mechanisms, the translation apparatus, is also the most important. Translation not only defines gene expression, but it is the sine qua non without which modern (protein-based) cells would not have come into existence. Yet from the start, the problem of translation has been misunderstood--a reflection of the molecular perspective that dominated Biology of the last century. In that the our conception of translation will play a significant role in creating the structure that is 21st century Biology, it is critical that our current (and fundamentally flawed) view of translation be understood for what it is and be reformulated to become an all-embracing perspective about which 21st century Biology can develop. Therefore, the present review is both a retrospective and a plea to biologists to establish a new evolutionary, RNA-World-centered concept of translation. What is needed is an evolutionarily oriented perspective that, first and foremost, focuses on the nature (and origin) of a primitive translation apparatus, the apparatus that transformed an ancient evolutionary era of nucleic acid life, the RNA World, into the world of modern cells.     

Thematic Review Series: Phospholipases: Central Role in Lipid Signaling and Disease: Phosphoinositide-specific phospholipase C in health and disease

Phospholipases are widely occurring and can be found in several different organisms, including bacteria, yeast, plants, animals, and viruses. Phospholipase C (PLC) is a class of phospholipases that cleaves phospholipids on the diacylglycerol (DAG) side of the phosphodiester bond producing DAGs and phosphomonoesters. Among PLCs, phosphoinositide-specific PLC (PI-PLC) constitutes an important step in the inositide signaling pathways. The structures of PI-PLC isozymes show conserved domains as well as regulatory specific domains. This is important, as most PI-PLCs share a common mechanism, but each of them has a peculiar role and can have a specific cell distribution that is linked to a specific function. More importantly, the regulation of PLC isozymes is fundamental in health and disease, as there are several PLC-dependent molecular mechanisms that are associated with the activation or inhibition of important physiopathological processes. Moreover, PI-PLC alternative splicing variants can play important roles in complex signaling networks, not only in cancer but also in other diseases. That is why PI-PLC isozymes are now considered as important molecules that are essential for better understanding the molecular mechanisms underlying both physiology and pathogenesis, and are also potential molecular targets useful for the development of innovative therapeutic strategies.     

Hormone interactions and regulation of PsPK2::GUS compared with DR5::GUS and PID::GUS in Arabidopsis thaliana

The putative pea PINOID homolog, PsPK2, is expressed in all growing plant parts and is positively regulated by auxin, gibberellin, and cytokinin. Here, we studied hormonal regulation of PsPK2::GUS expression compared with DR5::GUS and PID::GUS in Arabidopsis. PsPK2::GUS, DR5::GUS, and PID::GUS expression in Arabidopsis shoots is mainly localized in the stipules, hydathodes, veins, developing leaves, and cotyledons. Unlike DR5::GUS, PsPK2::GUS, and PID::GUS are weakly expressed in root tips. Both DR5::GUS and PsPK2::GUS are induced by different auxins and are more sensitive to methyl indole acetic acid, 4-chloro-indole acetic acid, and α-naphthalene acetic acid than others. GA(3) has no significant effect on GUS activity in DR5::GUS-transformed seedlings compared to the control, but induction by auxin and gibberellin in combination is synergistic. Cytokinin increases auxin transport in Arabidopsis seedlings. Auxin, gibberellin, and cytokinin all increase GUS activity in shoots of PsPK2::GUS transformed plants compared to the control. However, only auxin and gibberellin increase GUS activity in PID::GUS shoots. In conclusion, auxin, gibberellin, and cytokinin positively regulate PsPK2 expression in shoots, but not in roots. Auxin and gibberellin also upregulate AtPIN1 and LEAFY expression, which is similar to PsPIN1 and Uni in pea. With minor exceptions, the orthologous genes from both species are regulated similarly.     

Translation factors: in sickness and in health

It has been known for many years that aberrant levels of the factors involved in translation of mRNA can contribute to disease, most notably cancer. However, despite the wealth of information gathered about initiation and elongation factors from biochemical studies in mammalian cells, and from mutation analysis in lower organisms, little was known until recently about the effects that mutations in these factors could have on cellular function in higher organisms. In the past few years, this balance has started to be redressed, and we are at a fascinating stage in the molecular pathology of translation factors. It has been discovered recently that mutations in subunits of eukaryotic initiation factor 2B (eIF2B) underlie the neurodegenerative disease termed 'vanishing white matter'.     

Science and society: children and incompetent adults in genetic research: consent and safeguards

Recent changes to the legal and ethical criteria that govern the inclusion of children and incompetent adults in genetic research are likely to lead to advances in research, but might leave the rights of the participants in this research in need of additional safeguards. Here, we discuss why this might be and propose policy considerations that could help to protect the rights of these particularly vulnerable groups of research participants.