Synthesis and neuromodulatory effects of TRH-related peptides: inhibitory activity on catecholamine release in vitro.

BACKGROUND: A detailed comprehension of central mechanisms underlying feeding behavior holds considerable promise for the treatment of alimentary disorders. METHODS: In order to elucidate the tight interrelationships occurring at the hypothalamic neuronal endings between aminergic neurotransmitters and co-localized appetite modulators, we initially studied the effects of two anorexigenic peptides structurally related to thyrotropin-releasing hormone (TRH, 1), namely cyclo(His-Pro) (CHP, 2) and pGlu-His-Gly-OH (3), on [(3)H]-norepinephrine and [(3)H]-dopamine release from perfused rat hypothalamic synaptosomes. Furthermore, a number of TRH and CHP analogues were synthesized and tested for their ability to influence neurotransmitter release in the selected neuronal model. RESULTS: Peptide 3 showed only a slight inhibitory activity on norepinephrine release, whereas no effect was observed for compound 2. TRH analogue 8, metabolically stabilized by the replacement of pyroglutamate with the pyrohomocysteic acid (pHcs), was found to be inactive. Conversely, a significant inhibitory effect on dopamine and norepinephrine release was observed for the CHP-related diketopiperazines cyclo(Leu-Pro) (11) and cyclo(His-Gly) (14). CONCLUSIONS: These results suggest a potential role for cyclo-dipeptides 11 and 14 in the hypothalamic modulation of appetite suppressant circuitry.

Isolation and characterization of the glutaminyl cyclases from Solanum tuberosum and Arabidopsis thaliana: implications for physiological functions.

Glutaminyl cyclases (QCs) catalyze the formation of pyroglutamic acid at the N-terminus of several peptides and proteins. On the basis of the amino acid sequence of Carica papaya QC, we identified cDNAs of the putative counterparts from Solanum tuberosum and Arabidopsis thaliana. Upon expression of the corresponding cDNAs from both plants via the secretory pathway of Pichia pastoris, two active QC proteins were isolated. The specificity of the purified proteins was assessed using various substrates with different amino acid composition and length. Highest specificities were observed with substrates possessing large hydrophobic residues adjacent to the N-terminal glutamine and for fluorogenic dipeptide surrogates. However, compared to Carica papaya QC, the specificity constants were approximately one order of magnitude lower for most of the QC substrates analyzed. The QCs also catalyzed the conversion of N-terminal glutamic acid to pyroglutamic acid, but with approximately 10(5)- to 10(6)-fold lower specificity. The ubiquitous distribution of plant QCs prompted a search for potential substrates in plants. Based on database entries, numerous proteins, e.g., pathogenesis-related proteins, were found that carry a pyroglutamate residue at the N-terminus, suggesting QC involvement. The putative relevance of QCs and pyroglutamic acid for plant defense reactions is discussed.

Alpha-tocopherol pro-vitamins: synthesis, hydrolysis and accumulation in rabbit ear skin.

We synthesized esters of alpha-tocopherol (VE) with the aim to develop new pro-vitamins, easily reconverted by enzymes in the skin and able to release another active moiety such as an amino acid, in order to obtain a synergic effect. In particular, the attention was dedicated to the amino acids glycine and alanine and to pyroglutamic acid. The sensitivity of pro-vitamins to enzymatic hydrolysis was evaluated in vitro using porcine liver esterase. Permeation experiments were performed using rabbit ear skin, for the quantification of pro-vitamins and derived VE in the epidermis and dermis. The new derivatives synthesized, and in particular the glycine and alanine derivatives, accumulated in rabbit skin in a significant extent and originated substantial amounts of alpha-tocopherol. In comparison with the acetate derivative (VEAc), the amounts accumulated are comparable or higher. Moreover, the new derivatives, being more hydrophilic, allow the use of vehicles such as the mixture water/propylene glycol/ethanol widely employed for the preparation of creams and gels. Finally, the enzymatic metabolism of these new derivatives generates not only VE, but also components that can have a further advantageous action on skin.

Synthesis and preliminary pharmacological evaluation of pidotimod, its enantiomer, diastereomers and carboxamido derivatives.

A new compound with a peptide-like structure, (R)-3-[(S)-(5-oxo-2-pyrrolidinyl)carbonyl]-thiazolidine-4-carboxylic acid, its enantiomer, diastereomers and carboxamido derivatives were synthesized and tested for immunostimulant activity. Synthesis, preliminary, pharmacological data and structure-activity relationships are reported. (R)-3-[(S)-(5-Oxo-2-pyrrolidinyl)carbonyl]-thiazolidine-4-carboxylic acid (Ib, Pidotimod, PGT/1A, CAS 121808-62-6) was selected for further research.