Showing papers in "The FASEB Journal in 1988"

Heme oxygenase: function, multiplicity, regulatory mechanisms, and clinical applications.

Abstract: In biological systems oxidation of heme is carried out by two isozymes of the microsomal heme oxygenase, HO-1 and HO-2. HO-1 is the commonly known heme oxygenase, the activity of which can be induced by up to 100-fold in response to a wide variety of stimuli (metals, heme, hormones, etc.). HO-2 was only recently discovered, and the isozyme appears to be uninducible. The two forms are products of two different genes and differ in their tissue expression. The primary structure of HO-1 and an HO-2 fragment of 91 amino acid residues show only 58% homology, but share a region with 100% secondary structure homology. This region is believed to be the catalytic site. Most likely, HO-1 gene is regulated in the same manner as metallothione in the gene. HO-1 has a heat shock regulatory element, and possibly many promoter elements, which bind to respective inducers and cause transcription of the gene. In vivo induction of HO-1 activity in the liver is accompanied by decreases in the total P-450 levels and, in a reconstituted system, cytochrome P-450b heme can be quantitatively converted to biliverdin by HO-1 and HO-2. The enzyme activity is inhibited in vivo for extended periods subsequent to binding of Zn- and Sn- protoporphyrins. This property appears useful for the suppression of bilirubin production. The metalloporphyrins, however, are not innocuous and cause major disruptions in cellular metabolism. In this review recent findings on heme oxygenase are highlighted.

Biology of interleukin 1.

Abstract: Interleukin 1 (IL 1) is a polypeptide that is produced after infection, injury, or antigenic challenge. Although the macrophage is a primary source of IL 1, epidermal, epithelial, lymphoid, and vascular tissues synthesize IL 1. When IL 1 gains access to the circulation, it acts like a hormone and induces a broad spectrum of systemic changes in neurological, metabolic, hematologic, and endocrinologic systems. Some of the IL 1 that is synthesized remains associated with the plasma membrane and induces changes in local tissues without producing systemic responses. IL 1 affects mesenchymal tissue remodeling where it contributes to both destructive and repair processes. IL 1 activates lymphocytes and plays an important role in the initiation of the immune response. Receptors for IL 1 have been identified, but receptors are scarce and their affinities often do not match the potency of the biological response. The most consistent property of IL 1 is up-regulation of cellular metabolism and increased expression of several genes coding for biologically active molecules. IL 1 is a highly inflammatory molecule and stimulates the production of arachidonic acid metabolites. IL 1 also acts synergistically with other cytokines, particularly tumor necrosis factor. The multitude of biological responses to IL 1 is an example of the rapid adaptive changes that take place to increase the host's defensive mechanisms.

Cytosolic calcium oscillators.

Abstract: Many cells display oscillations in intracellular calcium resulting from the periodic release of calcium from intracellular reservoirs. Frequencies are varied, but most oscillations have periods ranging from 5 to 60 s. For any given cell, frequency can vary depending on external conditions, particularly the concentration of natural stimuli or calcium. This cytosolic calcium oscillator is particularly sensitive to those stimuli (neurotransmitters, hormones, growth factors) that hydrolyze phosphoinositides to give diacylglycerol and inositol 1,4,5-trisphosphate (Ins1,4,5P3). The ability of Ins1,4,5P3 to mobilize intracellular calcium is a significant feature of many of the proposed models that are used to explain oscillatory activity. Receptor-controlled oscillator models propose that there are complex feedback mechanisms that generate oscillations in the level of Ins1,4,5P3. Second messenger-controlled oscillator models demonstrate that the oscillator is a component of the calcium reservoir, which is induced to release calcium by a constant input of either Ins1,4,5P3 or calcium itself. In the latter case, the process of calcium-induced calcium release might be the basis of oscillatory activity in many cell types. The function of calcium oscillations is still unknown. Because oscillator frequency can vary with agonist concentration, calcium transients might be part of a frequency-encoded signaling system. When an external stimulus arrives at the cell surface the information is translated into a train of calcium spikes, i.e., the signal is digitized. Certain cells may then convey information by varying the frequency of this digital signal.

The vitamin D story: a collaborative effort of basic science and clinical medicine.

Abstract: The discovery in 1919-1924 of vitamin D and its production in skin and foods by UV irradiation led to the elimination of rickets as a major medical problem. The identification and chemical preparation of vitamin D in the next decade provided large quantities of vitamin D to the physician for the treatment of a variety of metabolic bone diseases. Early in the 1960s, little was known about the function of vitamin D in causing mineralization of the skeleton, and hence in preventing the disease rickets in children and osteomalacia in adults. With the application of modern tools of biochemistry came the discovery that vitamin D must first be modified by 25-hydroxylation in the liver followed by 1 alpha-hydroxylation in the kidney to produce the vitamin D hormone 1 alpha,25-dihydroxyvitamin D3 [1,25-(OH)2D3]. This process is strongly feedback-regulated and is one of the major endocrine systems regulating plasma calcium and phosphorus concentrations. Furthermore, it is a major endocrine system regulating bone mass and state. With the chemical synthesis of 1,25-(OH)2D3 and many of its analogs has come the possibility of treating a number of metabolic bone diseases not previously managed adequately, such as vitamin D-resistant rickets, hypoparathyroidism, renal osteodystrophy, and osteoporosis. By using 1,25-(OH)2D3, considerable work has been carried out to understand how this hormone facilitates calcium transport across the intestinal membrane. Modern work is described on the molecular mechanism of action of the vitamin D hormone in eliciting the cellular responses that result in mineral homeostasis. The possible use of the vitamin D analogs to bring about differentiation of myelocytic-type leukemias and in the treatment of psoriasis has been an important new development. This paper will thus be a blend of basic science of the vitamin D system and the application of that information to the treatment of disease.

The chemistry and biology of unusual DNA structures adopted by oligopurine.oligopyrimidine sequences.

Abstract: A family of unusual DNA structures has been discovered in segments with predominantly purines in one strand (pur.pyr sequences). These sequences are overrepresented in eukaryotic DNA and have been mapped near genes and recombination hot spots. When cloned into recombinant plasmids, many pur.pyr sequences are reactive to chemical and enzymic probes that are generally specific for single-stranded DNA. An intramolecular triplex is adopted by mirror repeats of G's and A's. Other non-B DNA structures adopted by similar sequences remain to be fully clarified but may be a family of related conformations. It is likely that these unorthodox structures play an important role in the function of the eukaryotic genome.

1,25(OH)2-vitamin D3 receptors: gene regulation and genetic circuitry.

Abstract: Our understanding of how vitamin D mediates biological responses has entered a new era. It is now clear that the bulk of the biological responses supported by vitamin D occur as a consequence of its metabolism to its daughter metabolite 1 alpha,25-dihydroxyvitamin D3 (a steroid hormone). The fact that 1,25(OH)2D3 receptors are ubiquitous in tissue distribution opens the possibility for unforeseen biological functions of the vitamin D endocrine system. For example, 1,25(OH)2D3 serves as an immunoregulatory hormone and a differentiation hormone besides its classical role in mineral homeostasis. The avian 1,25)OH)2D3 receptor has recently been cloned and shown to be a member of the nuclear transacting receptor family that includes estrogen, progesterone, glucocorticoid, thyroxine (T3), aldosterone, and retinoic acid receptors. We have compiled an extensive number of RNA polymerase II-transcribed genes that are regulated by 1,25(OH)2D3. Classification of these genes on functional grounds identifies and formul...

Receptors linked to inhibition of adenylate cyclase: additional signaling mechanisms.

Abstract: Many hormones and neurotransmitters attenuate cyclic AMP (cAMP) accumulation in intact cells by virtue of their ability to inhibit adenylate cyclase activity via the GTP-binding protein denoted as Gi. Nonetheless, a number of physiological findings suggest that attenuation of cAMP production is not sufficient to serve as the only signal for eliciting the diverse physiological effects provoked by these various receptor populations. Additional biochemical and electrophysiological changes are known to occur after occupancy of receptors linked to inhibition of adenylate cyclase, including acceleration of Na+/H+ exchange, activation of K+ conductances, and inhibition of voltage-sensitive Ca2+ channels. This review summarizes the current understanding of how these receptors are coupled to their multiple potential effector mechanisms and offers some speculation about the possible interplay between the biochemical and electrophysiological sequels of receptor occupancy. It is hoped that future studies will establi...

Mechanism of neutrophil activation by NAF, a novel monocyte-derived peptide agonist.

Abstract: The rise in cytosolic free Ca2+, shape change, superoxide formation, and granule exocytosis induced in human neutrophils by N-formyl-Met-Leu-Phe (fMLP) and by a newly discovered activating peptide, neutrophil-activating factor, termed NAF, were compared. NAF was effective in the concentration range of 0.1-10 nM and was 10- to 100-fold more potent than fMLP. In qualitative terms, the single responses to either stimulus were remarkably similar: they showed virtually identical onset and initial kinetics, and were all inhibited by pretreatment of the neutrophils with Bordetella pertussis toxin. In addition, the respiratory burst elicited by either stimulus was inhibited by 17-hydroxywortmannin and staurosporine. Two conclusions are drawn from these results: 1) neutrophil activation by NAF (as by fMLP) is dependent on a GTP-binding protein and on protein kinase C; 2) a similar, or even identical, mechanism of signal transduction must be assumed on stimulation of human neutrophils with NAF, fMLP, and other chem...

Pharmacology and function of melatonin receptors.

Abstract: The hormone melatonin is secreted primarily from the pineal gland, with highest levels occurring during the dark period of a circadian cycle. This hormone, through an action in the brain, appears t...

Tissue-specific regulation of zinc metabolism and metallothionein genes by interleukin 1.

Abstract: Interleukin 1 (IL 1) production is stimulated by infection, cellular injury, and inflammation. This cytokine directs a wide spectrum of host responses. Human interleukin 1 alpha (IL 1 alpha) was used to examine the time course of effects on zinc metabolism as part of the acute phase response. IL 1 produced a transient depression in the serum zinc concentration and increased serum ceruloplasmin. Metallothionein levels were increased in liver 14-fold after IL 1. Increased expression of metallothionein-1 and -2 genes following IL 1 were observed in liver, bone marrow, and thymus. Pulse-labeling experiments with i.v.-administered 65Zn showed that IL 1 drastically altered zinc distribution kinetics among tissues. More 65Zn was taken up (and/or retained) by the liver, bone marrow, and thymus 6 h after IL 1, whereas correspondingly less 65Zn was found in bone, skin, and intestine. Uptake by other tissues was not affected by IL 1. Chromatography of cytosol from tissues with increased 65Zn uptake suggests the IL 1-induced redistribution may be driven by enhanced metallothionein synthesis. Collectively, the results show that IL 1 regulates zinc metabolism and may direct its preferential, tissue-specific distribution via elevated metallothionein-1 and -2 gene expression.

Oxidants, inflammation, and anti-inflammatory drugs.

Abstract: Species such as superoxide radical (O2-), hydrogen peroxide (H2O2), hydroxyl radical (.OH), and hypochlorous acid (HOCl) can be formed in vivo, e.g., by activated phagocytic cells. Generation of .OH from H2O2 in vivo usually involves iron-dependent reactions. Good evidence exists for increased generation of oxidants in vivo in patients with active rheumatoid disease, but the contribution of these oxidants to the disease process is still uncertain. The likelihood that anti-inflammatory drugs used in the treatment of arthritis could act by scavenging oxidants or preventing their formation is discussed.

Neural mechanisms generating locomotion studied in mammalian brain stem-spinal cord in vitro.

Abstract: The neural control system for generation of locomotion is an important system for analysis of neural mechanisms underlying complex motor acts. In these studies, a novel experimental model using neonatal rat brain stem and spinal cord in vitro was developed for investigation of the locomotor system in mammals. The in vitro brain stem and spinal cord system was shown to retain functional circuitry for locomotor command generation, motor pattern generation, and sensorimotor integration. This system was exploited to investigate neurochemical mechanisms involved in neurogenesis of locomotion. Evidence was obtained for peptidergic and gamma-amino-butyric acid-mediated mechanisms in brain-stem circuits generating locomotor commands. Cholinergic, dopaminergic, and excitatory amino acid-mediated mechanisms were shown to activate spinal cord circuits for locomotor pattern generation. Endogenous N-methyl-D-aspartic acid receptors in spinal networks were found to play a central role in the generation of locomotion. T...

Induction of mitochondrial manganese superoxide dismutase by interleukin 1.

Abstract: Interleukin 1 (IL 1) inhibits the growth of human melanoma A375 cells. To identify the subcellular events preceding inhibition of growth by IL 1, we have examined the effect of IL 1 on protein synthesis caused by A375 cells. IL 1 selectively and predominantly induced a 25-kDa polypeptide (p25) in A375 cells after 12 h. On subcellular fractionation, p25 was exclusively located in the 10,000 x g-pelleted (mitochondria-enriched) fraction. To identify the p25 moiety, it was purified to homogeneity by sequential chromatography on DEAE-Sephacel and reverse-phase, high-pressure liquid chromatography and its amino-terminal amino acid sequence was determined. The sequence of the 35 amino-terminal amino acids of the p25 moiety was identical to that of human manganese superoxide dismutase (Mn SOD). The enzymatic activities of SOD were induced only in the mitochondria-enriched fraction of IL 1-treated A375 cells. However, IL 1 also induced Mn SOD in normal human skin fibroblasts and peripheral blood mononuclear cells...

Mechanisms of action of calcium-mobilizing agonists: some variations on a young theme.

Abstract: It is now accepted that many hormones and neurotransmitters exert their effects through G protein-mediated activation of a phospholipase C, which breaks down phosphatidylinositol bisphosphate. This releases inositol trisphosphate, which mobilizes intracellular calcium, and diacylglycerol, which, in turn, activates protein kinase C. However, recent evidence indicates that other mechanisms are involved. In some cells, the increases in cytosolic calcium elicited within 1-2 s by high concentrations of agonists or at later times by low, physiological concentrations of agonists occur without any detectable changes in inositol phosphates and calcium mobilization, and result from the opening of plasma membrane channels that are permeable to Ca2+. This response appears to be mediated more directly by G proteins. These findings question the postulated roles of inositol phosphates and calcium mobilization in the stimulation of calcium influx. Measurements of the mass and fatty acid composition of the inositol phosph...

The glycoprotein hormones: recent studies of structure-function relationships.

Abstract: The structural features of the heterodimeric glycoprotein hormones (LH, FSH, TSH, and hCG) are briefly reviewed. Removal of carbohydrate chains does not reduce binding of the hormones to membrane receptors, but markedly reduces biological responses. The glycopeptides from the hormone do not reduce binding of native hormone to receptors but do reduce biological responses. Newer data concerned with replication of different regions of the peptide chains of these molecules using synthetic peptides are reviewed and presented. These studies indicate that two regions on the common alpha subunit are involved with receptor binding of the LH, hCG, and TSH molecules. These regions are alpha 26 to 46 and alpha 75-92. Two synthetic disulfide loop peptides from the hCG beta subunit beta 38-57 and beta 93-100 also block binding of hCG to its receptor. In addition, the beta 38-57 peptide stimulates testosterone production by Leydig cells. These data indicate that glycoprotein hormone binding to plasma membrane receptors ...

Altered intestinal chloride transport in cystic fibrosis.

Abstract: Sodium ion and chloride transport was studied in vitro in small intestinal and colonic tissue from patients with cystic fibrosis (CF) and from non-CF control subjects matched as to age and sex Normal histological appearance and substantial response to mucosal glucose (5 mM, ileum) or mucosal amiloride (10(-5) M, colon) indicated normal tissue viability in both control and CF tissues Electroneutral NaCl absorption was demonstrated in the small intestine of control subjects and CF patients Small intestinal and colonic tissues of control subjects responded to four secretagogues (theophylline, 5 mM; prostaglandin E2, 10(-6) M; calcium ionophore (A23187), 10(-5) M; bethanechol, 5 x 10(-5) M), with electrogenic chloride secretion The tissues of CF patients, however, did not respond to any of the test secretagogues These studies demonstrate that an abnormality in chloride transport is present in the small intestinal and colonic epithelia of CF patients Unlike airway epithelia, which secrete chloride in response to Ca ionophore, the intestinal epithelia of CF patients do not respond to either cAMP- or Ca-mediated secretagogues This abnormality in intestinal electrolyte transport may play a role in the pathogenesis of meconium impactions in CF patients

Interactions of cancer cells with the microvasculature during metastasis.

Abstract: Metastasis of cancer via the bloodstream is a major factor in the diagnosis, treatment, and prognosis of patients with cancer. Key events in hematogenous metastasis occur in the microvasculature. This is a brief, selective review of some interactions involving cancer cells and the microvasculature in pathological sequence, specifically: 1) intravasation of cancer cells; 2) the arrest of circulating cancer in the microvasculature; 3) cancer cell trauma associated with arrest; 4) microvascular trauma; 5) the inflammatory and 6) coagulative responses associated with arrest; and 7) the fate of arrested cancer cells. The evidence shows that in addition to providing routes for cancer cell dissemination and arrest sites for cancer cell emboli, the microvasculature, through a series of complex interactions with cancer cells, controls the efficiency of and acts as a rate regulator for the metastatic process.

Production of immunoreactive growth hormone by mononuclear leukocytes

Abstract: In the present study, we evaluated whether mononuclear leukocytes could synthesize and secrete growth hormone (GH) in vitro. By using RNA slot blot analysis, we detected maximum spontaneous levels of specific GH mRNA in the cytoplasm of rat leukocytes after a 4-h incubation. Northern gel analysis demonstrated that the specific leukocyte GH RNA was polyadenylated and had a molecular mass of 1.0 kb. Further studies using immunofluorescence, antibody affinity chromatography, and Sephacryl gel filtration indicate that leukocytes secrete a high molecular weight (greater than 300,000) and a low molecular weight (approximately 22,000) immunoreactive GH (irGH). A substantial amount of the high molecular weight irGH can be converted to the lower molecular weight form after reduction with mercaptoethanol. The irGH appeared to be de novo synthesized because it could be radiolabeled with tritiated amino acids and its production could be blocked by previous incubation of leukocytes with cycloheximide. The replication of Nb2 rat node lymphoma cells was stimulated by affinity-purified human lymphocyte-derived irGH. The growth stimulation was blocked by specific antibodies to hGH. We conclude that lymphocytes produce an irGH that is similar to if not identical to pituitary GH in terms of bioactivity, antigenicity, and molecular weight. The findings demonstrate a potential regulatory loop between the immune and neuroendocrine tissues.

Expression of airway hyperreactivity to acetylcholine as a simple autosomal recessive trait in mice.

Abstract: An increased airway response to various bronchoconstricting agents is one of the hallmarks of asthma. An interdependence of heredity and environment appears to determine this nonspecific hyperreactivity of the airways. The present study describes the patterns of inheritance of the airway response to a direct mediator of smooth muscle contraction (acetylcholine) in A/J and C3H/HeJ inbred mice and their offspring. The mean airway response to acetylcholine was greater than sixfold higher in A/J mice as compared with C3H/HeJ mice. Two phenotypes were easily distinguished on the basis of airway responses to acetylcholine in the progeny of A/J and C3H/HeJ mice. These two phenotypes were termed HYPERREACTIVE (after the A/J strain) and HYPOREACTIVE (after the C3H/HeJ strain). The observed frequencies of HYPERREACTIVE and HYPOREACTIVE phenotypes in the (A/J x C3H/HeJ) F1; (C3H/HeJ x A/J) F1 x C3H/HeJ (C3H/HeJ backcross); and the [(A/J x C3H/HeJ) F1 x (C3H/HeJ x A/J) F1] F2 are consistent with a single autosomal recessive gene primarily controlling acetylcholine-mediated airway responses. This single gene difference in airway response is completely inhibited by atropine and therefore mediated entirely by the muscarinic acetylcholine receptor.

Protein kinases 1988: a current perspective.

Abstract: This review focuses on several recent developments in the field of protein kinases. In the area of protein serine/threonine kinases, much has been learned recently about protein kinase C structure and function. Novel lipid mediators, both stimulatory and inhibitory, have been discovered, and kinase has been shown to be an increasingly large family of gene products. Heterogeneity of cellular localization and function has been documented. Calcium/calmodulin-dependent protein kinases are now believed to consist of at least five enzymes, which range from those with extreme substrate specificity such as phosphorylase kinase and myosin light-chain kinases to calcium calmodulin kinase II, with several known substrates. Several of these enzymes appear to be important in synaptic transmission and, for calcium/calmodulin kinase III, in the regulation of protein synthesis. Several new examples of pseudosubstrate prototopes as endogenous kinase inhibitors have been described, including regions intrinsic to kinase pri...

Hemostatic properties of normal and perturbed vascular cells.

Abstract: Vascular endothelial and smooth muscle cells actively maintain vessel wall thromboresistance by expressing several antithrombotic properties. With perturbation or injury, vascular cells express thrombogenic properties. Loss of vessel wall thromboresistance may be associated with thrombosis and vascular disease.

Coordinate regulation of immune and inflammatory responses by T cell-derived lymphokines.

Abstract: In response to antigenic stimulation, helper T cells secrete a set of protein mediators called lymphokines that regulate proliferation, differentiation, and maturation of lymphocytes and hemopoietic cells. Because all known lymphokines are composed of a single polypeptide chain, their coding sequences can be isolated by functional expression in appropriate host cells. Based on this expression cloning protocol, a number of T cell lymphokine genes have been isolated, their primary structure has been determined, and biological properties of their recombinant products have been examined. These studies revealed the existence of a regulatory network between lymphoid cells and hemopoietic cells mediated by the actions of multiple pleiotropic lymphokines produced by activated T cells. Because all or a part of this network can be activated in different ways by unique combinations of lymphokines, it is clear that T cells can play a vital role in coordinating the function of different body compartments in the immune...

Evidence for involvement of guanine nucleotide-binding regulatory proteins in the activation of phospholipases by hormones.

Abstract: Guanine nucleotide-binding regulatory proteins similar to Gs and Gi may be involved in the activation of phospholipases C and A2 by hormones and other ligands. The binding of hormones to receptors that activate phospholipase C is decreased by guanine nucleotides and these hormones also stimulate a high-affinity GTPase activity in cell membranes. Effects of hormones on phospholipase C activity in cell-free preparations are dependent on the presence of guanine nucleotides. In addition, fluoride and nonhydrolyzable GTP analogs activate phospholipases in a manner that can be blocked by GDP beta S. The putative guanine nucleotide-binding regulatory protein that appears to be involved in activation of phospholipase C is sensitive to pertussis toxin in some cells but not in others.

Skeletal tissue and transforming growth factor beta.

Abstract: Normal skeletal growth results from a balance between the processes of bone matrix synthesis and resorption. These activities are regulated by both systemic and local factors. Bone turnover is dynamic, and skeletal growth must be maintained throughout life. Although many growth promoters are associated with bone matrix, it is enriched particularly with transforming growth factor beta (TGF-beta) activity. Experimental evidence indicates that TGF-beta regulates replication and differentiation of mesenchymal precursor cells, chondrocytes, osteoblasts, and osteoclasts. Recent studies further suggest that TGF-beta activity in skeletal tissue may be controlled at multiple levels by other local and systemic agents. Consequently, the intricate mechanisms by which TGF-beta regulates bone formation are likely to be fundamental to understanding the processes of skeletal growth during development, maintenance of bone mass in adult life, and healing subsequent to bone fracture.

Irreversible injury in anoxic hepatocytes precipitated by an abrupt increase in plasma membrane permeability.

Abstract: Using low-light digitized video microscopy, the onset, progression, and reversibility of anoxic injury were assessed in single hepatocytes isolated from fasted rats. Cell-surface bleb formation occurred in three stages over 1-3 h after anoxia. Stage I was characterized by formation of numerous small blebs. In stage II, small blebs enlarged by coalescence and fusion to form a few large terminal blebs. Near the end of stage II, cells began to swell rapidly, ending with the apparent breakdown of one of the terminal blebs. Breakdown of the bleb membrane initiated stage III of injury and was coincident with a rapid increase of nonspecific permeability to organic cationic and anionic molecules. On reoxygenation, stages I and II were fully reversible, and plasma membrane blebs were resorbed completely within 6 min of reoxygenation without loss of viability. Stage III, however, was not reversible, and no morphological changes occurred on reoxygenation. The results indicate that onset of cell death owing to anoxia...

Age-related nephropathy in laboratory rats.

Abstract: Chronic progressive nephropathy is a spontaneous disease common among aging laboratory rats, often making it difficult to distinguish age-related from drug-related effects in chronic toxicity studies. Morphological changes of the kidney that occur with age include thickening of glomerular and proximal tubular basement membranes, mesangial proliferation, fusion of foot processes, and, ultimately, glomerular sclerosis. Proteinuria (specifically, albuminuria) is the most striking characteristic change in renal function of aging rats and, generally, correlates well with the severity of age-related glomerular pathology. Changes in tubular functions also may occur with aging but have not been investigated sufficiently. The pathogenesis of chronic progressive nephropathy is not known; however, hemodynamic adaptations after ad libitum consumption of protein-rich diets may be a contributing factor. High-protein diets increase glomerular pressures and flows, perhaps facilitating excretion of metabolic end products....

The neurobiology of human immunodeficiency virus infections.

Abstract: A variety of diseases of the central and peripheral nervous systems evolves during the course of human immunodeficiency virus (HIV) infections. Most are not related to documented opportunistic infections and may be the direct result of HIV infections, as large proportions of healthy and ill HIV-infected persons show evidence of nervous system infection. These diseases occur at different times during the infection and have diverse inflammatory, demyelinating, or degenerative pathological features that suggest different pathogenetic mechanisms. The route and determinants of HIV invasion of the nervous system are unknown. Within the brain, viral antigen and RNA are found predominantly in macrophages, but the reason why profound dementia and cortical atrophy result from this infection remains a mystery. By analogy to other lentivirus infections, particularly visna virus in sheep, neuropathological changes may be mediated by cytokines. Other possible pathogenetic mechanisms include toxicity of viral polypeptides, transactivation of viral or cellular genes, autoimmunity, or other opportunistic infections. Clarification of the pathogenesis of HIV-related diseases is critical to the design of rational therapies.

Glomerular hemodynamic and structural alterations in experimental diabetes mellitus.

Abstract: Elevated glomerular filtration rate (GFR) is a frequent finding in patients with early insulin-dependent diabetes mellitus (IDDM). The mechanisms responsible for this glomerular hyperfiltration in IDDM are unclear. Rats made diabetic with alloxan or streptozotocin, and treated daily with supplemental insulin, have moderate hyperglycemia and elevated GFR, and thus have been used to study mechanisms of glomerular hyperfiltration in diabetes. Renal micropuncture techniques have shown that single-nephron GFR (SNGFR) is elevated in moderately hyperglycemic diabetic rats. In some cases, this is because of elevated glomerular capillary pressure (Pgc), but in other cases, Pgc is normal despite elevated SNGFR. Several potential mediators of increased SNGFR have been examined, including hyperglycemia, increased glomerular prostaglandin production, and decreased sensitivity of the tubuloglomerular feedback mechanism. Renal failure is a common complication of human IDDM. Diabetic rats with long-term moderate hyperglycemia have been used to study the mechanism by which glomerular injury develops in diabetes mellitus. It has been postulated that glomerular hyperfiltration or some determinant of elevated GFR in early diabetes may ultimately cause glomerular damage, leading to a progressive loss of renal function (diabetic nephropathy). Diabetic rats with long-term moderate hyperglycemia, however, do not develop characteristic glomerular lesions of human diabetic nephropathy and, in fact, develop only minimal glomerular injury even after 1 year of diabetes. Thus, although the diabetic rat with moderate hyperglycemia may be useful to study the mechanisms of glomerular hyperfiltration in early diabetes, it may not be an appropriate model of renal failure in IDDM.

Regulation of protein kinase C activity by lipids.

Abstract: Protein kinase C is activated by the simultaneous presence of phospholipid, a diglyceride, and Ca2+. Under physiological conditions the activity of the enzyme is regulated by the availability of di...

A self-glucosylating protein is the primer for rabbit muscle glycogen biosynthesis.

Abstract: In this paper we elucidate part of the mechanism of the early stages of the biosynthesis of glycogen. This macromolecule is constructed by covalent apposition of glucose units to a protein, glycogenin, which remains covalently attached to the mature glycogen molecule. We have now isolated, in a 3500-fold purification, a protein from rabbit muscle that has the same Mr as glycogenin, is immunologically similar, and proves to be a self-glucosylating protein (SGP). When incubated with UDP-[14C]glucose, an average of one molecular proportion of glucose is incorporated into the protein, which we conclude is the same as glycogenin isolated from native glycogen. The native SGP appears to exist as a high-molecular-weight species that contains many identical subunits. Because the glucose that is self-incorporated can be released almost completely from the acceptor by glycogenolytic enzymes, the indication is that it was added to a preformed chain or chains of 1,4-linked alpha-glucose residues. This implies that SGP...