Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
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Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
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Query: UMLS:C0242706 (
hyperoxia
)
5,219
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Multicellular organisms have evolved in adaptation to the Earth's gravitational and oxygen environment. This epigenetic process is dependent on the capacity of mesodermal cells to act as mechanosensors that can conform, deform, and reform in adaptation to the organism's physical environment. Mechanical forces, such as hydrostatic pressure and gravity, play important roles in the embryonic development, homeostasis, and repair of lung and bone. We discuss the role of parathyroid hormone-related protein (PTHrP) as a mechanotransducer for stretch in these organs during normal development, particularly as it lends itself to homeostasis; we further demonstrate that "uncoupling" of such mechanisms may play a central role in injury repair, particularly as it relates to chronic diseases of lung and bone. Endothermal PTHrP signaling through its G-protein coupled receptor promotes normal cell-cell signaling that maintains the homeostatic phenotypes of lung and bone. Molecular disruption of the PTHrP/PTHrP receptor pathway from endoderm to mesoderm, because of such factors as volutrauma,
hyperoxia
, inflammation, and microgravity, alters intracellular signaling, causing maladaptive cellular changes, resulting in myofibroblast proliferation and granulation. Examples of such pathologic changes specifically related to this cellular/molecular mechanism of maladaptation are chronic lung disease and
osteoporosis
. We suggest a new paradigm that may help in the future creation of diagnostic and therapeutic modalities for a wide range of developmental and chronic diseases ranging from bronchopulmonary dysplasia in newborns to idiopathic pulmonary fibrosis and
osteoporosis
as a result of aging or microgravity.
...
PMID:Mechanotransduction determines the structure and function of lung and bone: a theoretical model for the pathophysiology of chronic disease. 1262 29
The functional versatility and diversity of melatonin has exceeded everyone's expectations. The evidence is substantial that melatonin has multiple receptor-mediated and receptor-independent actions. Considering the unexpectedly widespread distribution of cellular membrane receptors as well as the existence of nuclear binding sites/receptors and the fact that some of melatonin's actions are receptor-independent means that melatonin likely functions in every cell with which it comes in contact. This is highlighted by the fact that there are no morpho-physiological barriers to melatonin, e.g., the blood-brain barrier. In addition to its widespread actions, melatonin synthesis occurs in widely diverse tissues with its production not being relegated to the pineal gland. This should not be unexpected given that it is present throughout the animal kingdom including species that lack a pineal gland, e.g., insects, and in single cell organisms. In this review, only a few of melatonin's effects that involve the interaction of the indoleamine with receptors are described. These functions include the control of seasonal reproduction, modulation of sleep processes and influences on bone growth and
osteoporosis
. Among the actions of melatonin that are likely receptor independent and that are reviewed herein include its ability to neutralize free radicals which leads to a reduction in cataract formation, reducing oxidative stress due to exposure to hyperbaric
hyperoxia
, ameliorating hyperthyroidism and abating the toxicity of sepsis and septic shock. These actions alone speak to the diversity of beneficial effects of melatonin; however, the review is no way near exhaustive in terms of what melatonin is capable of doing. Because of its ubiquitous benefits, the pharmaceutical industry is developing melatonin analogues which interact with melatonin receptors. Clearly, the intent of the drugs is to take advantage of some of melatonin's numerous beneficial effects.
...
PMID:Medical implications of melatonin: receptor-mediated and receptor-independent actions. 1821 86
