Delivery of multipotent adult progenitor cells via a functionalized plasma polymerized surface accelerates healing of murine diabetic wounds.

Introduction: Stem cell therapies have been investigated as potential treatment modalities for chronic wounds however there has been limited success to date. Multipotent Adult Progenitor Cells (MAPCs©) have been identified as having potential as an allogenic stem cell product due to their high population doubling number and their characteristic dampening of T-cell proliferation. This helps to prevent autoimmunity and graft/cell rejection. Methods: We have developed a dressing, consisting of medical grade silicone coated with a heptylamine plasma polymer, which supports the growth and transfer of MAPCs to skin. To determine if the dressing can deliver functional stem cells into diabetic wounds, they were loaded with MAPCs and then placed over excisional wounds in both normal and diabetic mice. Results and discussion: Accelerated healing was observed in both the normal and diabetic wounds with wound gape being significantly smaller at day 3 when compared to controls. Wound analysis showed that treatment with the MAPC dressings dampened the inflammatory response with reduced numbers of neutrophils and macrophages observed. Additionally, an increase in pro-angiogenic VEGF and CD31 positive endothelial cells was observed indicating improved new blood vessel formation. The MAPC dressings had no effect on fibrosis with collagen I and III being equally affected in both control and treated wounds. Overall, the functionalized MAPC dressings improve healing responses particularly in diabetic mice with impaired healing responses and therefore, show potential for development as an advanced therapeutic approach for the treatment of chronic diabetic wounds.

Identification and molecular characterisation of the complete genome of a Singapore isolate of hepatitis C virus: sequence comparison with other strains and phylogenetic analysis.

The complete genomic sequence of a Singapore isolate of the hepatitis C virus (HCV) was obtained from serum of an individual chronically infected with HCV. Nine overlapping cDNA clones covering the entire viral genome was amplified by reverse-transcription-polymerase chain reaction (RT-PCR), This isolate (HCV-S1) comprised 9,609 nucleotides (nt), including 341 nt of the complete 5' untranslated region (5' UTR), a single open reading frame of 3,011 amino acids (aa) and 235 nt of the complete 3' UTR. Its genotype was identified as type lb from analyses of its sequences in the 5' UTR, NS3 and NS5B regions. When compared against nine reported HCV isolates, the overall aa homology of HCV-SI was closest with an Australian strain, HCV-A (94%) and a Japanese strain, HCV-JT (93.9%). Phylogenetic analysis revealed that it was most closely related to the Taiwan strain, HCV-TW and another Japanese strain, HCV-K1-R1.

Biological evaluation of hepatitis C virus helicase inhibitors.

A small chemical library has been synthesized and assayed for inhibition of HCV helicase activity. This study provides the structure-activity relationship of the reported inhibitors, with emphasis placed on the aminophenylbenzimidazole moiety and the linkers. Our data highlight the importance of preserving the aminophenylbenzimidazole core and the hydrophobic linkers for biological activity. The development of a robust HCV helicase assay is also described.

Rab8b and its interacting partner TRIP8b are involved in regulated secretion in AtT20 cells.

Rab proteins are a family of small GTPases that regulate intracellular vesicle traffic. Rab8b, because of its homology with Rab8, has been suggested to function in vesicle transport to the plasma membrane. Using the yeast two-hybrid system, we identified a Rab8b interacting clone, termed TRIP8b, from a rat brain cDNA library. The gene encodes a 66-kDa protein with homology to the peroxisomal targeting signal 1 receptor. The interaction between Rab8b and TRIP8b was further verified by in vitro binding assays and co-immunoprecipitation studies. Additional experiments with Rab8b mutants demonstrated that Rab8b requires a guanine nucleotide but not prenylation for its interaction with TRIP8b. Western immunoblot analysis showed that TRIP8b was primarily expressed in brain. Subcellular fractionation of AtT20 cells revealed that TRIP8b was present in both cytosolic and membrane fractions. To investigate the function of Rab8b and TRIP8b in secretion, we examined the release of ACTH from AtT20 cells. Results from stable cell lines expressing Rab8b or TRIP8b indicated that both proteins had a stimulatory effect on cAMP-induced secretion of ACTH. In summary, these data suggest that Rab8b and TRIP8b interact with each other and are involved in the regulated secretory pathway in AtT20 cells.

Inactivation of the human papillomavirus-16 E6 oncoprotein by organic disulfides.

We are investigating compounds that could be useful in the treatment of neoplastic lesions of the cervix by acting on the oncoprotein E6 of human papillomavirus-16. The E6 protein contains two potential zinc-binding domains that are required for most of its functions. We have published tests that measure (i) the release of zinc ions after chemical alteration of the cysteine groups of these zinc-binding domains (TSQ assay), (ii) the interaction of E6 with the cellular proteins E6AP and E6BP (BIACORE assay), and (iii) the viability of tumor cell lines that require the continuous expression of HPV oncoproteins (WST1 assay). Based on these tests, we identified 4.4'-dithiodimorpholine as a potential lead compound. In this study we examined whether the dithiobisamine moiety of 4,4'-dithiodimorpholine may be an important molecular prerequisite for further drug development in this system. We have evaluated 59 new substances including organic disulfides and those containing the dithiobisamine moiety, as well as structural analogues. The compounds with significant reactivity in all three assays were observed only for dithiobisamine derivatives with saturated cyclic amines and aryl substituted piperazines. The identity of these substances suggests that the N-S-S-N moiety is necessary but not sufficient for reactivity in our assays, and that dithiobisamine based substances are useful as lead compounds that target the cysteine groups of HPV-16 E6 zinc fingers.

Downregulation of proapoptotic proteins Bax and Bcl-X(S) in p53 overexpressing hepatocellular carcinomas.

As the occurrence of structural p53 mutations in hepatocellular carcinoma (HCC) in Thailand was previously reported to be much lower than that found in other high-incidence HCC areas, we analyzed 16 HCC samples from Thailand to determine the expression and functionality of p53 protein. We observed the overexpression of p53 protein in 69% of HCC, despite the prevalence of the wild-type p53 gene. However, the overexpressed p53 protein was nonfunctional as suggested by its inability to modulate the expressions of several p53 effector proteins (p21 and Bcl-2 family proteins). In addition, we observed significant underexpression of two proapoptotic proteins, Bax and Bcl-X(S), in 81% (P = 0.02) and 64% (P = 0.03) of HCC, respectively. Consequently, the ratios of proapoptotic to antiapoptotic BCL-2 family proteins were reduced in 88% of the HCC tumor tissues when compared to normal tissues, such that the rheostat between BCL-2 family proteins is strongly skewed toward enhanced cell survival in the tumor cells.

Isolation of a novel protein tyrosine phosphatase inhibitor, 2-methyl-fervenulone, and its precursors from Streptomyces.

High-throughput screening identified an extract from Streptomyces sp. IM 2096 with inhibitory activity toward several protein tyrosine phosphatases (PTPs). Four 1,2,4-triazine compounds 2096A-D (1-4) were isolated from this extract and their structures elucidated by interpretation of spectroscopic data and confirmed by degradation and synthesis. The novel glycocyamidine derivatives 1 and 2 are diastereomers and may interconvert. Both are inactive in the PTP inhibition assay. Compounds 1 and 2 are unstable and partially decompose to 3 and glycocyamidine (5) at room temperature. Compound 3, known as MSD-92 or 2-methyl-fervenulone, is a broad-specificity PTP inhibitor with comparable potency to vanadate. The imidazo[4, 5-e]-1,2,4-triazine (4), inactive in the PTP-inhibition assay, may be a degradation product of 3.

Non-ionic detergent affects the conformation of a functionally active mutant of Bcl-X(L).

We found that a mutant, Bcl-X(L)(F131V), which was previously reported to have impaired binding capacity, can bind to Bax almost as strongly as wild-type Bcl-X(L). In the absence of detergent, the Bcl-X(L)(F131V) mutant adopts the same conformation as wild-type Bcl-X(L), as determined by circular dichroism spectroscopy and size-exclusion chromatography. However, non-ionic detergent induces a conformational change in the Bcl-X(L)(F131V) mutant and causes it to lose Bax-binding capacity. Wild-type Bcl-X(L), on the other hand, is more resistant to detergent-induced effects and retains its ability to bind Bax in the presence of detergent. Since it has been shown that the Bcl-X(L)(F131V) mutant has nearly the same anti-apoptotic activity as wild-type Bcl-X(L), it would be likely that the Bcl-X(L)(F131V) mutant can adopt the wild-type conformation, rather than the detergent-induced conformational state and can bind to Bax in vivo. Therefore, our data demonstrated that non-ionic detergent can have unpredicted effects on protein conformation, differential effects on wild-type and mutant Bcl-X(L) proteins in this case and may cause complications in the interpretation of in vitro binding studies.

Potential drugs against cervical cancer: zinc-ejecting inhibitors of the human papillomavirus type 16 E6 oncoprotein.

BACKGROUND: The principal agent in the etiology of cervical cancer, i.e., human papillomavirus (HPV) type 16, encodes three oncoproteins, E5, E6, and E7. Structural and mutational studies have identified two potential zinc-finger domains as critical for E6 protein function. We investigated several assays to identify and characterize compounds that interfere with the binding of zinc to E6. METHODS: Thirty-six compounds were selected on the basis of their structure, which would facilitate their participation in sulfhydryl residue-specific redox reactions, and were tested for their ability to release zinc from E6 protein. The zinc-ejecting compounds were then tested for their ability to inhibit E6 binding to E6-associated protein (E6AP) and E6-binding protein (E6BP), two coactivators of E6-mediated cellular transformation. The binding of E6 to E6BP and E6AP was measured by use of surface plasmon resonance (a technique that monitors molecular interactions by measuring changes in refractive index) and by use of in vitro translation assays. The compounds were also tested for their effects on the viability of HPV-containing cell lines. RESULTS: Nine of the 36 tested compounds ejected zinc from E6. Two of the nine compounds inhibited the interaction of E6 with E6AP and E6BP, and one of these two, 4, 4'-dithiodimorpholine, selectively inhibited cell viability and induced higher levels of p53 protein (associated with the induction of apoptosis [programmed cell death]) in tumorigenic HPV-containing cells. CONCLUSION: We have described assay systems to identify compounds, such as 4,4'-dithiodimorpholine, that can potentially interfere with the biology and pathology of HPV. These assay systems may be useful in the development of drugs against cervical cancer, genital warts, and asymptomatic infections by genital HPVs.

Biophysical characterization of the oligomeric state of Bax and its complex formation with Bcl-XL.

The overexpression of Bax, a member of the Bcl-2 family, promotes cell death and the dimerization (or oligomerization) of Bax has been shown to be important for its function. Using size-exclusion chromatography and in vitro cross-linking experiments, we demonstrated that Bax exists mainly as a large oligomer of approximately 30 monomeric units. Furthermore, several binding assays demonstrated that Bcl-XL, an anti-apoptotic member of the Bcl-2 family, can bind to the oligomeric form of Bax without requiring Bax to dissociate to monomers.

The mammalian brain rsec6/8 complex.

rsec6 and rsec8 are two components of a 17S complex in mammalian brain that is homologous to the yeast 834 kDa Sec6/8/15 complex which is essential for exocytosis. Purification and partial amino acid sequencing of the mammalian rsec6/8 complex reveals that it is composed of eight novel proteins with a combined molecular weight of 743 kDa. The complex is broadly expressed in brain and displays a plasma membrane localization in nerve terminals. Membrane associated rsec6/8 complex coimmunoprecipitates with syntaxin, a plasma membrane protein critical for neurotransmission. These data suggest a role for the mammalian rsec6/8 complex in neurotransmitter release via interactions with the core vesicle docking and fusion apparatus.

rSec6 and rSec8, mammalian homologs of yeast proteins essential for secretion.

Many of the molecules necessary for neurotransmission are homologous to proteins involved in the Golgi-to-plasma membrane stage of the yeast secretory pathway. Of 15 genes known to be essential for the later stages of vesicle trafficking in yeast, 7 have no identified mammalian homologs. These include the yeast SEC6, SEC8, and SEC15 genes, whose products are constituents of a 19.5S particle that interacts with the GTP-binding protein Sec4p. Here we report the sequences of rSec6 and rSec8, rat homologs of Sec6p and Sec8p. The rSec6 cDNA is predicted to encode an 87-kDa protein with 22% amino acid identity to Sec6p, and the rSec8 cDNA is predicted to encode a 110-kDa protein which is 20% identical to Sec8p. Northern blot analysis indicates that rSec6 and rSec8 are expressed in similar tissues. Immunodetection reveals that rSec8 is part of a soluble 17S particle in brain. COS cell cotransfection studies demonstrate that rSec8 colocalizes with the GTP-binding protein Rab3a and syntaxin 1a, two proteins involved in synaptic vesicle docking and fusion at the presynaptic terminal. These data suggest that rSec8 is a component of a high molecular weight complex which may participate in the regulation of vesicle docking and fusion in brain.

Presynaptic component of long-term potentiation visualized at individual hippocampal synapses.

Long-term potentiation has previously been studied with electrophysiological techniques that do not readily separate presynaptic and postsynaptic contributions. Changes in exocytotic-endocytotic cycling have now been monitored at synapses between cultured rat hippocampal neurons by measuring the differential uptake of antibodies that recognize the intraluminal domain of the synaptic vesicle protein synaptotagmin. Vesicular cycling increased markedly during glutamate-induced long-term potentiation. The degree of potentiation was heterogeneous, appearing greater at synapses at which the initial extent of vesicular turnover was low. Thus, changes in presynaptic activity were visualized directly and the spatial distribution of potentiation could be determined at the level of single synaptic boutons.

Specificity and regulation of a synaptic vesicle docking complex.

Synaptic vesicles are proposed to dock at the presynaptic plasma membrane through the interaction of two integral membrane proteins of synaptic vesicles, VAMP and synaptotagmin, and two plasma membrane proteins, syntaxin and SNAP-25. We have characterized the binding properties of these proteins and observed SNAP-25 potentiation of VAMP 2 binding to syntaxins 1a and 4 but not syntaxins 2 or 3. n-sec1, a neuron-specific syntaxin-binding protein, bound syntaxin with nanomolar affinity, forming a complex that is distinct from the previously identified 7S and 20S syntaxin-containing complexes. This suggests that syntaxin exists in at least three states: bound to n-sec1, in a 7S particle, and in a 20S particle. Recombinant n-sec1 inhibited VAMP or SNAP-25 binding to syntaxin. We propose that the specific associations of VAMP, SNAP-25, and syntaxin mediate vesicle docking and that a syntaxin/n-sec1 complex precedes and/or regulates formation of these complexes.

Determination of the transbilayer distribution of fluorescent lipid analogues by nonradiative fluorescence resonance energy transfer.

We measured the nonradiative fluorescence resonance energy transfer between 7-nitro-2,1,3-benzoxadiazol-4-yl (NBD) labeled lipids (amine labeled phosphatidylethanolamine or acyl chain labeled phosphatidylcholine) and rhodamine labeled lipids in large unilamellar dioleoylphosphatidylcholine vesicles. Two new rhodamine labeled lipid analogues, one a derivative of monolauroylphosphatidylethanolamine and the other of sphingosylphosphorylcholine, were found to exchange through the aqueous phase between vesicle populations but not to be capable of rapid transbilayer movement between leaflets. Energy transfer from NBD to rhodamine was measured using liposomes with symmetric or asymmetric distributions of these new rhodamine labeled lipid analogues to determine the relative contributions of energy transfer between donor and acceptor fluorophores in the same (cis) and opposite (trans) leaflets. Since the characteristic R0 values for energy transfer ranged from 47 to 73 A in all cases, significant contributions from both cis and trans energy transfer were observed. Therefore, neither of these probes acts strictly as a half-bilayer quencher of NBD lipid fluorescence. The dependence of transfer efficiency on acceptor density was fitted to a theoretical treatment of energy transfer to determine the distances of closest approach for cis and trans transfer. These parameters set limits on the positions of the fluorescent groups relative to the bilayer center, 20-31 A for NBD and 31-55 A for rhodamine, and provide a basis for future use of these analogues in measurements of transbilayer distribution and transport.

Density-dependent inhibition of cell growth is correlated with the activity of a cell surface phosphatidylinositol-specific phospholipase C.

We previously identified a novel phospatidylinositol-specific phospholipase C (PI-PLC) present at the surface of Swiss 3T3 cells using a fluorescent analog of PI and showed that this cell surface PI-PLC (csPI-PLC) activity increases with increasing cell density (J. Biol. Chem. 265, 5337-5340 (1990)). Here, we find that csPI-PLC activity also increased in cultures in which growth was inhibited due to serum deprivation. csPI-PLC was inhibited by agents that inhibit other mammalian PI-PLCs, but not by treatments which inhibit glycosyl PI-PLCs (GPI-PLCs). We also extended our studies using fluorescent PI to other cell types and found that csPI-PLC activity was present only in cell lines that exhibit growth inhibition upon reaching confluency (Swiss 3T3, 3T3-L1, BALB/c 3T3, and normal rat kidney (NRK) fibroblasts), but not in cell lines that are tumorigenic and/or do not exhibit growth inhibition in a density-dependent manner (Chinese hamster ovary (CHO), mouse L, SV-40 transformed BALB/c 3T3 (SV-T2), baby hamster kidney (BHK), and Chinese hamster lung (V79) fibroblasts). These results support the hypothesis that csPI-PLC plays a role in the density-dependent inhibition of cell growth.

An improved synthesis of 7-nitrobenz-2-oxa-1,3-diazole analogs of CDP-diacylglycerol and phosphatidylinositol.

A protocol utilizing chemical and enzymatic steps to synthesize several fluorescent (7-nitrobenz-2-oxa-1,3 diazole) analogs of cytidine diphosphate diacylglycerol and phosphatidylinositol in high yields is described. The fluorescent analogs were characterized by phospholipase C digestion, fast atom bombardment mass spectrometry, and HPLC analysis. Studies of the metabolism and intracellular distribution of the fluorescent phosphatidylinositol analogs in Swiss 3T3 cells further revealed that all the analogs were substrates for a previously described cell surface phosphatidylinositol-specific phospholipase C (A.E. Ting and R.E. Pagano (1990) J. Biol. Chem. 265, 5337-5340). These fluorescent lipids should serve as useful tools for studying phosphatidylinositol metabolism and transport in cells.

Detection of a phosphatidylinositol-specific phospholipase C at the surface of Swiss 3T3 cells and its potential role in the regulation of cell growth.

The metabolism and intracellular distribution of a fluorescent analog of phosphatidylinositol (PI), 1,2-[oleoyl,N-(6-[(7-nitrobenz-2-oxa-1,3-diazo-4-yl) aminocaproyl)]-PI (C6-NBD-PI), was examined in monolayer cultures of Swiss 3T3 cells following its insertion into the plasma membrane. Evidence is presented that the exogenously supplied C6-NBD-PI was hydrolyzed by a calcium-dependent PI-specific phospholipase C (PI-PLC) at the external cell surface and that this PI-specific phospholipase C may play a role in the density-dependent inhibition of cell growth: (i) When confluent monolayer cultures were incubated with C6-NBD-PI for 60 min at 7 degrees C, the lipid spontaneously transferred to the cells, and prominent labeling of intracellular membranes was observed. Lipid extraction and analysis demonstrated that more than 60% of the fluorescent lipid in these cells was fluorescent diacylglycerol (DAG). However, when the corresponding fluorescent analogs of phosphatidylcholine or phosphatidylethanolamine were used, the fluorescent lipids readily transferred to cells, but no hydrolysis to fluorescent DAG occurred. (ii) Both intracellular labeling and hydrolysis of C6-NBD-PI to -DAG were inhibited in the presence of [ethylenebis(oxyethylenenitrilo)]tetraacetic acid. (iii) When myo-[2-3H]inositol-labeled C6-NBD-PI was incubated with cells, [3H]inositol phosphate was released into the incubation medium, but no water-soluble 3H-labeled products were found associated with the cells. (iv) The level of C6-NBD-PI hydrolysis increased dramatically with increasing density of 3T3 cells in monolayer culture.