Estrogen as a Multi-Active Neuroprotective Agent in Traumatic Injuries

In the past decade, research has demonstrated that estrogens role in physiology and development is far more complicated than previously assumed. Among these discoveries, there has been an increased recognition of the impact estrogen has in neurodevelopment, central nervous system physiology, and neuropathophysiology. These observations have led many researchers to consider using estrogen pharmacotherapeutically, at physiologic or supraphysiologic doses, for a variety of injury and toxicity models. In this short review, the effects of estrogen as an anti-apoptotic agent, as an anti-oxidant, and as an anti-inflammatory agent are discussed. Finally, the possibility of using estrogen as a neuroprotectant in neurotrauma is addressed.Special issue dedicated to Dr. Lawrence F. Eng.     

Increased Cell Proliferation and Neurogenesis in the Hippocampal Dentate Gyrus of Old GFAP<Superscript>−/−</Superscript>Vim<Superscript>−/−</Superscript> Mice

In response to central nervous system (CNS) injury, and more discretely so also during aging, astrocytes become reactive and increase their expression of the intermediate filament proteins glial fibrillary acidic protein (GFAP) and vimentin. Studies of mice deficient in astrocytic intermediate filaments have provided insights into the function of reactive gliosis. Recently we demonstrated robust integrationof retinal transplants (1) and increased posttraumatic synaptic regeneration (2) in GFAP^–/–Vim^–/– mice, suggesting that modulation of astrocyte activity affects the permissiveness of the CNS environment for regeneration. Neurogenesis in the adult mammalian CNS is restricted to essentially two regions, the hippocampus and the subventricular zone. Here, we assessed neurogenesis in the hippocampus of 18-month-old GFAP^–/–Vim^–/– mice. In the granular layer of the dentate gyrus, cell proliferation/survival was 34% higher and neurogenesis 36% higher in GFAP^–/–Vim^–/– mice than in wildtype controls. These findings suggest that the adult hippocampal neurogenesis in healthy old mice can be increased by modulating astrocyte reactivity.Special issue dedicated to Lawrence. F. Eng.     

Rational men and the explanatory model approach

The previous issue of Culture, Medicine and Psychiatry (Vol. 5, N. 4) included my article When Rational Men Fall Sick: An Inquiry into Some Assumptions Made by Medical Anthropologists together with a series of comments. This paper consists of my replies to some of the commentators and a case study illustrating my points.My collaborators in this research were two physicians, Dr. Robert Like, of the Department of Family Practice of Case Western Reserve University and Dr. Rivka Plotkin of the Ben-Gurion University of the Negev (Israel). Also, I want to thank Avraham Blidstein for his invaluable assistance.     

Genotype patterns and characteristics of PRNP in the Korean population

Creutzfeldt-Jakob disease (CJD), included in the human transmissible spongiform encephalopathies (TSE), is widely known to be caused by an abnormal accumulation of misfolding prion protein in the brain. Human prion protein gene (PRNP) is mapped in chromosome 20p13 and many single nucleotide polymorphisms (SNPs) in PRNP have been discovered. However, the functionality of SNPs in PRNP is yet unclear, though several SNPs have been known as important mutation related with susceptibility human prion diseases. Our aim is to identify specific genotype patterns and characteristics in the PRNP genomic region and to understand susceptibility among Korean discriminated prion disease patients, suspected CJD patients and the KARE data group. Here, we have researched genotypes and SNPs allele frequencies in PRNP in discriminated prion disease patients group (n = 22), suspected prion diseases patients group (n = 163) and the Korea Association REsource (KARE) data group (n = 296) in Korea. The sequencing regions were promoter region, exon1 and exon2 with their junction parts among 481 samples. A total of 25 SNPs were shown in this study. Nucleotide frequencies of all SNPs are exceedingly tended to bias toward dominant homozygote types except in rs2756271. Genotype frequencies at codon 129 and 219 coding region were similar with previous studies in Korea and Japan. Pathogenic mutations such as 102P/L, 200E/K and 203V/I were observed in discriminated CJD patients group, and 180V/I and 232M/R were shown in suspected prion disease patients group and the KARE data group. A total of 10 SNPs were newly identified, six in the promoter region, one in exon 2 and three in the 3′ UTR. The strong and unique linkage disequilibrium (D' = 0.94, r² = 0.89) was observed between rs57633656 and rs1800014 which is located in codon 219 coding region. We expect that these data can be provided to determine specific susceptibility and a protective factor of prion diseases not only in Koreans but also in East Asians.     

An Enzyme-Linked Immunosorbent Assay for the Rapid Quantification of Intracellular and Extracellular Guanosine 3′,5′-cyclic Monophosphate in Cultured Glial Cells

A sensitive enzyme-linked, indirect immunosorbent assay (ELISA) for the determination of guanosine 3,5-cyclic monophosphate (cGMP) in glial cells is described. The assay uses an antiserum produced against succinylated cGMP and is based on the competition between endogenous cGMP and a fixed amount of immobilized antigen. The antibody exhibited a high degree of specificity with negligible cross reactivity with other nucleotides or related compounds. The standard curve, linearized using a logit–log transformation, had an operating range of 1 fmol/50 l to 5 pmol/50 l. The sensitivity of the assay was significantly increased by acetylation of standards and samples. Recoveries of cGMP from samples of cultured cells ranged from 85% to 105% with a mean recovery of 97% ± 7%. Levels of cGMP measured with the ELISA were in agreement with the corresponding values obtained using radioimmunoassay. The present method provides for a cheap, sensitive and simple alternative to the commercially available cGMP assays.Special issue dedicated to Dr. Lawrence F. Eng.     

Analysis of Glutamine Accumulation in Rat Brain Mitochondria in the Presence of a Glutamine Uptake Inhibitor,Histidine, Reveals Glutamine Pools With a Distinct Access to Deamidation

Rat cerebral nonsynaptic mitochondria were incubated in medium containing 2 mM glutamine (Gln) or 2 mM glutamate (Glu), in the presence of a Gln uptake inhibitor histidine (His) as well as other basic amino acids, lysine and arginine (Lys, Arg) not inhibiting Gln uptake. Subsequently, the mitochondrial contents of Glu and Gln were determined by HPLC. Incubation in the presence of Glu alone increased the Glu content from 3.5 to 15 nmol/mg protein, without affecting the Gln content. On the other hand, incubation with Gln increased the content of Gln from 1.5 to 12 nmol/mg, and that of Glu to 10 nmol/mg. As expected, addition of His did not alter the Glu and Gln content resulting from incubation with Glu. However, His significantly decreased to almost the preincubation level the content of Glu in mitochondria incubated with Gln, without affecting the content of Gln. No other amino acid had any effect on these parameters. The results point to the existence of distinct Gln pools, one of which is accessible to external Gln via a His-sensitive transporter and is accessible for deamidation in the mitochondria.Special issue dedicated to Dr. Lawrence F. Eng.     

Metabolism of [U-<Superscript>13</Superscript>C]Leucine in Cultured Astroglial Cells

Leucine is rapidly metabolized in astroglial primary cultures. Therefore, it is considered as valuable fuel in brain energy metabolism. Only few of the leucine metabolites generated and released by astroglial cells have been identified. Therefore, a more detailed study was performed analyzing by NMR techniques the ¹³C-labeled metabolites, which were released by astroglial primary cultures during the degradation of [U-¹³C]leucine. Confirming a former radioactive study this analysis revealed ¹³C-labeled 2-oxoisocaproate and ketone bodies. Additionally, ¹³C-labeled alanine, citrate, glutamine, lactate and succinate were identified. Their detailed isotopomer analysis proves that ¹³C-labeled acetyl-CoA enters the tricarboxylic acid cycle, that intermediates with a characteristic ¹³C-labeling pattern can be withdrawn at several positions of the cycle, and that in the case of lactate and alanine there appears to be a participation of an active phosphoenolpyruvate carboxykinase and/or malic enzyme pathway. Thus, astroglial cells generate and release into the extracellular fluid not only the leucine catabolites 2-oxoisocaproate and ketone bodies, but also several tricarboxylic acid cycle dependent metabolites.Special issue dedicated to Dr. Lawrence F. Eng.M. Gabriele Bixel and Jörn Engelmann contributed equally to this work.     

Combined Effects of Ammonia and Manganese on Astrocytes in Culture

Ammonia has been strongly implicated in the pathogenesis of hepatic encephalopathy (HE), and astrocytes appear to be the primary target of ammonia neurotoxicity. Recent work has shown that manganese also plays a role in the pathogenesis of HE and causes astrocyte morphologic and functional changes similar to ammonia. We therefore investigated whether a combination of these compounds could produce additive/synergistic effects. Cultured astrocytes treated with 5 mM ammonia (NH₄Cl) along with 100 M manganese acetate (MnAc) for 3 h showed a 55–65% increase in free radical production over ammonia or manganese alone (P < 0.05). There was also a 50% decrease in the mitochondrial membrane potential ( _m) at 24 h following treatment with NH₄Cl (5 mM) plus MnAc (50 M) Pt< 0.05), as compared to ammonia or manganese alone. Astrocytes treated with ammonia or manganese alone for 24 h showed no cell death, as determined by LDH release and light microscopic examination. However, cultures treated with ammonia plus manganese showed 80–90 necrotic cell death as estimated by light microscopy and 59 cell death as determined by LDH release. LDH release by ammonia plus manganese was blocked by the antioxidant superoxide dismutase (25 units/ml) as well as by the nitric oxide synthase inhibitor N-nitro-L-argininemethyl ester (500 M). In conclusion, ammonia plus manganese exert additive/synergetic effects on the induction free radicals, mitochondrial inner membrane depolarization and cellular integrity, which may contribute to the tissue injury associated with chronic forms of HE.Special issue dedicated to Lawrence. F. Eng.     

Alimentary prion infections: Touchdown in the intestine

Neurodegenerative diseases are caused by proteinaceous aggregates, usually consisting of misfolded proteins which are often typified by a high proportion of β-sheets that accumulate in the central nervous system. These diseases, including Morbus Alzheimer, Parkinson disease and Transmissible Spongiform Encephalopathies (TSEs)—also termed prion disorders—afflict a substantial proportion of the human population and, as such, the etiology and pathogenesis of these diseases has been the focus of mounting research. Although many of these diseases arise from genetic mutations or are sporadic in nature, the possible horizontal transmissibility of neurodegenerative diseases poses a great threat to population health. In this article we discuss recent studies that suggest that the “non-transmissible” status bestowed upon Alzheimer and Parkinson diseases may need to be revised as these diseases have been successfully induced through tissue transplants. Furthermore, we highlight the importance of investigating the “natural” mechanism of prion transmission including peroral and perenteral transmission, proposed routes of gastrointestinal uptake and neuroinvasion of ingested infectious prion proteins. We examine the multitude of factors which may influence oral transmissibility and discuss the zoonotic threats that Chronic Wasting disease (CWD), Bovine Spongiform Encephalopathy (BSE) and Scrapie may pose resulting in vCJD or related disorders. In addition, we suggest that the 37 kDa/67 kDa laminin receptor on the cell surface of enterocytes, a major cell population in the intestine, may play an important role in the intestinal pathophysiology of alimentary prion infections.Key words: prion, 37 kDa/67 kDa laminin receptor, CJD, BSE, CWD, scrapie, Alzheimer disease, Parkinson disease, intestine, enterocytesMany different mechanisms exist which underlie the etiology of the numerous neurodegenerative diseases affecting the human population. Amongst the most prominent are Morbus Alzheimer, prion disorders, Parkinson disease, Chorea Huntington, frontotemporal dementia and amylotrophic lateral sclerosis. The molecular mechanisms underlying these diseases vary; however, all neurodegenerative diseases share a common feature: they are caused by protein aggregation. The only neurodegenerative diseases proven to be transmissible are prion disorders. In contrast to frontotemporal dementia, recent evidence suggests that Alzheimer and Parkinson diseases may also be transmissible. Pre-symptomatic Alzheimer disease (APP23) mice exhibited an increase in the Alzheimer phenotype when brain homogenate of autopsied human Alzheimer disease patients and older, amyloid beta- (Aβ-) laden APP23 mice was injected into their hippocampi.¹ These findings suggest that the Aβ-abundant brain homogenate of Alzheimer disease patients may possess the ability to induce or supplement the overproduction of Aβ, possibly leading to the onset of Alzheimer disease.The pathological feature associated with Parkinson disease is the formation of Lewy bodies in cell bodies and neuronal processes in the brain.² The main component of these protein aggregates is α-synuclein (reviewed in ref. ²). Autopsies of Parkinson disease patients revealed that Lewy bodies had formed on healthy embryonic neurons that had been grafted onto the brain tissue of the patients several years before (prior to said examination).^3–5 It may thus be proposed that α-synuclein transmission is possible from diseased to healthy neurons, suggesting that Parkinson disease may be transmissible from a Parkinson disease patient to a healthy individual. These findings imply that Alzheimer and Parkinson diseases may be transmissible through tissue transplants and the use of contaminated surgical tools.⁶Prion disorders, also termed Transmissible Spongiform Encephalopathies (TSEs), are fatal neurodegenerative diseases that affect the central nervous system (CNS) of multiple animal species. In lieu of the social, economic and political ramifications of such infections, as well as the possible intra- and interspecies transmissibility of such disorders, various routes of experimental transmission have been investigated including intracerebral, intraperitoneal, intraventricular, intraocular, intraspinal and subcutaneous injections (reviewed in ref. ^7–9). However, such routes of transmission are not representative of the “natural” mechanism as the majority of prion disorders are contracted through ingestion of infectious prion (PrP^Sc) containing material. Thus, the peroral and perenteral prion transmission is of greatest consequence with respect to TSE disease establishment. Moreover, the presence of PrP^Sc in the buccal cavity of scrapie-infected sheep¹⁰ (reviewed in ref. ¹¹) and the possible horizontal transfer as a result hereof, as may be similarly proposed for animals suffering from other TSEs, may further contribute to the oral transmissibility of TSEs.A number of model systems have been employed to study TSE transmissibility. Owing to ethical constraints, TSE transmissibility to humans via the oral route may not be directly investigated and as a result hereof, alternative model systems are needed. These may include the use of transgenic mice, cell lines which are permissive to infection¹² and experimental animals such as sheep, calves, goats, minks, ferrets and non-human primates (reviewed in ref. ⁹).Intestinal entry of PrP^Sc has been proposed to occur via two pathways, the membranous (M) cell-dependent and M cell-independent pathways (Fig. 1).^13,14 The former involves endocytic M (microfold)-cells, which cover the intestinal lymphoid follicles (Peyer''s patches)¹⁴ and may take up prions and thereby facilitate the translocation of these proteins across the intestinal epithelium into the lymphoid tissues (reviewed in ref. ⁹) as has been demonstrated in a cellular model.¹³ Following such uptake by the M cells, the prions may subsequently pass to the dendritic cells and follicular dendritic cells (FDCs) (Fig. 1), which allow for prion transport to the mesenteric lymph nodes and replication, respectively.¹⁵ The prion proteins may subsequently gain access to the enteric nervous system (ENS) and ultimately the central nervous system (CNS).¹⁵Open in a separate windowFigure 1Proposed routes of gastrointestinal entry of ingested infectious prions (PrP^Sc) as well as possible pathways of amplification and transport to the central nervous system.However, prion intestinal translocation has been observed in the absence of M cells and has been demonstrated to be as a result of the action of polar, 37 kDa/67 kDa LRP/LR (non-integrin laminin receptor; reviewed in ref. ^16–18) expressing enterocytes. Enterocytes are the major cell population of the intestinal epithelium and due to their ability to endocytose pathogens, nutrients and macromolecules,¹⁹ it has been proposed that these cells may represent a major entry site for alimentary prions (Fig. 1).Since enterocyte prion uptake has been demonstrated to be dependent on the presence of LRP/LR on the apical brush border of the cells,^14,20 the interaction between varying prion protein strains and the receptor^21–23 may be employed as a model system to study possible oral transmissibility of prion disorders across species as well as the intestinal pathophysiology of alimentary prion infections.²⁴ Moreover, the blockage of such interactions through the use of anti-LRP/LR specific antibodies has been reported to reduce PrP^Sc endocytosis¹⁹ and thus these antibodies may serve as potential therapeutics to prevent infectious prion internalization and thereby prevent prion infections. It must be emphasized that the adhesion of prion proteins to cells is not solely dependent on the LRP/LR-PrP^Sc interactions;²⁴ however, this interaction is of importance with regards to internalization and subsequent pathogenesis.We applied the aforementioned cell model to study the possible oral transmission of PrP^BSE, PrP^CWD and ovine PrP^Sc to cervids, cattle, swine and humans.²⁴ The direct transmission of the aforementioned animal prion disorders to humans as a result of dietary exposure and the possible establishment of zoonotic diseases is of great public concern. It must however be emphasized that the study investigated the co-localization of LRP/LR and various prion strains and not the actual internalization process.PrP^BSE was shown to co-localize with LRP/LR on human enterocytes²⁴, thereby suggesting that PrP^BSE is transmissible to humans via the oral route which is widely accepted as the manner by which variant CJD originated. This suspicion was previously investigated using a macaque model, which was successfully perorally infected by BSE-contaminated material and subsequently lead to the development of a prion disorder that resembles vCJD.²⁵ These results, due to the evolutionary relatedness between macaques and humans, allowed researchers to confirm the oral transmissibility of PrP^BSE to humans. PrP^BSE may also potentially lead to prion disorder establishment in swine,²⁴ livestock of great economic and social importance.The prion disorder affecting elk, mule deer and white-tailed deer is termed CWD. Cases of the disease are most prevalent in the US but are also evident in Canada and South Korea.^26,27 As the infectious prion isoform is reported to be present in the blood²⁸ and skeletal muscle,²⁹ hunting, consumption of wild venison and contact with other animal products derived from CWD-infected elk and deer may thereby pose a public health risk. Our studies demonstrate that PrP^CWD co-localizes with LRP/LR on human enterocytes²⁴ thereby suggesting a possible oral transmissibilty of this TSE to humans. This is, however, inconsistent with results obtained during intra-cerebral inoculation of the brains and spinal cords of transgenic mice overexpressing the human cellular prion protein (PrP^c),^26,27 which is essential for TSE disease establishment and progression. Further, discrepancies have also been reported with respect to non-human primates, as squirrel monkeys have been successfully intracerebrally inoculated with mule-deer prion homogenates,³⁰ while cynolmolgus macaques were resistant to infection.³¹ CWD has been transmitted to ferrets, minks and goats³² and as these animals may serve as domestic animals or livestock, secondary transmission from such animals to humans, through direct contact or ingestion of infected material, may be an additional risk factor that merits further scientific investigation.Ovine PrP^Sc co-localization with LRP/LR on human and bovine enterocytes may be indicative of the infectious agents'' ability to effect cross-species infections. The oral transmissibility of Scrapie has been confirmed in hamsters fed with sheep-scrapie-infected material.³³The discrepancies with regards to the transmissibility of certain infectious prion proteins when assessed by different model systems may be due to the experimental transmission route employed. Oral exposure often results in significantly prolonged incubation times when compared to intracerebral inoculation techniques and thus failure of transgenic mice and normal experimental animals to develop disease phenotypes after being fed TSE-contaminated material may not necessarily indicate that the infection process failed.¹⁴ Apart from the route of infection, numerous other factors may influence transmission between species, including dose, PrP polymorphisms and genetic factors, the prion strain employed as well as the efficacy of prion transport to the CNS.³⁴ The degree of homology between the PrP^c protein in the animals serving as the infectious prion source and recipient has also been described as a feature limiting cross-species transmission.³⁴ The negative results, as referred to above, obtained upon prion-protein inoculation of animal models may have resulted due to the slow rate at which the infectious prion induces conformational conversion of the endogenous PrP^c in the animal cells and this in turn results in low levels of infectious prion replication and symptom development.²⁷Furthermore, even in the event that certain prion disorders are not directly transmissible to humans, most are transmissible to at least a single species of domestic animal or livestock. The infectious agents properties may be altered in the secondary host such that it becomes transmissible to humans (reviewed in ref. ³⁵). Thus, interspecies transmission between animals may indirectly influence human health.It is noteworthy to add that although the oral route of PrP^Sc transmission may result in prolonged incubation times, it may broaden the range of susceptible hosts. A common constituent of food is ferritin, a protein that is resistant to digestive enzyme hydrolysis and, due to its homology across species, it may serve as co-transporter of PrP^Sc and facilitate enterocyte internalization of the infectious prion.³⁶ It may thus be proposed that prion internalization may occur via a ferritin-PrP^Sc complex even in the absence of co-localization between the infectious agent and LRP/LR such that many more cross-species infections (provided that the other infection factors are favorable) may be probable.³⁷ In addition, digestive enzymes in the gastrointestinal tract facilitate PrP^Sc binding to the intestinal epithelium and subsequent intestinal uptake³⁶ and thus depending on the individuals'' digestive processes, the susceptibility to infection and the rate of disease development may vary accordingly. As a result hereof, though laboratory experiments in cell-culture and animal models may render a particular prion disorder non-infectious to humans, this may not be true for all individuals.In lieu of the above statements, with particular reference to inconsistencies in reported results and the multiple factors influencing oral transmissibility of TSEs, further transmission studies are required to evaluate the zoonotic threat which CWD, BSE and Scrapie may pose through ingestion.     

Ionic transporting systems of skeletal muscle in relation with innervation and their involvement in myotonic diseases

Excitation-contraction coupling describes the series of events that begins with propagated action potential on the muscle fiber surface membrane and leads to the twitch contraction of the fiber. The generation of an action potential during excitation requires rapid sequential changes in membrane conductances of Na⁺, Ca²⁺, and K⁺ ions that depend upon the opening and closing of the respective channels. Myotonic disorders are inherited diseases whose clinical manifestations include electrophysiological signs such as increased excitability and delayed relaxation of the muscles after voluntary contraction. All these disorders appears to be due to an abnormality of the muscle itself since they persist after section or blocking of the motor nerve after curarization. Most experimental and clinical data suggest that human myotonia arises from genetically-induced structural and functional alterations of the muscle membrane. The purpose of this article is to focus on the more recent developments in the molecular and pharmacological analysis of cation transporting systems such as ionic channels and (Na⁺, K⁺) ATPase in myotonic disorders.Special issue dedicated to Dr. Lawrence Austin.     

Biochemical Aspects of Neurodegeneration in Human Brain: Involvement of Neural Membrane Phospholipids and Phospholipases A<Subscript>2</Subscript>

Neural membrane phospholipids are hydrolyzed by a group of enzymes known as phospholipases. This process results in the generation of second messengers such as arachidonic acid, eicosanoids, platelet activating factor, and diacylglycerols. High levels of these metabolites are neurotoxic and are associated with neurodegeneration. The collective evidence from many studies suggests that neural membrane phospholipid metabolism is disturbed in neural trauma and neurodegenerative diseases. This disturbance is caused by the stimulation of phospholipases A₂. Stimulation of these enzymes produces changes in membrane permeability, fluidity, and alteration in ion homeostasis. Low calcium influx produces mild oxidative stress and results in neurodegeneration promoted by apoptosis, whereas a calcium overload generates high oxidative stress and causes neurodegeneration associated with necrosis. Alterations in phospholipid metabolism along with the accumulation of lipid peroxides and compromised energy metabolism may be responsible for neurodegeneration in ischemia, spinal cord trauma, head injury, and Alzheimer disease. The synthesis of phospholipases A₂ inhibitors that cross the blood-brain barrier without harm may be useful for the treatment of acute neural trauma and neurodegenerative diseases.Special issue dedicated to Dr. Lawrence F. Eng.     

Histochemical localization of adenosinetriphosphatase in the testicular and pre-testicular nephridia of the Indian leech Hirudinaria granulosa (Savigny)

Summary Adenosinetriphosphatase has been histochemically demonstrated in the initiallobe cells and the central canal in its first round in the pre-testicular and testicular nephridia of the Indian leech Hirudinaria granulosa. The apical-lobe cells are positive in the pre-testicular and negative in the testicular nephridia. The functional significance of the enzyme at these sites has been discussed.I wish to express my gratitude to Dr. H. B. Tewari, under whose guidance the present work has been carried out. I am also indebted to Dr. M. L. Dhar, Director, Central Drug Research Institute, Lucknow; Dr. P. S. Krishnan, Professor of Biochemistry, University of Lucknow; and Dr. (Miss) Usha Gupta, Department of Pathology, University of Lucknow, for the hospitality which they have accorded me in their laboratories.     

Phospholamban stoichiometry in canine cardiac muscle sarcoplasmic reticulum

Treatment of cardiac sarcoplasmic reticulum with the crosslinking reagent dithiobis (succinimidyl propionate) in the presence of¹²⁵I-calmodulin, resulted in the formation of a 40,000-dalton affinity labeled component, consisting of a 11, phospholamban:¹²⁵I-calmodulin complex. In parallel experiments, sarcoplasmic reticulum was phosphorylated in the presence of calmodulin and [-³²P]ATP, and then treated with the crosslinking reagent to produce an affinity labeled component consisting of a 11, calmodulin:³²P-phospholamban complex. These experiments permitted determination of the amount of¹²⁵I and³²P incorporated into the 40,000-dalton complexes, as well as the amount of³²P incorporated into the 23,000-dalton form of phospholamban. If 1 mol of Ca²⁺-dependent ATPase phosphoprotein represents 1 mol of 100,000-dalton Ca²⁺-dependent ATPase monomer, then there are 4.88±1.33 mol Ca²⁺-dependent ATPase/mol of phospholamba. If there are 2 mol of Ca²⁺-dependent ATPase phosphoprotein/mol of 100,000-dalton Ca²⁺-dependent ATPase monomer, then there are 9.76±2.66 mol Ca²⁺-dependent ATPase/mol phospholamban.Special issue dedicated to Dr. E. M. Shooter and Dr. S. Varon.     

Cryptic Axonal Antigens and Axonal Loss in Multiple Sclerosis

Axonal loss is well correlated with functional deficits in Multiple Sclerosis (MS); however, the molecular mechanisms that underlie this axonal loss are not understood. In this review we summarize evidence that antibodies to axolemma-enriched fractions (AEF) isolated from CNS myelinated axons may play a role in axonal destruction. AEF contains potent antigens that elicit high-titer antisera, which destroy neuritesin vitro, prevent neurite outgrowth, cause reactive changes in the neuronal cell bodies of origin and prevent myelination. We propose that these AEF antigens are cryptic because they are shielded from immune surveillance in vivo via the tightly sealed paranodal loops of myelin. Antibodies to AEF are found in cerebrospinal fluid (CSF) and sera of MS patients at higher levels compared with CSF or sera derived from patients with other neurological diseases. The potential identity of these cryptic antigens and their role in the axonal destruction characteristic of MS is discussed.Special issue dedicated to Lawrence F. Eng.     

Simul taneous production of alpha and beta amylases byBacillus subtilis MIR-5 in batch and continuous culture

Summary Simultaneous production of - and -amylase was studied in batch and continuous culture using starch as substrate inB. subtilis MIR-5. By mainipulating the cultural condition, both enzymes could then be produced by the same strain.Footnote: dedicated to 75^th aniverssary of Dr. Raul E. Trucco.     

The yeast prions [PSI+] and [URE3] are molecular degenerative diseases

The yeast prions [URE3] and [PSI] are not found in wild strains, suggesting they are not an advantage. Prion-forming ability is not conserved, even within Saccharomyces, suggesting it is a disease. Prion domains have non-prion functions, explaining some conservation of sequence. However, in spite of the sequence being constrained in evolution by these non-prion functions, the prion domains vary more rapidly than the remainder of the molecule, and these changes produce a transmission barrier, suggesting that these changes were selected to block prion infection. Yeast prions [PSI] and [URE3] induce a cellular stress response (Hsp104 and Hsp70 induction), suggesting the cells are not happy about being infected. Recently, we showed that the array of [PSI] and [URE3] prions includes a majority of lethal or very toxic variants, a result not expected if either prion were an adaptive cellular response to stress.Key words: [URE3], [PSI⁺], prion, Sup35p, Ure2pfMammalian prions are uniformly fatal, but a lethal yeast prion would not be detected by the usual procedure, which requires growth of a colony under some selective condition. As a result, the prion variants commonly studied are quite mild in their effects. This circumstance has led to the suggestion that yeast prions actually benefit their host. Sup35p, the translation termination subunit whose amyloid becomes the [PSI⁺] prion, is essential for growth and Ure2p, the nitrogen regulation protein whose amyloid constitutes the [URE3] prion, is important for growth, with ure2 mutants showing noticeably slowed growth.When yeast prions were discovered,¹ we assumed they were diseases, by analogy with the mammalian diseases and the many non-prion amyloid diseases. Inactivating the essential Sup35p or the desireable Ure2p did not seem like a useful strategy. While control of either protein''s activity might be advantageous, and Ure2p activity control is the key to regulation of nitrogen catabolism, prion formation is a stochastic process, so it makes control of activity of these proteins random instead of appropriate to the circumstances. The [Het-s] prion changed that picture.² Here was a prion necessary for a normal function, heterokaryon incompatibility, and we suggested that it was the first beneficial prion.³     

Cytochrome <Emphasis Type="Italic">c</Emphasis> Release and Caspase-3 Activation in Retinal Ganglion Cells Following Different Distance of Axotomy of the Optic Nerve in Adult Hamsters

This study examined the relationship between the distance of axotomy and the death of injured retinal ganglion cells (RGCs) in adult hamsters and the relationship of cytochrome c and caspase-3 on the death pathway of RGCs. The left optic nerve (ON) of adult hamsters was transected either at 1 or 3 mm away from the optic disc, and retrogradely labeled with Flurogold on the ON stump. After a predetermined period of postoperative time, the surviving RGCs were counted by retina flat-mount, and the activation of cytochrome c and caspase-3 were investigated by immunohistochemistry. Cell loss was found to be much faster (P < 0.01), more cells with cytochrome c were observed (P < 0.05) and the activation of caspase-3 was earlier when ON was transected 1 mm away from the optic disc than when was transected 3 mm away from the optic disc. Distance of axotomy affects the axotomized cell death rate where more RGCs died when the ON transection was applied closer to the eye. The timing of activation of caspase-3 in the RGCs may be linked to the distance of axotomy.Special issue dedicated to Dr. Lawrence F. Eng     

Neurodegenerative amyloidoses: Yeast model

More than 20 human diseases are associated with protein misfolding, which results in the appearance of amyloids, fibrillar aggregates of normally soluble proteins. Such diseases are termed amyloid diseases, or amyloidoses. Of these, only prion diseases are transmissible. Amyloids of the prion type are known for lower eukaryotes. While mammalian prions cause neurodegenerative diseases, prions of lower eukaryotes are associated with some nonchromosomally inherited phenotypic traits. The review summarizes the results of studying the prions of yeast Saccharomyces cerevisiae and data obtained using S. cerevisiae as a model to investigate some human amyloidoses such as Alzheimer’s, Parkinson’s, Huntington’s, and prion diseases.     

Gamma-ray spectrometry of humans at the University of Utah

Summary A human total-body counter was designed and built with two 20 × 10 cm NaI (Tl) crystals suspended over an isoresponse surface upon which the subject reclines. This surface is curved from head to knee and from left to right, so that a gamma-ray emitting object is detected with equal efficiency when placed anywhere upon it. The positioner and detectors are housed in a low background enclosure constructed of steel 31 cm thick with a graded inner lining of lead + cadmium + copper. Calibration of the system was accomplished by administering trace amounts of various radionuclides to 48 human subjects of various sizes, ranging in age from 4–80 years. Counting rates per retained Ci at 0.53, 0.66, 1.53, and 2.75 MeV (⁸³Rb,¹³⁷Cs,⁴²K, and²⁴Na) were determined as a function of body size and were compared with counting rates per Ci of corresponding emitters centered in a polyethylene cylinder of radius 10.3 cm. Limits of detection, corresponding to three times the standard deviation of a 50 min background, were 170 nCi⁹⁰Sr (via Bremsstrahlung X-rays), 0.78 nCi¹³¹I, 0.48 nCi⁸³Rb, 0.52 nCi¹³⁷Cs, 4.9 nCi⁴⁰K (or 5.8 g of natural potassium), and 1.7 nCi²²²Rn.Supported by US Department of Energy Contract EY-76-C-02-0119. This paper is dedicated to the memory of Dr. Fritz Schales, who died on 3 September 1976. Dr. Schales was a most valued friend of the first two authors and, until his death, served as Editorial Assistant of this journal