Geroprotection in the future. In memoriam of Joseph Knoll

In memoriam of Joseph Knoll: the selegiline story continues

Longevity study with low doses of selegiline/(-)-deprenyl and (2R)-1-(1-benzofuran-2-yl)-N-propylpentane-2-amine (BPAP)

AIMS: The first longevity study demonstrating that rats treated with the MAO-B inhibitory dose of (-)-deprenyl (0.25mg/kg) lived significantly longer than their saline-treated peers was published in 1988, and corroborated in many papers. The recent findings that (-)-deprenyl is primarily a PEA-derived synthetic catecholaminergic activity enhancersubstance; (2R)-1-(1-benzofuran-2-yl)-N-propylpentane-2-amine (BPAP) is a tryptamine-derived synthetic enhancer substance, initiated our first longevity study on rats with low enhancer doses of (-)-deprenyl and BPAP to test the enhancer effect's role inlife extension. MAIN METHODS: We used the shuttle box technique for selecting the optimum doses of (-)-deprenyl and BPAP. (-)-Deprenyl exerts in rats in 0.001mg/kg its 'specific' enhancer effect and in 0.1mg/kg its 'non-specific' enhancer effect. BPAP exerts its 'specific' enhancer effect in 0.0001mg/kg and its 'non-specific' enhancer effect in 0.05mg/kg. Groups of male Wistar rats (N=40) were treated subcutaneously from their 10th week until death, three times weekly, with saline (0.5ml/kg), and the selected doses of (-)-deprenyl or BPAP, respectively. As an indicator of aging we tested the age-related changes in their learning ability. KEY FINDINGS: Rats treated with 0.0001 or 0.05mg/kg BPAP lived significantly longer than their saline treated peers (P<0.02) and BPAP was more potent in extending rats' lifespan than (-)-deprenyl. 18-month-old rats treated with 0.0001mg/kg BPAP were as good learners as 3-month-old saline treated rats. SIGNIFICANCE: The study revealed that the enhancer effect is responsible for life extension

Az alpha-szinuklein szerepe Parkinson-kórban

alpha-synuclein, a small protein (140 amino acids) encoded by the SNCA gene is the best known isoform of the synuclein protein family. Though its physiological role is still not fully clarified, there is growing experimental evidence for a causal role of alpha-synuclein in the so-called conformational-neurodegenerative diseases. Conformational changes in the structure of the native soluble protein form insoluble neurotoxic aggregates and finally contribute to the formation of inclusion Lewy-bodies and Lewy-neurites. Neurodegeneration first hits the olfactory system, the peripheral autonomic nervous system, the enteric nervous system and the dorsal vagal motoneurons. The middle stage of the disease hits the dopaminergic neurons of the substantia nigra; and the neocortex is affected only in the late stage of the disease. This precise order of neurodegeneration is not always valid, but increases the likelihood that Lewy-bodies and neurodegenaration spread to intact areas in a prion-like way. Prions are infectious proteins which do not contain nucleic acids and cause diseases because they form toxic aggregates and filaments by misfolding in a beta-sheet-rich conformation. The misfolded protein behaves like a template inducing conformational change in the wild type proteins causing cross-reaction and leading to neurodegeneration. Later, the defective proteins may infect healthy nerve cells, thus neurodegeneration is extended. Growing experimental evidence shows that monomers and aggregates of alpha-synuclein are secreted via exocytosis from damaged nerve cells and taken up via endocytosis by healthy nerve cells furnishing evidence for the prion-like role of alpha-synuclein

A longevity study with enhancer substances (selegiline, BPAP) detected an unknown tumor-manifestation-suppressing regulation in rat brain

AIMS: First proof to show that (-)-deprenyl/selegiline (DEP), the first selective inhibitor of MAO-B, later identified as the first beta-phenylethylamine (PEA)-derived synthetic catecholaminergic activity enhancer (CAE) substance and (2R)-1-(1-benzofuran-2-yl)-N-propylpentane-2-amine (BPAP), the tryptamine-derived presently known most potent, selective, synthetic enhancer substance, are specific markers of unknown enhancer-sensitive brain regulations. MAIN METHODS: Longevity study disclosing the operation of tumor-manifestation-suppressing (TMS) regulation in rat brain. Immonohistochemical identification of a fibromyxosarcoma in rats. Experiments with human medulloblastoma cell lines. Analysis of the mechanism of action of enhancer substances. KEY FINDINGS: Whereas 20/40 saline-treated rats manifested a fibromyxosarcoma, in groups of rats treated with 0.001mg/kg DEP: 15/40 rats; with 0.1mg/kg DEP: 11/40 rats (P<0.01); with 0.0001mg/kg BPAP: 8/40 rats (P<0.001); with 0.05mg/kg BPAP: 7/40 rats (P<0.01) manifested the tumor. Experiments with human medulloblastoma cell lines, HTB-186 (Daoy); UW-228-2, showed that BPAP was devoid of direct cytotoxic effect on tumor cells, and did not alter the direct cytotoxic effectiveness of temozolomide, cisplatin, etoposide, or vincristine. Interaction with distinct sites on vesicular monoamine-transporter-2 (VMAT2) is the main mechanism of action of the enhancer substances which clarifies the highly characteristic bi-modal, bell-shaped concentration-effect curves of DEP and BPAP. SIGNIFICANCE: Considering of the safeness of the enhancer substances and the finding that DEP and BPAP, specific markers of unknown enhancer sensitive brain regulations, detected the operation of an enhancer-sensitive TMS-regulation in rat brain, it seems reasonable to test in humans low dose DEP or BPAP treatment against the spreading of a malignant tumor

(−)1-(Benzofuran-2-yl)-2-propylaminopentane, [(−)BPAP], a selective enhancer of the impulse propagation mediated release of catecholamines and serotonin in the brain

1. The brain constituents β-phenylethylamine (PEA) and tryptamine enhance the impulse propagation mediated transmitter release (exocytosis) from the catecholaminergic and serotoninergic neurons in the brain (‘catecholaminergic/serotoninergic activity enhancer, CAE/SAE, effect'). (−)Deprenyl (Selegiline) and (−)1-phenyl-2-propylaminopentane [(−)PPAP] are amphetamine derived CAE substances devoid of the catecholamine releasing property. 2. By changing the aromatic ring in PPAP we developed highly potent and selective CAE/SAE substances, structurally unrelated to the amphetamines. Out of 65 newly synthetized compounds, a tryptamine derived structure, (−)1-(benzofuran-2-yl)-2-propylaminopentane [(−)BPAP] was selected as a potential follower of (−)deprenyl in the clinic and as a reference compound for further analysis of the CAE/SAE mechanism in the mammalian brain. 3. (−)BPAP significantly enhanced in 0.18 μmol 1(−1) concentration the impulse propagation mediated release of [(3)H]-noradrenaline and [(3)H]-dopamine and in 36 nmol 1(−1) concentration the release of [(3)H]-serotonin from the isolated brain stem of rats. The amount of catecholamines and serotonin released from isolated discrete rat brain regions (dopamine from the striatum, substantia nigra and tuberculum olfactorium, noradrenaline from the locus coeruleus and serotonin from the raphe) enhanced significantly in the presence of 10(−12)–10(−14) M (−)BPAP. BPAP protected cultured hippocampal neurons from the neurotoxic effect of β-amyloid in 10(−14) M concentration. In rats (−)BPAP significantly enhanced the activity of the catecholaminergic and serotoninergic neurons in the brain 30 min after acute injection of 0.1 μg kg(−1) s.c. In the shuttle box, (−)BPAP in rats was about 130 times more potent than (−)deprenyl in antagonizing tetrabenazine induced inhibition of performance