In vivo metabolism of the designer anabolic steroid hemapolin in the thoroughbred horse

Hemapolin (2α,3α‐epithio‐17α‐methyl‐5α‐androstan‐17β‐ol) is a designer steroid that is an ingredient in several “dietary” and “nutritional” supplements available online. As an unusual chemical modification to the steroid A‐ring could allow this compound to pass through antidoping screens undetected, the metabolism of hemapolin was investigated by an in vivo equine drug administration study coupled with GC‐MS analysis. Following administration of synthetically prepared hemapolin to a thoroughbred horse, madol (17α‐methyl‐5α‐androst‐2‐en‐17β‐ol), reduced and dihydroxylated madol (17α‐methyl‐5α‐androstane‐2β,3α,17β‐triol), and the isomeric enone metabolites 17β‐hydroxy‐17α‐methyl‐5α‐androst‐3‐en‐2‐one and 17β‐hydroxy‐17α‐methyl‐5α‐androst‐2‐en‐4‐one, were detected and confirmed in equine urine extracts by comparison with a library of synthetically derived reference materials. A number of additional madol derivatives derived from hydroxylation, dihydroxylation, and trihydroxylation were also detected but not fully identified by this approach. A yeast cell‐based androgen receptor bioassay of available reference materials showed that hemapolin and many of the metabolites identified by this study were potent activators of the equine androgen receptor. This study reveals the metabolites resulting from the equine administration of the androgen hemapolin that can be incorporated into routine GC‐MS antidoping screening and confirmation protocols to detect the illicit use of this agent in equine sports.     

A New Series of 1,3‐Dihidro‐Imidazo[1,5‐c]thiazole‐5,7‐Dione Derivatives: Synthesis and Interaction with Aβ(25‐35) Amyloid Peptide

Deposition of senile plaques composed of fibrillar aggregates of Aβ‐amyloid peptide is a characteristic hallmark of Alzheimer’s disease. A widely employed approach in the study of anti‐Alzheimer agents involves the identification of substances able to prevent amyloid aggregation, or to disaggregate the amyloid fibrils through a direct structural interaction with the soluble or aggregated forms of the peptide. Here, we report the synthesis of a set of 1,3‐dihydro‐3,6‐disubstituted‐imidazo[1,5‐c]thiazole‐5,7‐dione derivatives supporting different alkyl, aryl and alkylamine side chains. The ability of these compounds to interact with the Aβ(25‐35) peptide was evaluated using circular dichroism, nuclear magnetic resonance and thioflavin fluorescence spectroscopy. A molecular model for Aβ(25‐35)–ligand interactions was calculated by molecular docking procedures. Our data show that the ability of the synthesized compounds to modify the structural behaviour of Aβ(25‐35) varies as a function of the overall structural features of the ligands rather contributions from specific individual substituents.     

Fenofibrate induced PPAR alpha expression was attenuated by oestrogen receptor alpha overexpression in Hep3B cells

The physiological regulation of Oestrogen receptor α (ERα) and peroxisome proliferator‐activated receptor alpha (PPARα) in Hepatocellular carcinoma (HCC) remains unknown. The present study we first treat the cells with fenofibrate and further investigated the possible mechanisms of 17β‐estradiol (E₂) and/or ERα on regulating PPARα expression. We also found higher PPARα expression in the tumor area than adjacent areas and subsequently compared PPARα expression in four different hepatic cancer cell lines. Hep3B cells were found to express more PPARα than the other cell lines. Using the PPARα agonist fenofibrate, we found that fenofibrate increased Hep3B cell proliferation efficiency by increasing cell cycle proteins, such as cyclin D1 and PCNA, and inhibiting p27 and caspase 3 expressions. Next, we performed transient transfections and immuno‐precipitation studies using the pTRE2/ERα plasmid to evaluate the interaction between ERα and PPARα. ERα interacted directly with PPARα and negatively regulated its function. Moreover, in Tet‐on ERα over‐expressed Hep3B cells, E₂ treatment inhibited PPARα, its downstream gene acyl‐CoA oxidase (ACO), cyclin D1 and PCNA expression and further increased p27 and caspase 3 expressions. However, over‐expressed ERα plus 17‐β‐estradiol (10⁻⁸ M) reversed the fenofibrate effect and induced apoptosis, which was blocked in ICI/melatonin/fenofibrate‐treated cells. This study illustrates that PPARα expression and function were negatively regulated by ERα expression in Hep3B cells.     

Inhibition of glycogen synthase kinase 3β prevents peroxide‐induced collapse of mitochondrial membrane potential in rat ventricular myocytes

1. Preconditioning has been proposed to protect the myocardium by inhibiting glycogen‐synthase kinase (GSK) 3β. The aim of the present study was to test whether transfection of ventricular myocytes with inactive GSK3β would mimic preconditioning and whether a constitutively active form of GSK3β would prevent protection by an opioid receptor agonist. 2. Isolated ventricular myocytes from adult rats were infected with live adenovirus containing either a wild‐type (wtGSK), constitutively active (caGSK) or dominant‐negative (dnGSK) GSK3β plasmid. Cells were loaded with tetramethylrhodamine ethyl ester (TMRE) and exposed to H₂O₂ (100 μmol/L) for 40 min before mitochondrial membrane potential (ΔΨ_m) was assessed using flow cytometric analysis. 3. Fluorescence intensity was reduced in H₂O₂‐treated cells compared with untreated cells, presumably because oxidant injury opened mitochondrial permeability transition pores, causing mitochondria to lose TMRE. The selective GSK3β inhibitor SB216763, as well as the δ‐opioid receptor agonist [d ‐Ala²‐d ‐Leu⁵]‐enkephalin (DADLE) (1 μmol/L), protected cells against peroxide‐induced loss of ΔΨ_m. 4. Cells transfected with dnGSK (1 μmol/L) were equally protected against peroxide stress, when given throughout the TMRE and H₂O₂ treatment, confirming a protective effect of GSK3β with a highly selective inhibition. Cells transfected with wtGSK did not show any difference in responses to H₂O₂, SB216763 or DADLE compared with untransfected cells, suggesting that adenovirus infection itself had no effect. In contrast, caGSK‐transfected myocytes could no longer be protected with DADLE, suggesting a role for GSK3β between the surface receptor and the mitochondria. 5. These experiments confirm that inhibition of GSK3β protects the myocytes, but also that the preconditioning mimetic DADLE loses its protective effect when a constitutively active GSK3β is present.     

The Proteolytic Stability and Cytotoxicity Studies of l‐Aspartic Acid and l‐Diaminopropionic Acid derived β‐Peptides and a Mixed α/β‐Peptide

The use of peptides as drugs in pharmaceutical applications is hindered by their susceptibility to proteolysis and therefore low bioavailability. β‐Peptides that contain an additional methylene group in the backbone, are gaining recognition from a pharmaceutical stand point as they are considerably more resilient to proteolysis and metabolism. Recently, we reported two new classes of β ‐peptides, β ³‐ and β²‐peptides derived from l ‐aspartic acid and l ‐diaminopropionic acid, respectively. Here, we report the proteolytic stability of these β‐peptidic compounds and a mixed α /β‐peptide against three enzymes (pronase, trypsin and elastase), as well as, human serum. The stability of these peptides was compared to an α‐peptide. Peptides containing β‐linkages were resistant to all conditions. The mixed α /β‐peptide, however, exhibited proteolysis in the presence of trypsin and pronase but not elastase. The rate of degradation of the mixed α /β‐peptide was slower than that would be expected for an α‐peptide. In addition, these β‐peptides were not toxic to HeLa and COS‐1 cell lines as observed by MTT cytotoxicity assay. These results expand the scope of mixed α /β‐peptides containing β‐amino acids or small β‐peptide fragments as therapeutic peptides.     

Estrogen and ERα enhanced β‐catenin degradation and suppressed its downstream target genes to block the metastatic function of HA22T hepatocellular carcinoma cells via modulating GSK‐3β and β‐TrCP expression

In our previous experiments, we found β‐catenin was highly expressed in the tumor area with high invasive ability and poor prognosis. In this study, we have examined the mechanism by which ERα regulates β‐catenin expression as well as the metastasis ability of hepatocellular cancer HA22T cells. To identify whether the anticancer effect of estrogen and ERα is mediated through suppression of β‐catenin expression, we co‐transfected pCMV‐β‐catenin and ERα into HA22T cells, and determined the cell motility by wound healing, invasion, and migration assays. Results showed that estrogen and/or ERα inhibited β‐catenin gene expression and repressed HA22T cell motility demonstrated that similar data was observed in cells expressing the ERα stable clone. Moreover, we examined the protein‐protein interaction between ERα and β‐catenin by immunostain, co‐immunoprecipitation, and Western blotting. E2 enhanced the binding of ERα with β‐catenin and then triggered β‐catenin to bind with E3 ligase (βTrCP) to promote β‐catenin degradation. Finally by employing systematic ChIP studies, we showed ERα can interact directly with the β‐catenin promoter region following E2 treatment. All our results reveal that estrogen and ERα blocked metastatic function of HA22T cells by modulating GSK3β and βTrCP expression and further enhanced β‐catenin degradation and suppressed its downstream target genes. © 2016 Wiley Periodicals, Inc. Environ Toxicol 32: 519–529, 2017.     

Ferulidilol: A vasodilatory and antioxidant adrenoceptor and calcium entry blocker,with ancillary β2‐agonist activity

Intravenous injection of ferulidilol (0.5, 1.0, 1.5 mg kg⁻¹) produced dose‐dependent hypotensive and bradycardia responses in pentobarbital‐anesthetized Wistar rats. Ferulidilol competitively antagonized (‐)isoprenaline‐induced positive inotropic and chronotropic effects of the atria and tracheal relaxation responses on isolated guinea pig tissues. The parallel shift to the right of the concentration–response curve of (‐)isoprenaline suggested that ferulidilol was a β‐adrenoceptor antagonist. The apparent pA₂ values were 8.04 ± 0.09 for the right atria, 8.03 ± 0.15 for the left atria, and 7.51 ± 0.06 for the trachea, respectively. Ferulidilol was more potent than labetalol. In thoracic aorta experiments, ferulidilol also produced a competitive antagonism of norepinephrine‐ and CaCl₂‐induced contraction with pA₂ and pKCa⁻¹ values of 7.05 ± 0.03 and 6.04 ± 0.05, respectively. Ferulidilol produced cumulative relaxation responses on isolated tracheal strips from reserpine‐treated guinea pigs. The effects were competitively antagonized by ICI 118,551 (10⁻⁸–10⁻⁶ M), a relatively selective β₂‐adrenoceptor antagonist. The results implied that ferulidilol had partial β₂‐agonist activity. In the radioligand binding assay, ferulidilol produced dose‐dependent inhibition of [³H]CGP‐12177 binding to rat ventricle and lung membranes with K_i values of 3.40 and 17.94 nM, respectively. In addition, ferulidilol also antagonized [³H]prazosin and [³H]nitrendipine binding to rat brain membrane with K_i values of 32.48 and 305.01 nM, respectively. These results further confirmed the α/β and calcium entry blocking activities of ferulidilol described in functional studies. Furthermore, ferulidilol (10⁻⁸–10⁻⁵ M] inhibited lipid peroxidation induced by Fe²⁺ and ascorbic acid, indicating that it possesses the antioxidant activity inherent in ferulic acid. Our results demonstrate that ferulidilol is a new generation α/β‐adrenoceptor blocker with ancillary calcium entry blockade, partial β₂‐agonist activities and additional antioxidant effects. Drug Dev. Res. 47:77–89, 1999. © 1999 Wiley‐Liss, Inc.     

Insights into the determinants of β‐sheet stability: 1H and 13C NMR conformational investigation of three‐stranded antiparallel β‐sheet‐forming peptides

Abstract: In a previous study we designed a 20‐residue peptide able to adopt a significant population of a three‐stranded antiparallel β‐sheet in aqueous solution (de Alba et al. [1999]Protein Sci. 8, 854–865). In order to better understand the factors contributing to β‐sheet folding and stability we designed and prepared nine variants of the parent peptide by substituting residues at selected positions in its strands. The ability of these peptides to form the target motif was assessed on the basis of NMR parameters, in particular NOE data and ¹³C_α conformational shifts. The populations of the target β‐sheet motif were lower in the variants than in the parent peptide. Comparative analysis of the conformational behavior of the peptides showed that, as expected, strand residues with low intrinsic β‐sheet propensities greatly disfavor β‐sheet folding and that, as already found in other β‐sheet models, specific cross‐strand side chain–side chain interactions contribute to β‐sheet stability. More interestingly, the performed analysis indicated that the destabilization effect of the unfavorable strand residues depends on their location at inner or edge strands, being larger at the latter. Moreover, in all the cases examined, favorable cross‐strand side chain–side chain interactions were not strong enough to counterbalance the disfavoring effect of a poor β‐sheet‐forming residue, such as Gly.     

Pharmacokinetics of nebivolol in the rat: low oral absorption,loss in the gut and systemic stereoselectivity

Nebivolol is a third‐generation β1‐adrenoceptor blocker with β3 agonistic properties (AR). It has a low oral bioavailability that is speculated to be due to its hepatic first‐pass metabolism. Inflammation is known to suppress the clearance of drugs with efficient hepatic metabolism. However, inflammation does not influence nebivolol clearance. Therefore, we looked into the mechanism involved in the drug's low bioavailability and stereoselectivity. Single 1 mg/kg i.v. or intraperitoneal (i.p.) or 2 mg/kg oral doses were administered to male Sprague‐Dawley rats and the plasma nebivolol concentration was measured using chiral and achiral assays. The passage of nebivolol enantiomers through the gut was also measured using everted rat sacs. The serum protein binding of the enantiomers was studied in vitro using the ultrafiltration method. Plasma nebivolol concentrations were significantly lower after p.o., but not after i.p., compared with i.v. doses suggesting the gut as the site of pre‐systemic loss. Approximately 50% of the enantiomers were lost during 90 min incubation in the presence of gut. Only 0.1% of the added drug crossed the gut wall with no evidence of stereoselectivity. Thus stereoselectivity in the pharmacokinetics of nebivolol (+ > ‐) is likely at the level of plasma protein binding. The low nebivolol bioavailability is due to its loss in the gut as well as its limited permeability through the intestinal wall. Copyright © 2013 John Wiley & Sons, Ltd.     

Potencies of vitamin D analogs, 1α‐hydroxyvitamin D3, 1α‐hydroxyvitamin D2 and 25‐hydroxyvitamin D3, in lowering cholesterol in hypercholesterolemic mice in vivo

Vitamin D₃ and the synthetic vitamin D analogs, 1α‐hydroxyvitamin D₃ [1α(OH)D₃], 1α‐hydroxyvitamin D₂ [1α(OH)D₂] and 25‐hydroxyvitamin D₃ [25(OH)D₃] were appraised for their vitamin D receptor (VDR) associated‐potencies as cholesterol lowering agents in mice in vivo. These precursors are activated in vivo: 1α(OH)D₃ and 1α(OH)D₂ are transformed by liver CYP2R1 and CYP27A1 to active VDR ligands, 1α,25‐dihydroxyvitamin D₃ [1,25(OH)₂D₃] and 1α,25‐dihydroxyvitamin D₂ [1,25(OH)₂D₂]_, respectively. 1α(OH)D₂ may also be activated by CYP24A1 to 1α,24‐dihydroxyvitamin D₂ [1,24(OH)₂D₂], another active VDR ligand. 25(OH)D₃, the metabolite formed via CYP2R1 and or CYP27A1 in liver from vitamin D₃, is activated by CYP27B1 in the kidney to 1,25(OH)₂D₃. In C57BL/6 mice fed the high fat/high cholesterol Western diet for 3 weeks, vitamin D analogs were administered every other day intraperitoneally during the last week of the diet. The rank order for cholesterol lowering, achieved via mouse liver small heterodimer partner (Shp) inhibition and increased cholesterol 7α‐hydroxylase (Cyp7a1) expression, was: 1.75 nmol/kg 1α(OH)D₃ > 1248 nmol/kg 25(OH)D₃ (dose ratio of 0.0014) > > 1625 nmol/kg vitamin D₃. Except for 1.21 nmol/kg 1α(OH)D₂ that failed to lower liver and plasma cholesterol contents, a significant negative correlation was observed between the liver concentration of 1,25(OH)₂D₃ formed from the precursors and liver cholesterol levels. The composite results show that vitamin D analogs 1α(OH)D₃ and 25(OH)D₃ exhibit cholesterol lowering properties upon activation to 1,25(OH)₂D₃: 1α(OH)D₃ is rapidly activated by liver enzymes and 25(OH)D₃ is slowly activated by renal Cyp27b1 in mouse.     

Protective effects of lithium treatment for spatial memory deficits induced by tau hyperphosphorylation in splenectomized rats

1. Postoperative cognitive dysfunction has become more prevalent in recent years. We used a splenectomized rat model with postoperative spatial learning and memory deficits to investigate the role of tau hyperphosphorylation and glycogen synthase kinase‐3β (GSK‐3β) within the hippocampus. 2. Cognitive function was assessed in a Y‐maze 1 day before and 1, 3 and 7 days after surgery. We measured site‐specific phosphorylation of hippocampal tau (Thr‐205 and Ser‐396), GSK‐3β activity and expression of interleukin‐1β (IL‐1β), tumour necrosis factor‐α (TNF‐α) mRNA and protein as markers of inflammation. We also tested the effects of treatment with lithium chloride (LiCl), a GSK‐3β inhibitor. 3. Splenectomy was associated with learning and memory impairment 3 days later, as well as a rapid and massive hyperphosphorylation of hippocampal tau at Thr‐205 and Ser‐396, activated GSK‐3β, and increased IL‐1β and TNF‐α expression. LiCl completely restored tau hyperphosphorylation to control levels. 4. These data from the splenectomized rat model suggest that inflammatory factors affect tau pathology through the GSK‐3β signalling pathway and that LiCl is a promising treatment for postoperative cognitive deficits.     

A comparative study for detecting CYP3A induction by CYP3A probe drugs and endogenous markers in cynomolgus monkeys

CYP3A probe drugs such as midazolam and endogenous markers, and plasma 4β‐hydroxycholesterol (4β‐OHC) and urinary 6β‐hydroxycortisol‐to‐cortisol ratios (6β‐OHC/C) have been used as markers of CYP3A induction in cynomolgus monkeys, as with humans. However, there is limited information on their sensitivity and ability to detect CYP3A induction, as most studies were evaluated only at a high dose of the inducer, rifampicin (RIF; 20 mg/kg). In the present study, the CYP3A induction by RIF over a range doses of 0.2, 2 and 20 mg/kg (n = 4) was examined using CYP3A probe drugs (midazolam, triazolam and alprazolam) and the plasma and urinary endogenous CYP3A markers (4β‐OHC and 6β‐OHC/C). The sensitivity and relationship for detecting CYP3A induction was compared among the markers. Four days repeated oral administration of rifampicin to cynomolgus monkeys reduced the area under the plasma concentration–time curve of all CYP3A probe drugs in a rifampicin dose‐dependent manner. Although the endogenous CYP3A markers (4β‐OHC and 6β‐OHC/C) were also changed for the middle (2 mg/kg) and high (20 mg/kg) doses of rifampicin, the fold‐changes were relatively small, and CYP3A induction could not be detected at the lowest dose of rifampicin (0.2 mg/kg). In conclusion, CYP3A probe drugs are more sensitive for detecting CYP3A induction than endogenous CYP3A markers in cynomolgus monkeys, even for a short experimental period.     

Deleterious effects of non‐synonymous single nucleotide variants of human IL‐1β gene

The IL‐1β gene is currently topic of interest for its important role in the pathogenesis of intervertebral disk degeneration. The new sequencing technology makes it crucial to study the effects of variants in IL‐1β. Thus, 714 IL‐1β variants with evidence supporting were collected from the EMBL database. Among them, 62 were non‐synonymous single nucleotide variants (nsSNVs). Furthermore, six common nsSNVs were predicted to have damaging effects by SIFT, PolyPhen, PROVEAN and SNPs&GO. Based on the constructed three‐dimensional structure of pro‐IL‐1β, rs375479974 with a mutation of Phe to Ser was proposed to reduce the stability of the pro‐IL‐1β protein. The rs375479974 variant was found to cause least common stabilizing amino acid residues, decrease hydrophilic and increase hydrophobic surface areas in the greatest degree, and have the lowest free energy alterations in I‐Mutant 2.0 sequence analysis. When analyzing the interaction between the experimental 3D structure of mature IL‐1β and its neutralizing McAb canakinumab complex, the rs775174784 substitution of Leu with Phe was found to attenuate this interaction by reducing binding energy, while rs375479974 not. Molecular dynamics simulation results in intervertebral disk environment supported rs775174784's effects. These results suggest that both rs375479974 and rs775174784 may have potential clinical and drug target implications.     

Analogues of arginine vasopressin and its agonist and antagonist modified in the N‐terminal part of the molecule with l‐β‐homophenylalanine

Abstract: In continuation of our efforts to elucidate the role of positions 2 and 3 in arginine vasopressin (AVP) and its analogues, we designed and synthesized peptides modified in these positions with l ‐β‐homophenylalanine (β‐Hph). Two of them had just this single modification, the next two peptides are analogues of the V₂ agonist, namely [3‐mercaptopropionic acid (Mpa)¹]AVP (dAVP). The last two compounds were designed by substitution of positions 2 or 3 of a potent V_1a antagonist, [1‐mercaptocyclohexaneacetic acid (Cpa)¹]AVP, with β‐Hph. All the peptides were tested for their pressor and antidiuretic and uterotonic in vitro activities in the rat. All the activities tested have been found to be significantly decreased. Three analogues, i.e. [Mpa¹,β‐Hph²]AVP, [Cpa¹,β‐Hph²]AVP, [Cpa¹,β‐Hph³]AVP, turned out to be uterotonic antagonists with pA₂ = 6.3 ± 0.2, 6.3 ± 0.1, 6.0 ± 0.3 respectively. The last one exhibited antipressor properties also (pA₂ = 6.4 ± 0.1).     

Synthetic peptides derived from the β2−β3 loop of Raphanus sativus antifungal protein 2 that mimic the active site

Abstract: Rs‐AFPs are antifungal proteins, isolated from radish (Raphanus sativus) seed or leaves, which consist of 50 or 51 amino acids and belong to the plant defensin family of proteins. Four highly homologous Rs‐AFPs have been isolated (Rs‐AFP1–4). The structure of Rs‐AFP1 consists of three β‐strands and an α‐helix, and is stabilized by four cystine bridges. Small peptides deduced from the native sequence, still having biological activity, are not only important tools to study structure?function relationships, but may also constitute a commercially interesting target. In an earlier study, we showed that the antifungal activity of Rs‐AFP2 is concentrated mainly in the β2?β3 loop. In this study, we synthesized linear 19‐mer peptides, spanning the entire β2?β3 loop, that were found to be almost as potent as Rs‐AFP2. Cysteines, highly conserved in the native protein, are essential for maintaining the secondary structure of the protein. Surprisingly, in the 19‐mer loop peptides, cysteines can be replaced by α‐aminobutyric acid, which even improves the antifungal potency of the peptides. Analogous cyclic 19‐mer peptides, forced to adopt a hairpin structure by the introduction of one or two non‐native disulfide bridges, were also found to possess high antifungal activity. The synthetic 19‐mer peptides, like Rs‐AFP2 itself, cause increased Ca²⁺ influx in pregerminated fungal hyphae.     

A Meccano set approach of joining trpzip a water soluble β‐hairpin peptide with a didehydrophenylalanine containing hydrophobic helical peptide

Abstract: A 16 residues long, water soluble, monomeric β‐hairpin peptide ‘trpzip’ (Cochran et al. Proc. Natl. Acad. Sci. U.S.A., 98 (2001), 5578), stabilized by tryptophan zipper has been linked via a tetraglycyl linker to a hydrophobic didehydrophenylalnine (ΔF) containing helical octapeptide. Circular dichroism studies of this 28 residues long peptide, ‘trpzipalpha’ (Ac‐GEWTWDDATKTWTWTE‐GGGG‐ΔFALΔFALΔFA‐NH₂) in water have revealed the presence of both the β‐hairpin and the helical conformations. This is the first instance where a ΔF containing peptide has been found to display a helical fold in water. The fluorescence emission wavelengths of tryptophan in Ac‐G‐W‐G‐NH₂, trpzip and trpzipalpha were 341.5, 332.8 and 332.6 nm, respectively. The fluorescence quantum yield of trpzip was 2.6‐fold higher than trpzipalpha suggesting that proximal interactions between the β‐hairpin and the helix caused the quenching of tryptophan fluorescence in the former by the ΔFs in the latter. The molar ellipticity of the far UV couplet characteristic of trpzip was reduced in trpzipalpha and the CD based thermal melting temperatures at 228 nm were 62 °C (trpzip) and 57 °C (trpzipalpha). A concentration‐dependent variable temperature CD study in water showed that in trpzipalpha, increasing temperature is detrimental to the β‐hairpin, but it augments the helical motif, perhaps by intermolecular oligomerization. Our results show that in water, trpzipalpha exhibits long‐range interactions between two different secondary structures. In contrast to trpzip, trpzipalpha has shown a greater tendency to oligomerize in water.     

Synthesis,crystal structure and molecular conformation of Nα‐Boc‐l‐leucyl‐(Z)‐β‐(3‐pyridyl)‐α,β‐ dehydroalanyl‐l‐leucine methyl ester*

Abstract: A protected tridehydropeptide containing (Z)‐β‐(3‐pyridyl)‐α,β‐dehydroalanine (Δ^Z3Pal) residue, Boc‐Leu‐Δ^Z3Pal‐Leu‐OMe ( 1 ), was synthesized via Erlenmeyer azlactone method. X‐ray crystallographic analysis revealed that the peptide 1 adopts an extended conformation, which is similar to that of a Δ^ZPhe analog, Boc‐Leu‐Δ^ZPhe‐Leu‐OMe ( 2 ).