Evidence for a differential functional regulation of the two beta(3)-integrins alpha(V)beta(3) and alpha(IIb)beta(3)

The functional regulation of integrins is a major determinant of cell adhesion, migration and tissue maintenance. The binding of cytoskeletal proteins to various sites of integrin cytoplasmic domains is a key mechanism of this functional regulation. Expression of recombinant integrin alpha(IIb)beta(3) and alpha(M)beta(2) lacking the GFFKR-region in CHO cells results in constitutively activated integrins. In contrast, CHO cells stably expressing either a GFFKR-deleted alpha(V(del))beta(3) or a FF to AA-substituted alpha(V(AA))beta(3) do not reveal a constitutively activated integrin. Adhesion to immobilized fibrinogen is strongly impaired in alpha(V(del))beta(3) or alpha(V(AA))beta(3)-expressing cells, whereas it is not impaired in alpha(IIb)beta(3) and alpha(M)beta(2), both lacking the GFFKR-region. In a parallel plate flow chamber assay, alpha(V)beta(3)-expressing cells adhere firmly to fibrinogen and spread even at shear rates of 15 to 20 dyn/cm(2), whereas alpha(V(del))beta(3) or alpha(V(AA))beta(3) cells are detached at 15 dyn/cm(2). Actin stress fiber formation and focal adhesion plaques containing alpha(V)beta(3) are observed in alpha(V)beta(3) cells but not in alpha(V(del))beta(3) or alpha(V(AA))beta(3)-expressing cells. As an additional manifestation of impaired outside-in signaling, phosphorylation of pp125(FAK) was reduced in these cells. In summary, we report that the GFFKR-region of the alpha(V)-cytoplasmic domain and in particular two phenylalanines are essential for integrin alpha(V)beta(3) function, especially for outside-in signaling. Our results suggest that the two beta(3)-integrins alpha(IIb)beta(3) and alpha(V)beta(3) are differentially regulated via their GFFKR-region.     

The circulation,metabolism, and functional activity of the human brain

Special issue dedicated to Dr. Louis Sokoloff.     

Characterization of mammalian heart annexins with special reference to CaBP33 (annexin V)

Porcine heart was observed to express annexins V (CaBP33) and VI in large amounts, and annexins III and IV in much smaller amounts. Annexin V (CaBP33) in porcine heart was examined in detail by immunochemistry. Homogenization and further processing of heart in the presence of EGTA resulted in the recovery of annexin V (CaBP33) in the cytosolic fraction and in an EGTA-resistant, Triton X-100-soluble fraction from cardiac membranes. Including Ca2+ in the homogenization medium resulted in a significant decrease in the annexin V (CaBP33) content of the cytosolic fraction with concomitant increase in the content of this protein in myofibrils, mitochrondria, the sarcoplasmic reticulum and the sarcolemma. The amount of annexin V (CaBP33) in each of these subfractions depended on the free Ca2+ concentration in the homogenizing medium. At the lowest free Ca2+ concentration tested, 0.8 microM, only the sarcolemma appeared to contain bound annexin V (CaBP33). Membrane-bound annexins V (CaBP33) and VI partitioned in two fractions, one EGTA-resistant and Triton X-100-extractable, and one Triton X-100-resistant and EGTA-extractable. Altogether, these data suggest that annexins V and VI are involved in the regulation of membrane-related processes.     

Calcium-binding proteins and cytochrome oxidase activity in the turtle optic tectum with special reference to the tectofugal visual pathway

Using immunohistochemistry and a tracer technique we investigated the distribution in the optic tectum of turtles (Emys orbicularis and Testudo horsfieldi) of the calcium-binding proteins (CaBPr) parvalbumin (PV), calbindin (CB) and calretinin (CR) before and after labeling of the nucleus rotundus (Rot) with horseradish peroxidase. The optic tectum activity of the cytochrome oxidase (CO) was studied in parallel. In the principal link of the tectofugal visual pathway (central gray layer, SGC) in both chelonian species, the sparse PV-ir as well as CB- and CR-ir neurons were found significantly varying both in number and the intensity of immunoreactivity of their bodies and dendrites. In contrast, the superficial (SGFS) and deeper periventricular (SGP) tectal layers comprised numerous cells immunoreactive to all three CaBPr in different proportions. Only few retrogradely labeled tectorotundal SGC neurons expressed PV, CB or CR. The very large PV-ir neurons in SGC and SAC were not retrogradely labeled; morphologically they matched the efferent neurons with descending projections. SGC neurons of two chelonian species differed in the level of CO activity. Intense immunoreactivity to all three CaBPr and high CO activity were detected in both species in SGFS neuropil with some differences in sublaminar distribution patterns. The peculiarities of the CaBPr and CO activity distribution patterns in different segments of SGC neurons are discussed as related to the laminar organization of the turtle tectum and its retinal innervation. It is suggested that in the projection tectorotundal SGC neurons the CaBPr are concentrated mainly in their distal dendrites that contact retinal afferents in the superficial retinorecipient tectal layer.     

Enzyme histochemistry of human melanomas and pigmented naevi with special reference to alpha-D-mannosidase activity

Summary A histochemical study of-d-mannosidase revealed that normal human melanocytes (resting state, activated, lentigo simplex) exhibit either no or just detectable activity, as do melanocytes in the initial phase of lentigo maligna. Junctional, or occasionally zone A naevocytes displayed a very low enzyme activity. On the other hand, melanocytes in the initial stage of neoplastic transformation (dysplastic naevi, advanced stage of lentigo maligna) and also melanoma cells in disorders of low malignant potential (initial naevogenic melanoma, superficial spreading melanoma) displayed a high activity uniformly throughout the cell population. In the malignant forms (nodular melanoma, recurrences, metastases), the enzyme activity was remarkably heterogeneous, suggesting a breakdown of uniformity during malignant transformation. The significance of -mannosidase activity induction in the course of melanocyte neoplastic transformation is not clear at present. The results of biochemical assays suggest that the lysosomal isoenzyme is mainly responsible. Other lysosomal enzymes, and dehydrogenases studied concomitantly, did not display any comparable phenomena of induction or similar behaviour. However, the results of a comparison of-mannosidase with the melanocyte reference enzyme tyrosinase suggested activity patterns in the enzyme pair which may provide a better insight into the biochemical differentiation of human melanocytes in neoplastic disorders. The possible relationship of-mannosidase to melanogenesis is also discussed.     

Levels of G-protein alpha q/11 subunits and of phospholipase C-beta(1-4), -gamma, and -delta1 isoforms in postmortem human brain caudate and cortical membranes: potential functional implications

The levels of expression of G-protein alpha(q/11) (Galpha(q/11)) subunits and PLC-beta(1-4), -gamma, and -delta(1) isoforms were quantified by Western blot analysis in order to establish their contribution to the patterns of PLC functioning reported here. Quantitative measurements of the levels of Galpha(q/11) subunits in each region were obtained by comparison with known amounts of Escherichia coli expressed recombinant Galpha(q) subunits. Quantitative analysis indicated that Galpha(q/11) subunits are abundant polypeptides in human brain, with values ranging from about 1200 ng/mg in cerebral cortex to close to 900 ng/mg of membrane protein in caudate. In cerebral cortical membranes, the PLC-beta(1) isoform was more abundant than in caudate membranes. The highest levels of PLC-beta(2) expression were detected in caudate membranes. PLC-beta(3) was little expressed, and there were no significant differences in the relative values between both brain regions. Finally, the levels of the PLC-beta(4) isoform were significantly lower in caudate than in cortical membranes. It is concluded that although most of these data represent relative, not absolute, measures of protein levels within these regions, they contribute nonetheless to the significant differences observed in signaling capacities through the PLC system in both human brain regions.     

Abnormalities in adult digeneans, with special reference to Phyllodistomum umblae(Fabricius) (Platyhelminthes, Gorgoderidae)

During examination of a large sample of Phyllodistomum umblae from Arctic char, Salvelinus alpinus , in Lake Tokke (Drangedal, type locality) and Lake Katnosa (Nordmarka, vicinity of Oslo), Norway, several abnormalities were found in the adult specimens. The paper describes the abnormal cases recovered and gives a systematized review of abnormal digeneans reported in the literature. Different terms used in digenean teratology and morphology are also discussed and defined. Abnormal cases occur in P. umblae with regard to the dimensions of specific structures (caeca, ovary, oötype, seminal vesicle, testes, uterus, vitellarium) and in the numbers of ovaries and testes. Polymorphism in testes position was observed and obstructions of the reproductive organs were evident. The size variability of the seminal vesicle and ovary and variable appearance of the vitelline bodies are demonstrated.     

Pharmacology of scorpion (Lychas laevifrons Pock) venom with special reference to its neuromuscular activity

L. laevifrons venom caused irreversible blockade of electrically induced twitch responses on phrenic nerve diaphragm and chick biventer cervicis preparation. The venom lowered cat blood pressure, caused a brief cardiac arrest and increased cutaneous capillary permeability. It contracted several smooth muscle preparations. The quick contraction produced on guinea pig ileum was partly antagonized by mepyramine and completely by methysergide. The residual slow contraction was antagonized by SC 19220, a prostaglandin blocker. Haemolysis was not produced by the venom on human RBC. LD50 of crude venom in mice was 13.8 mg/kg (iv).     

A cortical core for dynamic integration of functional networks in the resting human brain

We used magneto-encephalography to study the temporal dynamics of band-limited power correlation at rest within and across six brain networks previously defined by prior functional magnetic resonance imaging (fMRI) studies. Epochs of transiently high within-network band limited power (BLP) correlation were identified and correlation of BLP time-series across networks was assessed in these epochs. These analyses demonstrate that functional networks are not equivalent with respect to cross-network interactions. The default-mode network and the posterior cingulate cortex, in particular, exhibit the highest degree of transient BLP correlation with other networks especially in the 14-25 Hz (β band) frequency range. Our results indicate that the previously demonstrated neuroanatomical centrality of the PCC and DMN has a physiological counterpart in the temporal dynamics of network interaction at behaviorally relevant timescales. This interaction involved subsets of nodes from other networks during periods in which their internal correlation was low.     

The measurement of gamma-glutamyl hydrolase (conjugase) activity in rat brain

An assay using the artificial substrate, 2,4-diamino-10-methyl-pteroylglutamyl-gamma-glutamate (MTX-G₁), was developed to measure gamma-glutamyl hydrolase (conjugase), which hydrolyzes folylpolyglutamates. This assay allows us to: 1) measure conjugase for the first time in rat brain and 2) measure conjugase in a reliable, sensitive and inexpensive manner. The MTX-binding assay results were compared to samples analyzed by HPLC and found to vary by only 13%. The artificial substrate, MTX-G₁, had a lower rate of hydrolysis than pteroylglutamyl-gamma-glutamate (Pte-G₂), 70.7±0.64 and 92.6±0.22 nmoles/hr/mg protein respectively. Conjugase was semi-purified 24 fold in H₂O and found to have a pH optimum of 5.0.