Interaction of human substantia nigra neuromelanin with lipids and peptides

Neuromelanin was isolated from human substantia nigra using different procedures. In the pigment isolated by any of these procedures a peptide component covalently bound to the melanic structure was found, as shown by treatment with reagents known to eliminate noncovalently bound proteins. The amino acid content of such a peptide component was reproducible and corresponded to approximately 15% of the neuromelanin weight. Neuromelanin also showed the ability to absorb specifically lipid molecules, approximately 20% of its weight, and among these lipids cholesterol was identified, constituting approximately 5% of the total lipid mixture. A synthetic melanin, incubated with putamen homogenate, bound tissue peptides with an amino acid content quite close to that of neuromelanin. The same synthetic melanin adsorbed a lower amount of lipids from the putamen homogenate compared with neuromelanin. The sulfur content of neuromelanin was also reproducible even using different isolation procedures. A nonpigmented tissue like corpus callosum was used as a control and extracted by the method used for neuromelanin isolation; a total elimination of tissue components was found, thus demonstrating the capability of the reported procedures to isolate neuromelanin alone. The presence of a peptide component in the neuromelanin structure and the selective affinity for lipid molecules suggest new aspects of the functional role and metabolic pathway of neuromelanin.     

Increased nonsterol isoprenoids, dolichol and ubiquinone, in the Smith-Lemli-Opitz syndrome: effects of dietary cholesterol

Smith-Lemli-Opitz syndrome (SLOS) is an inherited autosomal recessive cholesterol deficiency disorder. Our studies have shown that in SLOS children, urinary mevalonate excretion is normal and reflects hepatic HMG-CoA reductase activity but not ultimate sterol synthesis. Hence, we hypothesized that in SLOS there may be increased diversion of mevalonate to nonsterol isoprenoid synthesis. To test our hypothesis, we measured urinary dolichol and ubiquinone, two nonsterol isoprenoids, in 16 children with SLOS and 15 controls, all fed a low-cholesterol diet. The urinary excretion of both dolichol (P < 0.002) and ubiquinone (P < 0.02) in SLOS children was 7-fold higher than in control children, whereas mevalonate excretion was comparable. In a subset of 12 SLOS children, a high-cholesterol diet decreased urinary mevalonate excretion by 61% (P < 0.001), dolichol by 70% (P < 0.001), and ubiquinone by 67% (P < 0.03). Our hypothesis that in SLOS children, normal urinary mevalonate excretion results from increased diversion of mevalonate into the production of nonsterol isoprenoids is supported. Dietary cholesterol supplementation reduced urinary mevalonate and nonsterol isoprenoid excretion but did not change the relative ratios of their excretion. Therefore, in SLOS, a secondary peripheral regulation of isoprenoid synthesis may be stimulated.     

Residual substantia nigra neuromelanin in Parkinson's disease is cross-linked to alpha-synuclein

The pigmentation of substantia nigra pars compacta dopaminergic neurons is due to the presence of neuromelanin, an irregular macromolecular pigment belonging to the family of melanins. Depletion of neuromelanin in Parkinson's disease is typically indicated by loss of brown color in this area. Unlike that from controls, the pigment extracted from substantia nigra of parkinsonian patients seems to be mainly composed by highly cross-linked, protease-resistant proteic material and the neuromelanin macromolecule appears to be a minor presence. In the present paper we describe the isolation by SDS-PAGE of this proteic component after cleavage of the melanin backbone under solubilizing conditions. A single band is observed, which has been identified as alpha-synuclein by western blotting. As expected, the same process performed on a control specimen did not show occurrence of any major proteic component. Nevertheless, extraction from a 91 years old control with Lewy bodies displayed minor alpha-synuclein immunoreactive aggregates, whereas inclusion of free alpha-synuclein was not observed at all. Results reported here support the view that alpha-synuclein accumulates within substantia nigra neurons and is entrapped in pigment granules during neuromelanin biosynthesis, i.e. before the melanin depletion characteristic of Parkinson's disease starts.     

Leishmania amazonensis: biosynthesis of polyprenols of 9 isoprene units by amastigotes

The isoprenoid metabolic pathway in protozoa of the Leishmania genus exhibits distinctive characteristics. These parasites, as well as other members of the Trypanosomatidae family, synthesize ergosterol, instead of cholesterol, as the main membrane sterol lipid. Leishmania has been shown to utilize leucine, instead of acetate as the main precursor for sterol biosynthesis. While mammalian dolichols are molecules containing 15-23 isoprene units, Leishmania amazonensis promastigotes synthesize dolichol of 11 and 12 units. In this paper, we show that the intracellular stages of L. amazonensis, amastigotes, synthesize mainly polyprenols of 9 isoprene units, instead of dolichol.     

The intragranular location of carboxyl groups in neuromelanin and lipofuscin in human brain and in meningeal melanosomes in mouse brain

The intragranular location of carboxyl groups was tinctorially determined in human substantia nigra neuromelanin granules, human inferior olive lipofuscin granules, and mouse meningeal melanosomes. Soluble and insoluble lipid was stained with beta naphthol Sudans in unoxidized and oxidized frozen and paraffin sections containing neuromelanin or lipofuscin. Nile blue demonstrated carboxyls in unoxidized neuromelanin, lipofuscin, and melanin, and in oxidized neuromelanin and lipofuscin. Carbodiimide demonstrated carboxyls in unoxidized and oxidized lipofuscin and oxidized neuromelanin. In all instances, staining for carboxyls was inhibited by prior mild methylation, and proof of their presence was obtained by a pre-staining, stepwise, alternating, and repetitive mild demethylation, mild methylation sequence. Structurally, carboxyls were demonstrated in the neuromelanin granule's soluble lipid-free lipofuscin component, in the meningeal melanosome's melanin component, and virtually throughout the lipofuscin granule. The following structural and chemical basis was proposed for the different resistance of Nile blue staining of melanosomes and of neuromelanin and lipofuscin to acetone extraction. Nile blue forms an insoluble complex with melanosomal dopa-melanin's quinonoid, diphenolic, and undissociated carboxyl units. Such complex formation does not occur in neuromelanin's carboxyl-free dopamine-melanin component, however. Instead, Nile blue ionogenicly bonds with dissociated carboxyls belonging to the neuromelanin granule's lipofuscin component.     

Biosynthesis,Structure, and Function of Neuromelanin and its Relation to Parkinson's Disease: A Critical Update

No longer dismissed as just a mere curiosity in the family of melanin pigments, neuromelanin is attracting increasing interest as a central constituent of certain populations of dopaminergic neurons in the human substantia nigra, which may hold the key for the understanding of neuron functioning and degeneration in aging and in Parkinson's disease. It is the purpose of this article to provide a concise review of the most significant data on the origin, structure, and functional significance of neuromelanin that accrued over the past few years. It also aims at critically surveying the currently debated views regarding the role of such intriguing pigment in the etiology and biochemical pathology of Parkinson's disease.     

The structure of bactoprenol, a lipid formed by lactobacilli from mevalonic acid

1. The name `bactoprenol' has been given to the most abundant lipid formed by three species of lactobacilli from mevalonic acid. 2. A method for the preparation of pure bactoprenol is described. 3. The thin-layer chromatographic properties of bactoprenol and of its acetylated and hydrogenated derivatives resembled those of dolichol. 4. Analysis by mass spectrometry and by nuclear magnetic resonance showed that the molecule is formed by condensation of 10 unsaturated isoprene units and 1 saturated isoprene unit. 5. Its molecular weight is 768 and it has 10 double bonds/molecule. 6. Infrared spectroscopy and the uptake of acetyl groups indicated that the molecule contains a hydroxyl group. 7. It is concluded that bactoprenol is a C₅₅ isoprenoid alcohol.     

The influence of dolichol, dolichol esters, and dolichyl phosphate on phospholipid polymorphism and fluidity in model membranes

The effect of dolichols, polyprenols, dolichol esterified with fatty acids, and dolichyl phosphate on the structure and fluidity of model membranes was studied using 31P NMR, small-angle x-ray scattering, differential scanning calorimetry, and freeze-fracture electron microscopy. These studies suggest that dolichol and dolichol derivatives destabilize unsaturated phosphatidylethanolamine containing bilayer structures and promote hexagonal II phase formation; high concentrations of dolichol induce lipid structures characterized by "isotropic" 31P NMR and particulate fracture faces; dolichol, contrary to cholesterol, has no effect on the thermotropic behavior of membranes consisting of phosphatidylcholine, while dolichyl-P incorporation abolishes the transition from the gel to liquid crystalline phase in 1,2-dimyristoyl-sn-glycero-3-phosphocholine; both dolichol and dolichyl-P increase the fatty acid fluidity in phosphatidylethanolamine mixtures; the effect of dolichol on bilayer structure and fluidity is more pronounced with increasing number of isoprene residues; dolichol esters are only soluble to a limited extent in the bilayer and segregates into domains at low concentrations; the results are consistent with a localization of dolichyl-P in which the phosphate group is oriented to the water interphase. The induction of hexagonal II phase by dolichyl-P may elicit the transmembrane movement of glycosylated lipid intermediate.     

Dolichol: function, metabolism, and accumulation in human tissues.

Dolichol, a homologous series of alpha-saturated polyisoprenoid alcohols containing 14-24 isoprene units, was first isolated and characterized about 30 years ago. The phosphorylated form, dolichyl phosphate, is required for the biosynthesis of biologically important N-linked glycoproteins. Dolichol itself is synthesized by a common isoprenoid pathway from acetate and synthesis can be inhibited by some of the factors that inhibit cholesterol biosynthesis. It is metabolized very slowly and accumulates in tissues during aging and in certain lipid storage diseases. Dolichyl phosphate and cholesterol also accumulate in tissues during aging, but to a lesser extent than dolichol. Although dolichol and cholesterol have important metabolic functions, their accumulation in tissues can have deleterious effects.     

The neuromelanin of the human substantia nigra

The pigment of the human substantia nigra was isolated after extraction of lipids and proteins with 2% sodium cholate in 30% ethanol followed by 2% sodium dodecyl sulfate in 10% glycerol. The pigment was hydrolysed with HI or degraded by treatment with KMNO4 and the samples were examined for compounds known to derive from pheomelanin (4-amino-3-hydroxyphenylalanine, AHP and 4-amino-3-hydroxyphenylethylamine, AHPEA), or from eumelanin (pyrrole-2,3,5-tricarboxylic acid, PTCA). The HI hydrolysis yielded AHPEA in large quantities, indicating cysteinyldopamine as the main source of the pheomelanin moiety of the neuromelanin, but also trace amounts of AHP, derived from cysteinyldopa oxidation products. Dopamine and small quantities of dopa were also obtained by HI hydrolysis of the neuromelanin. The yield of PTCA was low, but the amounts observed show that part of the neuromelanin is of the eumelanin type, a fact compatible with an occasional exhaustion of the glutathione-cysteine reduction system at the site of neuromelanin formation.     

Purified Human Neuromelanin, Synthetic Dopamine Melanin as a Potential Model Pigment, and the Normal Human Substantia Nigra: Characterization by Electron Paramagnetic Resonance Spectroscopy

Abstract: Neuromelanin is a poorly understood pigment that accumulates in catecholaminergic neurons during normal aging. Electron paramagnetic resonance spectroscopy, an especially effective technique for investigating melanins, is used in the present study to show unambiguously that neuromelanin is a melanin; however, it is not well modeled by synthetic dopamine melanin and thus is an atypical melanin. Some of the unusual features of neuromelanin can be explained by postulating two distinct sources for its free radicals, the dominant one possibly derived from a precursor containing sulfur. Examination of human substantia nigra by electron paramagnetic resonance spectroscopy during the purification of neuromelanin also demonstrates, contrary to some other studies, that a portion of the paramagnetic metal ions in this tissue are bound to the pigment in situ. Combined with previous histochemical data, these observations have implications for the mechanism through which neuromelanin accumulates in vivo and are consistent with its having a cytoprotective function under normal conditions, but a cytotoxic role at advanced ages and in patients with Parkinson's disease. Other results of this study show that homogenizing tissues during the purification of any natural pigment may cause contamination of the pigment by extraneous metal ions and that subsequent incubation in hot acid, though most effective in removing metal ions and hydrolyzing proteins, leads to degradation of melanin. A purification procedure using incubation in acid at room temperature, however, is well suited for identifying and characterizing unknown natural pigments by electron paramagnetic resonance spectroscopy.     

Neuromelanin of the Human Substantia Nigra: A Mixed-Type Melanin

Abstract: Model melanins, synthesized with different cysteinyldopamine/dopamine ratios in the incubates, were oxidized with KMnO₄ and the resulting compounds were analyzed by HPLC. The ratios between a phaeomelanin-derived compound, thiazole-4,5-dicarboxylic acid (TDCA), and a compound derived from eumelanin, pyrrole-2,3,5-tricarboxylic acid (PTCA), reflected the composition of the model melanins. The neuromelanin of the human substantia nigra was isolated, and the pigment, as well as intact brain tissue from human substantia nigra was oxidized with KMnO₄ and the TDCA/PTCA ratios were determined. Analysis of the isolated neuromelanin showed it to contain 2.3% sulfur and 8.1% nitrogen. The sulfur content indicates the pigment is a mixed-type melanin, and the TDCA/PTCA ratio indicates that it consists of units derived from benzothiazines and from indoles in about equal amounts.     

The structure of neuromelanin as studied by chemical degradative methods

The biosynthesis, structure and function of neuromelanin (NM), the dark brown melanin-like pigment present in the substantia nigra (SN), are not well characterized, in spite of the possible involvement of NM in the etiology and pathogenesis of Parkinson's disease. NM was isolated from the SN of five non-Parkinsonian human brains. NM and synthetic melanins, employed as models, were characterized by chemical analysis. Alkaline hydrogen peroxide (H2O2) oxidation of NM generated four degradation products, pyrrole-2,3-dicarboxylic acid (PDCA), pyrrole-2,3,5-tricarboxylic acid (PTCA), thiazole-4,5-dicarboxylic acid (TDCA) and thiazole-2,3,5-tricarboxylic acid (TTCA), whose ratios, especially the TTCA to PDCA ratio, indicate that NM is derived mostly from dopamine (DA) with 25% incorporation of cysteine (Cys) in the form of a benzothiazine structure. Hydriodic acid (HI) reductive hydrolysis of NM yielded 4-amino-3-hydroxyphenylethylamine (4-AHPEA) as a marker of cysteinyldopamine (CysDA)-derived units. The 4-AHPEA to PDCA ratio indicates a 21% incorporation of CysDA-derived units into NM. These degradative experiments also suggest that DOPA is not incorporated into NM to a significant extent (approximately 6% the level of DA). It is concluded that the TTCA to PDCA ratio is a useful indicator of CysDA-derived units in NM, and NM consists mainly of DA-melanin with some contribution from CysDA-melanin. The involvement of DA and CysDA as building blocks of NM demonstrates the detoxifying role of NM synthesis, since it prevents the intraneuronal accumulation of DA and CysDA, which would cause toxic effects.     

Studies on digoxin--14C-acetate incorporation in to digoxin and degenerative changes in the brain in rats administered digoxin

The human hypothalamus produces an endogenous membrane Na+-K+ ATPase inhibitor digoxin. Digoxin is a steroidal glycoside and could be synthesised by the isoprenoid pathway. The other metabolites of the isoprenoid pathway are cholesterol, dolichol and ubiquinone. We have tried to find out the extent of incorporation of 14C acetate into digoxin in rat brain. The effects of digoxin administration on the rat brain was also studied. The results show that the percentage incorporation of 14C acetate into digoxin is low but detectable. The maximum incorporation was observed for cholesterol, followed by dolichol and finally ubiquinone. The histopathological changes observed after digoxin administration were focal degeneration of the ganglion cells in the cerebrum and cerebellum. The carbohydrate components of the glycoproteins were reduced and the concentration of serotonin, dopamine, and epinephrine showed a significant increase. The role of digoxin in mediating neuronal cell death is discussed.     

Incorporation of mevalonate into dolichol and other isoprenoids during estrogen-induced chick oviduct differentiation

Incorporation of [14C]mevalonate into dolichol and other isoprenoid compounds by chick oviduct explants has been studied. A reliable assay of dolichol biosynthesis employing several chromatographic procedures, including two-dimentional TLC, was developed. Incorporation of [14C]mevalonate into dolichol by oviduct explants was linear for at least 6 h. The effect of estrogen-induced differentiation was studied by incubation of explants obtained from chicks treated for various periods of time with diethylstilbestrol. Mevalonate incorporation into dolichol, when expressed as cpm per g of tissue, was not affected by estrogen treatment, but since the oviduct increased about 100-fold in mass during differentiation, each oviduct synthesizes about 100-fold more dolichol. In most tissues, the major product of mevalonate incorporation is cholesterol. However, although approx. 90% of the non-saponifiable 14C-labeled compounds were in the so-called 'cholesterol fraction', oviduct explants from estrogenized chicks synthesized little, if any, cholesterol. A number of cholesterol biosynthetic intermediates were observed, with compounds comigrating with squalene and lanosterol accounting for about 50% of the total. Since the estrogenized chick has serum cholesterol levels in the range of 800-900 mg/dl, these results suggest that oviduct has secondary control points which allow it to inhibit cholesterol synthesis when mevalonate is used as the precursor. In support of this hypothesis is the observation that explants from untreated chicks can incorporate mevalonate into cholesterol.     

Increased synthesis and concentration of dolichyl phosphate in mouse spleens during phenylhydrazine-induced erythropoiesis

Erythropoietic spleens from mice treated with phenylhydrazine synthesized dolichol + dolichyl acyl esters at a higher rate than did normal spleens, and this increased synthesis occurred 1–2 days after the peak of cholesterol synthesis. We have further characterized this dolichol synthesis and have found that at 4 days following phenylhydrazine treatment, dolichyl phosphate accounted for 30% of total synthesis, and at this time 60% of tissue dolichol was phosphorylated. In contrast, treatment with erythropoietin caused simultaneous increases in dolichol and cholesterol synthesis, with very low levels of dolichyl phosphate synthesis. The present results show that the synthesis and the mass of dolichyl phosphate increased in the spleens of phenyl-hydrazine- but not erythropoietin- treated mice.     

Lipid Compositions of Different Regions of the Human Brain During Aging

The neutral and phospholipid compositions of various regions of the human brain were analyzed using autopsy material covering the life period between 33 and 92 years of age. The protein content was also measured and, on a weight basis, this content is unchanged in the cerebellum, pons, and medulla oblongata, whereas in the 90-year-old group it decreases in the hippocampus, gray matter, and nucleus caudatus. In white matter, the protein content decreases continuously with age. The phospholipid composition is characteristic of the region investigated, but remains unchanged during aging. The total phospholipid content exhibits only a 5-10% decrease in the oldest age group. The content of dolichol and its polyisoprenoid pattern are also characteristic of the region analyzed. Between 33 and 92 years of age, the amount of dolichol in all portions of the brain increases three- to fourfold, but the isoprenoid pattern remains constant. The level of dolichyl-P varies between different regions, but only a moderate increase is seen with age. Ubiquinone content is highest in the nucleus caudatus, gray matter, and hippocampus, and in all areas this content is decreased to a great extent in the oldest age groups. All regions of the human brain are rich in cholesterol, but alterations in the amount of this lipid are highly variable during aging, ranging from no change to a 40% decrease.     

The chemical characterization of melanin contained in substantia nigra of human brain

The pigment of substantia nigra human brain has been extracted by a mild procedure consisting of washes with phosphate buffer, methanol and incubation with SDS-proteinase. Pyrolisis gas chromatography mass spectrometry infrared spectrometry, termogravimetric analysis and elemental analysis were the techniques used for the chemical characterization. An indole moiety bound to a sulfur containing amino acid and to palmitic acid were the main aspects found in the structure. The presence of a 7% inorganic component was observed. This probably contains Fe, Cu, Zn and Cr which are also relevant, for the formation and the role of melanin in substantia nigra neurons. The fatty acid moiety is chemically bound to the indole structure as it was not eliminated by repeated methanol washing. The same situation occurs for the sulfur containing gropu. Considering these data and the most abundant molecules present in substantia nigra the precursor of neuromelanin seems to be a cysteinyl-cethecol, to which is then bound a palmityl group.     

The chemical characterization of melanin contained in substantia nigra of human brain.

The pigment of substantia nigra human brain has been extracted by a mild procedure consisting of washes with phosphate buffer, methanol and incubation with SDS-proteinase. Pyrolysis gas chromatography mass spectrometry, infrared spectrometry, termogravimetric analysis and elemental analysis were the techniques used for the chemical characterization. An indole moiety bound to a sulfur containing amino acid and to palmitic acid were the main aspects found in the structure. The presence of a 7% inorganic component was observed. This probably contains Fe, Cu, Zn and Cr which are also relevant, for the formation and the role of melanin in substantia nigra neurons. The fatty acid moiety is chemically bound to the indole structure as it was not eliminated by repeated methanol washing. The same situation occurs for the sulfur containing group. Considering these data and the most abundant molecules present in substantia nigra the precursor of neuromelanin seems to be a cysteinyl-catechol, to which is then bound a palmityl group.