The lysosomal permability test modified for toxicity testing with cultured heart endothelioid cells

Synopsis A modified lysosomal fragility test is described which is suitable for use with cultured cells. The permeability (fragility) of the lysosomal membranes of the cells to the substrate -glycerophosphate is measured by assessing the degree of particulate lysosomal staining seen after exposing the cells to the Gomori acid phosphatase staining reaction under carefully controlled conditions. Monolayer cultures of endothelioid cells from the hearts of neonatal rats have been used in all experiments. The time-course of lysosomal staining for cells exposed to various treatments (normal saline, isotonic sucrose, 0.25 M sucrose, distilled water, acetate buffer pH 5.0, cold acetone, neutral formalin, acetic-ethanol, Triton X-100, hydrocortisone, chloroquine and vitamin A) was compared with that of control cells stained under identical conditions. Statistical differences in staining between the test and control cells were determined by the Wilcoxon Signed Rank Test and also by regression analysis following a transformation designed to allow for the saturation character of the reaction. The success of the modified technique depends upon meticulous methodology. It is capable of demonstrating both lysosomal membrane labilization and stabilization, second- and third-stage lysosomal activation, and apparent lysosomal enzyme loss or destructionin situ. The technique also allows the degree of reversible or first-stage lysosomal activation to be subdivided on an almost continuous basis and is suitable for investigating the effects of drugs and other agents on the integrity of the lysosomein situ.     

A quantitative method for measurement of lysosomal acid phosphatase latency in cultured rat heart cells with 210Pb

Synopsis A method is described for measuring the latency of lysosomal acid phosphatase in cultured rat heart endotheloid cells.²¹⁰Pb was added to a medium used to demonstrate acid phosphatase activity by the Gomori lead method, and the amount of lead deposited was measured with a liquid scintillation counter. Deposition rates were measured after enzyme activation pretreatments with acetate buffer (pH 5.0) at various osmolalities, and after formaldehyde fixation. Formaldehyde, alloxan, or fluoride in the Gomori medium were evaluated for their differential effects on lysosomal and non-lysosomal acid phosphatase. The method was found to provide a sensitive, rapid and quantitative evaluation of acid phosphatase latency and should be useful for studying the integrity of lysosomes within cells.     

A quantitative immunoelectronmicroscopic study on soluble, membrane-associated and membrane-bound lysosomal enzymes in human intestinal epithelial cells

Summary We have used quantitative immunoelectronmicroscopy to compare thein situ localization of acid -glucosidase, lysosomal acid phosphatase, -hexosaminidase and glucocerebrosidase in intestinal epithelial cells of the human duodenum. Differences between these four lysosomal enzymes were observed with respect to their presence at the apical cell surface. Transport to the apical membrane seems to be a more important intracellular route for lysosomal acid phosphatase and acid -glucosidase than it is for -hexosaminidase. The membrane associated lysosomal enzyme glucocerebrosidase is not transported to the microvilli. The studies emphasize that lysosomal enzyme transport pathways are enzyme and cell type specific.     

Acid phosphatase activity of human gingival fibroblasts measured using a simultaneous coupling semi-permeable membrane technique

Summary Acid phosphatase activity has been measured in cultured human gingival fibroblasts using a validated histochemical simultaneous coupling semi-permeable membrane technique. The histochemical reaction was linear over a three hour incubation period and had a pH optimum of 5.0. The activity was not increased by prior exposure to hypotonic acetate buffer and was inhibited by fluoride and molybdate but not by formaldehyde. These results indicate that the semi-permeable membrane technique described may be used for observing and measuring acid phosphatase activity in cultured fibroblasts. From results obtained using inhibitors, it appears that in these cells most of the acid phosphatase observed is lysosomal. The absence of any activation of activity following pre-incubation with hypotonic buffer indicates that the method is not suitable for monitoring lysosomal membrane function.     

A comparison between osmiophilic reagents and the Gomori lead method for the electron cytochemical demonstration of two lysosomal enzymes in oral epithelium

Synopsis Osmiophilic reagents were used to study the histochemical localization of acid phosphatase and non-specific esterase in the keratinized oral mucosa of rat. The reaction product from both enzymes was found in the epithelium and in cells of the corium as discrete granules, suggestive of a lysosomal localization. Treatment with E-600 before incubation for non-specific esterase did not change this localization. The osmium black end-product, due to acid phosphatase activity, was examined with the electron microscope and compared with the localization obtained by the Gomori lead phosphate technique. Both methods produced a reaction product in membrane-bounded bodies resembling lysosomes, as described in other tissues. These organelles were present in the basal prickle and granular cell layers of the epithelium. In the keratinized layer the reaction product was localized between the cell membranes of the deeper cells and no deposits were present in the cells. It is suggested that the osmiophilic reagents provide a good alternative to the Gomori method for the localization of lysosomal acid phosphatase at both the light and electron microscope levels.     

Regulation of the Activity of N-1-Naphthylphthalamic Acid Binding Protein by ATP and Phosphatase

N-1-naphthylphthalamic acid (NPA), an auxin transport inhibitor, was found to bind specifically to a crude membrane preparation from sugar beet seedling leaf cell suspension cultures. The dissociation constant (Kd) and binding protein concentration were found to be 1.71 mol dm^–3 and 220 pmol g^–1(membrane protein), respectively. The amount of specific ³H-NPA binding was significantly increased by adding Mg²⁺ATP to the binding assay solution. Treatment of membrane preparations with acid phosphatase, prior to the NPA binding assay, resulted in lower specific binding. ATP activation and phosphatase inactivation were culture stage dependent. Although a considerable effect could be detected when using cells from day 8 (representing the linear phase), the same treatment did not alter the binding if cells from day 1 (representing lag phase) or day 14 (representing the stationary phase) were used. These observations have strongly highlighted the possible involvement of a phosphorylation and dephosphorylation mechanism in vivo in the regulation of the activity of the NPA binding protein. High phosphatase activity was found in the supernatant, but not in the membrane pellet) after 50 000 g centrifugation. Our present study has indicated that receptor activity could be regulated by a phosphorylation and dephosphorylation mechanism in plants.     

Histochemical study of a number of hydrolases,including a new acid phosphatase,in various tissues of men and mice

Summary Two acid phosphatases have been demonstrated histochemically in mouse ventral prostate, seminal vesicles, coagulating glands, and liver and in human prostate. The first is the lysosomal acid phosphatase demonstrable by the Gomori technique. The second differs from thisβ-glycerophosphatase in that it splits naphthol AS phosphates but notβ-glycerophosphate; it has a different histochemical pH optimum and it is not inhibited by MoO₄ or NaF. The enzyme does not represent the “tail” of alkaline phosphatase activity as it is not inhibited by inhibitors of alkaline phosphatase and it has a different localization in liver and in human prostate. The enzyme may be membrane-bound but a lysosomal localization has still to be confirmed.     

Assessment of lysosomal function by quantitative histochemical and cytochemical methods

Summary Quantitative histochemistry and cytochemistry enables a direct link to be made between metabolic functions such as the activity of lysosomal enzymes and the morphology of a tissue or a type of cell. Several approaches exist such as microchemistry based on (bio)chemical analysis of a single cell or a small piece of tissue dissected from a freeze-dried section. This technique has been routinely used for prenatal diagnosis of inherited enzyme defects and especially of lysosomal storage diseases. Other approaches are cytofluorometry or cytophotometry, which are based on the principle that a fluorescent or coloured final reaction product is precipitated at the site of the enzyme. The amount of final reaction product is analysed per cell or per unit volume of tissue using either a microscope cytofluorometer or flow cytometer for fluorescence measurements or an image analysing system or scanning and integrating cytophotometer for absorbance measurements.In principle, fluorescence methods are to be preferred over chromogenic methods because they are more sensitive and enable multiparameter analysis. However, only a limited number of fluorogenic methods are at hand that give a final reaction product which is sufficiently water-insoluble to guarantee good localisation. The best results have been obtained with methods based on naphthol AS-TR derivatives and with methods for the demonstration of protease activity using methoxynaphthylamine derivatives as substrates and 5-nitrosalicylaldehyde as coupling reagent. Chromogenic methods are far better with respect to localisation properties and, therefore, most commonly used for quantitative histochemical analysis of lysosomal enzyme activities. Besides the measurement of enzyme reactions in tissues and cells, chromogenic methods have been applied for the analysis of kinetic parameters of lysosomal enzymesin situ which could be a better reflection of enzyme kineticsin vivo than those obtainedin vitro with biochemical means in diluted solutions. Chromogenic methods have also been used in the lysosomal fragility test which is based on the lag phase occurring when a lysosomal enzyme reaction is analysed against time. The duration of the lag phase is a parameter for the stability of the lysosomal membrane and is affected by toxic compounds or under pathological conditions. This paper reviews briefly fundamental aspects and applications of quantitative histochemical and cytochemical methods in the study of lysosomes.     

Acid phosphatase activity during spore differentiation of the red algaeGigartina teedii andChondria tenuissima

The acid phosphatase activity during carposporogenesis inGigartina and tetrasporogenesis inChondria was studied using the Gomori technique. During the first steps of gonimoblast maturation ofGigartina, portions of cytoplasm are ensheathed by ER cisternae with acid phosphatase activity, giving rise to autolysosomal concentric membrane bodies. In a similar way large mucilage sacs are severed. They extrude their contents in a kind of exocytosis. Multivesicular bodies, concentrically arranged cisternae and extracytoplasmic compartments, each with acid phosphatase activity, remain in young carpospores for some time, probably as remnants of the autophagocytotic and exocytotic events. The Golgi apparatus is poorly developed in gonimoblast cells and young carpospores. It becomes a prominent cell component in maturing carpospores and then participates in cell wall formation. Only some of the dictyosomal cisternae contain acid phosphatase; these are irregularly distributed in the dictyosome. — In pre- and postmeiotic tetraspore mother cells ofChondria massive lead deposits are found in the dictyosomes and in adjacent Golgi vesicles. Finer lead precipitates occur in ER cisternae, especially in those which are sequestering starch-grain-containing portions of the cytoplasm to give rise to autolysosomes. During cell cleavage, the dictyosomes aggregate. They become devoid of acid phosphatase activity with the exception of vesicles at the trans face. Later, Golgi stacks associate and have common, Gomori positively reacting, narrow cisternae at the cis face. The Golgi apparatus derived cored vesicles do not contain lead precipitates whereas the Golgi cisternae in the final stage of tetrasporogenesis show acid phosphatase activity. Variations in acid phosphatase distribution are explained in the light of current models of membrane flow.Dedicated to Univ.-Prof. DrO. Härtel on the occasion of his 80th birthday.     

Sutureless Fixation of Amniotic Membrane for Therapy of Ocular Surface Disorders

Amniotic membrane is applied to the diseased ocular surface to stimulate wound healing and tissue repair, because it releases supportive growth factors and cytokines. These effects fade within about a week after application, necessitating repeated application. Generally, amniotic membrane is fixed with sutures to the ocular surface, but surgical intervention at the inflamed or diseased site can be detrimental. Therefore, we have developed a system for the mounting of amniotic membrane between two rings for application to a diseased ocular surface without surgical intervention (sutureless amniotic membrane transplantation). With this system, AmnioClip, amniotic membrane can be applied like a large contact lens. First prototypes were tested in an experiment on oneself for wearing comfort. The final system was tested on 7 patients in a pilot study. A possible influence of the ring system on the biological effects of amniotic membrane was analyzed by histochemistry and by analyzing the expression of vascular endothelial growth factor-A (VEGF-A), hepatocyte growth factor (HGF), fibroblast growth factor 2 (FGF 2) and pigment epithelium-derived factor (PEDF) from amniotic membranes before and after therapeutic application. The final product, AmnioClip, showed good tolerance and did not impair the biological effects of amniotic membrane. VEGF-A and PEDF mRNA was expressed in amniotic membrane after storage and mounting before transplantation, but was undetectable after a 7-day application period. Consequently, transplantation of amniotic membranes with AmnioClip provides a sutureless and hence improved therapeutic strategy for corneal surface disorders.

Trial Registration

ClinicalTrials.gov {"type":"clinical-trial","attrs":{"text":"NCT02168790","term_id":"NCT02168790"}}NCT02168790     

Permeability changes resulting from virus-cell fusion: temperature-dependence of the contributing processes

Summary A new assay for membrane fusion, using the fluorescent probe pyrene-sulphonyl-phosphatidyl ethanolamine, has been developed. Fusion between the envelope of Sendai virus and human erythrocytes or Lettre cells has a Q₁₀ of 4 at 37° C, increasing to 7 at 7 ° C; there is no lag to onset of fusion. Viral neuraminidase has a Q₁₀ of 2.3 between 37° C and 4° C. Its action limits the extent of fusion by causing the elution of virus; this effect is particularly marked at low temperature because of the difference in Q₁₀ for fusion and neuraminidase. The temperature-dependence of the initiation of permeability changes following the removal of inhibitory amounts of Ca²⁺ is 2; thus membrane fusion is the principal temperature-sensitive step during the permeabilization of cells by Sendai virus. A recovery process, by which cells become insensitive to the removal of Ca²⁺ and which therefore limits the extent of permeabilization, has a Q₁₀ of 7.4 between 37° C and 21° C. It is concluded that the lag to onset of permeability changes is not due to a lag in virus-cell membrane fusion, but to the gradual acquisition of a threshold level of membrane damage; the extent of permeabilization depends on the rate of fusion relative to the rates of neuraminidase and recovery.     

The Aggregation-Prone Intracellular Serpin SRP-2 Fails to Transit the ER in Caenorhabditis elegans

Familial encephalopathy with neuroserpin inclusions bodies (FENIB) is a serpinopathy that induces a rare form of presenile dementia. Neuroserpin contains a classical signal peptide and like all extracellular serine proteinase inhibitors (serpins) is secreted via the endoplasmic reticulum (ER)–Golgi pathway. The disease phenotype is due to gain-of-function missense mutations that cause neuroserpin to misfold and aggregate within the ER. In a previous study, nematodes expressing a homologous mutation in the endogenous Caenorhabditis elegans serpin, srp-2, were reported to model the ER proteotoxicity induced by an allele of mutant neuroserpin. Our results suggest that SRP-2 lacks a classical N-terminal signal peptide and is a member of the intracellular serpin family. Using confocal imaging and an ER colocalization marker, we confirmed that GFP-tagged wild-type SRP-2 localized to the cytosol and not the ER. Similarly, the aggregation-prone SRP-2 mutant formed intracellular inclusions that localized to the cytosol. Interestingly, wild-type SRP-2, targeted to the ER by fusion to a cleavable N-terminal signal peptide, failed to be secreted and accumulated within the ER lumen. This ER retention phenotype is typical of other obligate intracellular serpins forced to translocate across the ER membrane. Neuroserpin is a secreted protein that inhibits trypsin-like proteinase. SRP-2 is a cytosolic serpin that inhibits lysosomal cysteine peptidases. We concluded that SRP-2 is neither an ortholog nor a functional homolog of neuroserpin. Furthermore, animals expressing an aggregation-prone mutation in SRP-2 do not model the ER proteotoxicity associated with FENIB.     

FastMG: a simple,fast, and accurate maximum likelihood procedure to estimate amino acid replacement rate matrices from large data sets

Background

Amino acid replacement rate matrices are a crucial component of many protein analysis systems such as sequence similarity search, sequence alignment, and phylogenetic inference. Ideally, the rate matrix reflects the mutational behavior of the actual data under study; however, estimating amino acid replacement rate matrices requires large protein alignments and is computationally expensive and complex. As a compromise, sub-optimal pre-calculated generic matrices are typically used for protein-based phylogeny. Sequence availability has now grown to a point where problem-specific rate matrices can often be calculated if the computational cost can be controlled.

Results

The most time consuming step in estimating rate matrices by maximum likelihood is building maximum likelihood phylogenetic trees from protein alignments. We propose a new procedure, called FastMG, to overcome this obstacle. The key innovation is the alignment-splitting algorithm that splits alignments with many sequences into non-overlapping sub-alignments prior to estimating amino acid replacement rates. Experiments with different large data sets showed that the FastMG procedure was an order of magnitude faster than without splitting. Importantly, there was no apparent loss in matrix quality if an appropriate splitting procedure is used.

Conclusions

FastMG is a simple, fast and accurate procedure to estimate amino acid replacement rate matrices from large data sets. It enables researchers to study the evolutionary relationships for specific groups of proteins or taxa with optimized, data-specific amino acid replacement rate matrices. The programs, data sets, and the new mammalian mitochondrial protein rate matrix are available at http://fastmg.codeplex.com.     

Use of BODIPY‐Cholesterol (TF‐Chol) for Visualizing Lysosomal Cholesterol Accumulation

Dipyrromethene difluoride‐cholesterol (TopFluor‐Cholesterol, TF‐Chol) is a widely used cholesterol analogue due to its excellent fluorescence properties and considerable similarity with natural cholesterol in terms of membrane partitioning. However, the suitability of TF‐Chol for detecting lysosomal cholesterol deposition has recently been questioned. Here, we highlight the fact that the method of lipid delivery and the analysis of time‐point both affect the membrane distribution and labeling pattern of TF‐Chol, similarly as with radiolabeled cholesterol. Lysosomal sterol accumulation characteristic to a lysosomal storage disease is most readily detected when the probe is introduced via the physiological route, i.e. as a sterol fatty acid ester in low‐density lipoprotein particles. When administered to cells from solvent, lysosomal sterol sequestration becomes evident after an overnight equilibration between membranes.      

Mechanism of action of cholera toxin: Studies on the lag period

Summary The lag period for activation of adenylate cyclase by choleragen was shorter in mouse neuroblastoma N18 cells than in rat glial C6 cells. N18 cells have 500-fold more toxin receptors than C6 cells. Treatment of C6 cells with ganglioside G_M1 increased the number of toxin receptors and decreased the lag phase. Choleragen concentration also effected the lag phase, which increased as the toxin concentration and the amount of toxin bound decreased. The concentration, however, required for half-maximal activation of adenylate cyclase depended on the exposure time; at 1.5, 24, and 48 hr, the values were 200, 1.1., and 0.35pm, respectively. Under the latter conditions, each cell was exposed to 84 molecules of toxin.The length of the lag period was temperature-dependent. When exposed to choleragen at 37, 24, and 20 °C, C6 cells began to accumulate cyclic AMP after 50, 90, and 180 min, respectively. In G_M1-treated cells, the corresponding times were 35, 60, and 120 min. Cells treated with toxin at 15 °C for up to 22 hr did not accumulate cAMP, whereas above this temperature they did. Antiserum to choleragen, when added prior to choleragen, completely blocked the activation of adenylate cyclase. When added after the toxin, the antitoxin lost its inhibitory capability in a time and temperature-dependent manner. Cells, however, could be preincubated with toxin at 15 °C, and the antitoxin was completely effective when added before the cells were warmed up. Finally, cells exposed to choleragen for >10 min at 37 °C accumulated cyclic AMP when shifted to 15 °C. Under optimum conditions at 37°C, the minimum lag period for adenylate cyclase activation in these cells was 10 min. These findings suggest that the lag period for cholerage action represents a temperature-dependent transmembrane event, during which the toxin (or its active component) gains access to adenylate cyclase.Abbreviations used: ganglioside nomenclature according to Svennerholm [32] (see Table 1 for structures) cAMP adenosine 35-monophosphate - MIX 3-isobutyl-1-methylxanthine - HEPES N-2-hydroxyethylpiperazine-N-2-ethane sulfonic acid - PBS phosphate-buffered saline (pH 7.4)     

Microwave irradiation and in vitro release of enzymes from hepatic lysosomes

Summary An exposure system for examining in vitro effects of microwave irradiation on cellular and subcellar components has been developed. The system was used to test the effect of 2.45-GHz CW microwaves on the release of two lysosomal enzymes. At a specific absorption rate (SAR) of 10, 50 or 100 mW/g (90 min) no effects were noted at 37° C (pH of 7.3) on lysosomal fragility as determined by the release of the lysosomal enzymes cathepsin D and-glucuronidase. When the medium was adjusted to pH 5.0, microwave irradiation of the lysosomal suspension had no effect on the acid-induced enhancement of release of lysosomal enzymes. The data indicate that microwave irradiation had no labilizing effect on the lysosomal membrane, although other microwave-membrane interactions not associated with enzyme release may occur.     

Symbiotic <Emphasis Type="Italic">Chlorella variabilis</Emphasis> strain, 1 N,can influence the digestive process in the host <Emphasis Type="Italic">Paramecium bursaria</Emphasis> during early infection

The association between the ciliate Paramecium bursaria and symbiotic Chlorella spp. is mutually beneficial. However, this relationship is facultative mutualism because both the host and the symbiotic algae can grow by themselves. This association is easily re-established by mixing the two species together. Following algal mixing, some algae become enclosed in the digestive vacuole membrane of the paramecia to which both acidosomes and lysosomes fuse. To establish endosymbiosis, some algae acquire temporal resistance to the host lysosomal enzymes in the digestive vacuoles. We examined whether the algae influence the differentiation of the host digestive process using LysoSensor staining to evaluate the acidification of the digestive vacuoles. Furthermore, to assess lysosomal fusion with the digestive vacuole, Gomori’s staining was conducted. Acidification and lysosomal fusion occurred later in digestive vacuoles containing living algae than in those containing boiled algae or latex spheres. This phenomenon was observed when the living algae were maintained under a constant light condition. These results suggest that the algae release some unknown factor in response to light exposure, and the factor may be associated with the alteration of the host digestive process, indicating that the living algae can influence the host digestive processes during early algal infection.     

The relationship between ATP and an electrogenic pump in the plasma membrane ofNeurospora crassa

Summary Sudden respiratory blockade has been used to study rapid changes of the resting membrane potential, of intracellular adenosine 5-triphosphate (ATP) levels, and of pyridine nucleotide reduction inNeurospora crassa. Membrane depolarization occurs with a first-order rate constant of 0.167 sec^–1, following a lag period of about 4 sec, at 24°C (ambient temperature). This depolarization is several-fold too slow to be directly linked to electron transfer, as judged from the rate of pyridine nucleotide reduction, but has essentially the same rate constant as the decay of ATP. The latter process, however, shows no lag period after the respiratory inhibitor is introduced. Plots of membrane potential versus the intracellular ATP concentration yield saturation curves which are readily fitted by a Michaelis equation, to which is added a constant term representing the diffusion component of membrane potential. Parameters obtained from such fits indicate the maximal voltage which the pump can develop at high ATP levels to be 300 to 350 mV, with an apparentK _1/2 of 2.0mm. The data strongly suggest that an electrogenic ion pump in the plasma membrane ofNeurospora is fueled by ATP; comparison of the measured membrane potentials with the energy available from hydrolysis of ATP indicates that two ions could be pumped for each molecule of ATP split.