Selective prosaposin expression in Langerhans islets of the mouse pancreas.

The islets of Langerhans are clusters of endocrine cells surrounded by exocrine acinar cells in the pancreas. Prosaposin is a housekeeping protein required for normal lysosomal function, but its expression level is significantly different among tissues. Prosaposin also exists in various body fluids including serum. Intracellularly, prosaposin activates lysosomes and may support autophagy, and extracellularly, prosaposin promotes survival of neurons via G protein-coupled receptors. In this study, prosaposin and its mRNA expression were examined in endocrine cells of the islets as well as in exocrine acinar cells in the pancreas of mice by in situ hybridization and immunostaining. High expression levels of prosaposin were found in Alpha, Beta and Delta cells in the islets, whereas prosaposin mRNA expression was faint or negative and prosaposin immunoreactivity was negative in exocrine acinar cells. The high expression levels of prosaposin in endocrine cells may indicate that prosaposin plays a crucial role in crinophagy, which is a characteristic autophagy in peptide-secreting endocrine cells, and/or that prosaposin is secreted from pancreatic islets. Since prosaposin has been reported in serum, this study suggests a new possible function of the Langerhans islets.

Expression patterns of prosaposin and its receptors, G protein-coupled receptor (GPR) 37 and GPR37L1, in the mouse olfactory organ.

Prosaposin is a glycoprotein conserved widely in vertebrates, because it is a precursor for saposins that are required for normal lysosomal function and thus for autophagy, and acts as a neurotrophic factor. Most tetrapods possess two kinds of olfactory neuroepithelia, namely, the olfactory epithelium (OE) and the vomeronasal epithelium (VNE). This study examined the expression patterns of prosaposin and its candidate receptors, G protein-coupled receptor (GPR) 37 and GPR37L1, in mouse OE and VNE by immunofluorescence and in situ hybridization. Prosaposin immunoreactivity was observed in the olfactory receptor neurons, vomeronasal receptor neurons, Bowman's gland (BG), and Jacobson's gland (JG). Prosaposin expression was mainly observed in mature neurons. Prosaposin mRNA expression was observed not only in these cells but also in the apical region of the VNE. GPR37 and GPR37L1 immunoreactivities were found only in the BG and/or the JG. Prosaposin was suggested to secrete and facilitate the autophagic activities of the neurons and modulate the mucus secretion in mouse olfactory organ.

Expression patterns of prosaposin and its receptors, G protein-coupled receptor (GPR) 37 and GPR37L1 mRNAs, in the chick inner ear.

Prosaposin is a glycoprotein that is widely conserved in vertebrates. It serves as a precursor for saposins A, B, C, and D, which are necessary activators of lysosomal sphingolipid hydrolases. It can also act as a neurotrophic factor. Prosaposin plays a crucial role in the mammalian vestibuloauditory system because it prevents progressive deafness and severe vestibular dysfunction. Prosaposin can exhibit a neurotrophic effect through the G protein-coupled receptor (GPR), and GPR37 and GPR37L1 are its candidate receptors. In this study, we examined the expression patterns of prosaposin, GPR37, and GPR37L1 mRNAs in postnatal day 0 chick vestibuloauditory organs by in situ hybridization. Prosaposin mRNA expression was observed in all vestibular end organs, the vestibular and spiral ganglions, whereas no hybridization signal was observed in the auditory organ, namely basilar papilla. While GPR37L1 mRNA expression was observed in the oligodendrocytes/Schwann cells in the vestibular ganglion, GPR37 mRNA expression was observed in the crista ampullaris base region. These findings suggest that prosaposin expression in the auditory hair cells is acquired uniquely in mammals partly due to the loss of regeneration upon maturation and improved autophagic activity in mammalian auditory hair cells. In addition, as GPR37L1 expression in the chick glial cells differed from GPR37 expression in mammalian glial cells, the roles of GPR37 and GPR37L1 for prosaposin may differ between birds and mammals.

Expression of prosaposin and its G protein-coupled receptor (GPR) 37 in mouse cochlear and vestibular nuclei.

Prosaposin is a precursor of lysosomal hydrolases activator proteins, saposins, and also acts as a secretory protein that is not processed into saposins. Prosaposin elicits neurotrophic function via G protein-coupled receptor (GPR) 37, and prosaposin deficiency causes abnormal vestibuloauditory end-organ development. In this study, immunohistochemistry was used to examine prosaposin and GPR37 expression patterns in the mouse cochlear and vestibular nuclei. Prosaposin immunoreactivity was observed in neurons and glial cells in both nuclei. GPR37 immunoreactivity was observed in only some neurons, and its immunoreactivity in the vestibular nucleus was weaker than that in the cochlear nucleus. This study suggests a possibility that prosaposin deficiency affects not only the end-organs but also the first center of the vestibuloauditory system.

Morphometric study of the vestibuloauditory organ of the African clawed frog, Xenopus laevis.

Independent auditory end-organs appear first in amphibians in vertebrate phylogeny. In amphibians, sound detection is carried out by the amphibian papilla, basilar papilla and macula saccule. Amphibians inhabit distinct habitats and exhibit specific behaviours and sound frequency responses, so the amphibian vestibuloauditory system is an excellent model for considering the relationships between behaviour and physiological/anatomical vestibuloauditory properties. The African clawed frog, Xenopus laevis, lives in shallow water throughout its life and is thought to use sound in a higher frequency range compared with terrestrial anurans. In this study, the size of each vestibuloauditory end-organ and the distribution of ganglion cells in the vestibuloauditory ganglion were examined using haematoxylin and eosin staining and lectin histochemistry in Xenopus laevis. This study revealed that the size ratios among end-organs in Xenopus are similar to those in terrestrial anurans. Large and small cells were observed in the ganglion, but their distribution patterns are different from those in general terrestrial anurans. Lycopersicon esculentum lectin stained a large number of ganglion cells. Lectin-stained cells were found throughout the whole ganglion, but were especially abundant in the caudal part. These results suggested a unique distribution pattern of the vestibuloauditory ganglion cells in Xenopus.

Expression of the G protein-coupled receptor (GPR) 37 and GPR37L1 in the mouse digestive system.

G protein-coupled receptor (GPR) 37 and GPR37L1 are known to modulate the dopaminergic neuron activity, and recently, they are identified as candidate prosaposin receptors. Intercellular prosaposin is proteolytically processed into four saposins, each of which acts as a sphingolipid hydrolase activator in the lysosome. In contrast, extracellular prosaposin exerts a trophic effect on neurons via GPR37 and GPR37L1. In this study, the expression patterns of GPR37 and GPR37L1 in the mouse digestive system were examined immunohistochemically. The islets of Langerhans of the pancreas showed intense immunoreactivity for GPR37 and GPR37L1. Weak immunoreactivity for GPR37 and GPR37L1 was found in the nerve plexuses of the esophagus and small and large intestines. Colocalization of GPR37 and tyrosine hydroxylase immunoreactivity was observed in the neuron of the nerve plexus of the large intestine. This study suggests the possibility that prosaposin affects the function of islet-secreting cells. Also, the expression of GPR37 and GPR37L1 in the nerve plexus suggests that prosaposin exerts a trophic effect not only in the central nervous system, but also in the enteric nervous system.

Characterisation of Maillard reaction products derived from LEKFD--a pentapeptide found in ß-lactoglobulin sequence, glycated with glucose--by tandem mass spectrometry, molecular orbital calculations and gel filtration chromatography coupled with continuous photodiode array.

Maillard reaction peptides (MRPs) contribute to taste, aroma, colour, texture and biological activity. However, peptide degradation or the cross-linking of MRPs in the Maillard reaction has not been investigated clearly. A peptide of LEKFD, a part of ß-lactoglobulin, was heated at 110 °C for 24h with glucose and the reaction products were analysed by HPLC with ODS, ESI-MS, ESI-MS/MS and HPLC with gel-filtration column and DAD detector. In the HPLC fractions, an imminium ion of LEK*FD, a pyrylium ion or a hydroxymethyl furylium ion of LEK*FD, and KFD and EK were detected by ESI-MS. Therefore, those products may be produced by the Maillard reaction. The molecular orbital of glycated LEKFD at the lysine epsilon-amino residue with Schiff base form was calculated by MOPAC. HPLC with gel-filtration column showed cross-linking and degradation of peptides.

Effects of salt concentration on the reaction rate of Glc with amino acids, peptides, and proteins.

The reaction between the amino group and the carbonyl group is important in food quality control. Furthermore, advanced glycation end products from foods are considered to relate to aging and diabetes. Thus, it is important to control this reaction. In this study, we investigated the effects of salt concentration on the rates of browning reaction of amino acid, peptides, and proteins. A high concentration of sodium chloride retarded the reaction rate of Glc with amino acids as measured with the absorbance at 470 nm, but did not change the browning rate of Glc with peptides. On the other hand, sodium chloride retarded the browning reaction rate of proteins as measured with polymerization degree or by the loss of Lys. It is hoped that the results of this study will be applied in the control of amino-carbonyl reaction rates in the food industry.

Relationship between the ability to recognize energy intake and expenditure, and blood sugar control in type 2 diabetes mellitus patients.

To investigate the association between an individual's ability to recognize his/her energy intake and energy expenditure with the status of diabetes mellitus (DM) control, we conducted a cross-sectional study using data from 62 outpatients with type 2 DM (46 men and 16 women), aged 33-77 years, from two hospitals in Tokyo in 1999. A dietitian-interviewer asked the patients to estimate their probable energy intake and expenditure in recent days (self-estimated energy intake and expenditure, respectively). Subsequently, a dietary survey was conducted to estimate the patient's energy intake by a self-recorded method with a dietitian's interview for three continuous business days; the physical exercise levels were measured using a pedometer with multiple-memory accelerometers for one week. The percentage of subjects whose self-estimated energy intake was within +/-10% of the dietary survey-based energy intake became significantly lower as the control status worsened (35.6, 12.9, and 11.1% in the first, second, and third tertile groups of HbA(1c), respectively; P = 0.015). Similar but non-significant results were observed for the energy expenditure (P = 0.35). Since the control status of DM was worse among patients who could not recognize their amount of caloric intake and expenditure, a training program to improve such recognition ability may be needed.

Development of a piezoelectric actuator for presentation of various tactile stimulation patterns to fingerpad skin.

In order to investigate tactile perception characteristics of the human fingerpad for the optimal design of a sensory substitution system, we have developed a small piezoelectric bimorph actuator that possesses flat frequency characteristics in the vibratory frequency of tactilely perceivable bandwidth. The parameters for the design of the bimorph were determined by using a mechanical simulation model of a piezoelectric bimorph and a fingerpad skin. To evaluate the performance of the bimorph, we measured frequency-displacement relationships when the skin of a fingerpad was vibrated by the piezoelectric bimorph. The experimental results showed that the frequency-displacement relationships were almost the same as the estimation obtained from the mechanical simulation model.