Systemic delivery of enkephalin peptide through eyes

Leu-enkephalin is one of the important peptides which could become useful drugs in the clinics because of its analgesic action and its availability in mass quantity through biotechnology production. It is found in this study that enkephalin can be effectively absorbed systemically through eyes without using a surfactant as absorption enhancer. Enkephalin at 0.125% (31.25 micrograms/25 microliter) reached a plateau of blood concentration at 11.5 ng/ml in 3-4 hrs and stayed high for 8-9 hrs. In contrast, the blood concentration of enkephalin declined rapidly after i.v. administration with a T1/2 of less than 30 min and reached the lowest point at 22 ng/ml in 5 hrs. With higher concentrations at 1% (.25 mg/25 microliter) and 5% (1.25 mg/25 microliter) similar absorption kinetics was observed except that they reached higher plateau of blood concentration at 72 ng/ml and 233 ng/ml, respectively.     

MAP kinase pathways: the first twenty years

The MAP kinases, discovered approximately 20 years ago, together with their immediate upstream regulators, are among the most highly studied signal transduction molecules. This body of work has shaped many aspects of our present views of signal transduction by protein kinases. The effort expended in this area reflects the extensive participation of these regulatory modules in the control of cell fate decisions, i.e., proliferation, differentiation and death, across all eukaryotic phylla and in all tissues of metazoans. The discovery of these kinases is reviewed, followed by a discussion of some of the features of this signaling module that account for its broad impact on cell function and its enormous interest to many investigators.     

Left-right asymmetry: actin-myosin through the looking glass

Despite being bilaterally symmetric, most Metazoa exhibit clear, genetically determined left-right differences. In several animals, microtubule-based structures are thought to be the source of chiral information used to establish handedness. Now, two new studies in Drosophila identify a role for unconventional myosin motors in this process.     

Secondary metabolite biosynthesis: the first century

An account of work on the biosynthesis of secondary metabolites up to 1965 is presented. The earliest suggestions for three of the four major pathways were speculative; for the isoprene rule, hypotheses date to 1877, for the polyketide rule to 1907, and for a role for amino acids in alkaloid biosynthesis to 1910. The fourth major pathway based on intermediates of the shikimic acid pathway has a much shorter history because shikimic acid itself was only identified as a primary metabolite in 1951. In addition to speculation, biomimetic syntheses were carried out in which chemists attempted to duplicate possible biosynthetic pathways in vitro. The classic example was Robinson's synthesis of tropinone in 1917. Direct examination of secondary metabolite biosynthesis was possible with the use of the isotopic tracer technique. This methodology, applied extensively to primary metabolism beginning in 1935 and to secondary metabolism from about 1950, was facilitated by the increasing availability of the 14C isotope. With the use of isotopes as tracers, the broad outlines of secondary metabolite biosynthesis, reviewed here, were established in the period 1950 to 1965.     

Tobacco mosaic virus: the first century

Tobacco Mosaic Virus: Pioneering Research for a Century, organized by The Royal Society of Edinburgh, in conjunction with The Royal Society, was held at The Royal Society of Edinburgh, UK, 7–8 August 1998.     

N-benzhydryl-glycolamide: the first protecting group in peptide synthesis with a strong conformational bias

We have synthesized and examined the preferred conformation of a set of N-benzhydryl-glycolamide esters from N(alpha)-protected (or N(alpha)-blocked) alpha-amino acids. Experiments were performed in CDCl(3) solution by Fourier transform infrared absorption and (1)H-NMR techniques, and in the crystalline state by x-ray diffraction. The results of our analysis strongly support the view that this type of N(alpha)-acylated alpha-aminoacyl esters has a marked tendency to fold into a beta-turn conformation, the nature of which is dictated by the structural propensity of the amino acid constituent at the i+1 position.     

Exine development: the importance of looking through a colloid chemistry ``window'

Most biological construction systems operate within the colloidal dimension. In view of this, it seems reasonable to reassess what is known of the early stages of exine development in the light of a brief excursion into colloid and micelle behaviour. The results of this analysis show remarkable similarity of structures and suggest that almost all of the features seen during early pollen wall development can be easily interpreted using simple, established colloidal principles. This study of exine framework and endexine development offers the possibility that growth of the early exine progresses by successive transitory mesophases of a constrained micellar system. The self-assembling micelle mesophases will all be clearly recognized as constituents of the developing exine. They include spherical, cylindrical, continuous layers of hexagonally-packed cylindrical units and lamellar mesophases which most probably correspond to future granules, columellae, complex columellar (and alveolar) microarchitecture and ``white-line-centred' lamellae. Furthermore, the various types of micelle involved have the potential to perform the functions previously loosely assigned to the exine.     

Visual navigation in starfish: first evidence for the use of vision and eyes in starfish

Most known starfish species possess a compound eye at the tip of each arm, which, except for the lack of true optics, resembles an arthropod compound eye. Although these compound eyes have been known for about two centuries, no visually guided behaviour has ever been directly associated with their presence. There are indications that they are involved in negative phototaxis but this may also be governed by extraocular photoreceptors. Here, we show that the eyes of the coral-reef-associated starfish Linckia laevigata are slow and colour blind. The eyes are capable of true image formation although with low spatial resolution. Further, our behavioural experiments reveal that only specimens with intact eyes can navigate back to their reef habitat when displaced, demonstrating that this is a visually guided behaviour. This is, to our knowledge, the first report of a function of starfish compound eyes. We also show that the spectral sensitivity optimizes the contrast between the reef and the open ocean. Our results provide an example of an eye supporting only low-resolution vision, which is believed to be an essential stage in eye evolution, preceding the high-resolution vision required for detecting prey, predators and conspecifics.     

Precision networking: a look through the eyes of a fly.

The establishment of the proper connectivity in the nervous system requires specific target selection between individual presynaptic and postsynaptic cells. It has been postulated that cell adhesion molecules likely participate in these local recognition events. However, the broad developmental roles of many of these molecules have presented an obstacle for loss-of-function analyses. A recent series of genetic studies in the Drosophila visual system has demonstrated roles for several cell adhesion molecules, including N-cadherin and the receptor protein tyrosine phosphatase LAR in proper synaptic targeting of photoreceptor axons.     

Synthesis and application of acid labile anchor groups for the synthesis of peptide amides by Fmoc-solid-phase peptide synthesis

The preparation and application of a new linker for the synthesis of peptide amides using a modified Fmoc-method is described. The new anchor group was developed based on our experience with 4,4'-dimethoxybenzhydryl (Mbh)-protecting group for amides. Lability towards acid treatment was increased dramatically and results in an easy cleavage procedure for the preparation of peptide amides. The synthesis of N-9-fluorenylmethoxycarbonyl- ([5-carboxylatoethyl-2.4-dimethoxyphenyl)- 4'-methoxyphenyl]-methylamin is reported in detail. This linker was coupled to a commercially available aminomethyl polystyrene resin. Peptide synthesis proceeded smoothly using HOOBt esters of Fmoc-amino acids. Release of the peptide amide and final cleavage of the side chain protecting groups was accomplished by treatment with trifluoroacetic acid-dichloromethane mixtures in the presence of scavengers. The synthesis of peptide amides such as LHRH and C-terminal hexapeptide of secretin are given as examples.     

alpha-Chymotrypsin as the catalyst for peptide synthesis.

alpha-Chymotrypsin (EC 3.4.21.1)-catalysed syntheses of peptides were performed with various N-acylated amino acid or peptide esters as donors, and amino acid derivatives, peptides or their derivatives as acceptors. Under optimal conditions the synthesis was almost quantitative. As acceptor nucleophiles, free amino acids or the ester derivatives were inadequate, but amino acid amides or hydrazides, di- or tri-peptides, or the amides, hydrazides and esters of the peptides were useful. The nucleophile specificity for synthesis was markedly similar to the leaving-group specificity in hydrolysis; hydrophobic or bulky amino acid residues were most effecient at both P1' and P2' positions [notation of Schechter & Berger (1967) Biochem. Biophys. Res. Commun. 27, 157-162], but L-proline as well as D-amino acid residues were the worst choices. The synthesis was further dependent on the solubility of the products synthesized; a higher yield of products was expected with lower solubility. As donor esters, good substrates were all useful. Accordingly, fragment condensation was possible by using N-acylated peptide esters and various peptides. The present study suggested that alpha-chymotrypsin may become a useful tool for peptide synthesis.