Comparative enzyme histochemical study on the visceral yolk sac endoderm in the rat in vivo and in vitro

Histochemical study of the visceral yolk-sac endoderm of the rat was performed in vitro (whole-embryo culture for 24, 48 and 72 h explanted at 9.5 days of gestation) and in vivo (10.5, 11.5 and 12.5 days of gestation) in order to compare the distribution and activity of various enzymes involved in the digestion and energy metabolism in both systems. It was shown that, both in vitro and in vivo gamma-glytamyltransferase and dipeptidylpeptidase IV are demonstrable in the apical cell membranes (membrane-bound hydrolases), while acid phosphatase, dipeptidylpeptidases I, II and acid beta-galactosidase are concentrated in the supranuclear vacuoles (lysosomal hydrolases), and cytoplasmic lactate dehydrogenase and mitochondrial enzymes (succinate dehydrogenase, NAD-dependent isocitrate dehydrogenase, cytochrom oxidase) are localized in the whole cytoplasm and mainly in the apical cytoplasm, respectively, of the visceral yolk-sac epithelium. In vivo, the activity of all enzymes increased until 12.5 days, but in vitro, this activity increased only until 48 h after the start of culture (corresponding to 11.5 days in vivo). Comparison of the yolk sacs at 10.5 and 11.5 days in vivo with those after 24 and 48 h in vitro showed that the activities of all the investigated enzymes were almost identical. Yolk sacs which were cultured for 72 h showed lower activities of lysosomal and mitochondrial enzymes than those at 12.5 days in vivo. It is concluded that the digestive function and energy metabolism of the visceral yolk-sac epithelium are almost identical in vitro and in vivo at 10.5 and 11.5 days.     

Histochemical demonstration of exopeptidases in the rat visceral yolk-sac epithelium

Summary The localization of exopeptidase activities was demonstrated histochemically (by simultaneous azo coupling) on the visceral endoderm of whole unfixed yolk sacs of rats (12.5–18.5 days of gestation). For comparison, the topochemistry of exopeptidases was studied by conventional section histochemistry of frozen yolk sacs. The study of unfixed visceral yolk-sac epithelium showed that different artificial peptidase substrates (Ala-, Met-, Phe-, Leu-, -Asp-, -Glu-, -Glu, Tyr-, Val-, Ser, Arg- and Gly-Pro-MNA) are hydrolysed in the apical-cell membranes (membrane-bound peptidases) and, in a number of cells, within the cytoplasmic matrix. Section histochemistry showed that peptidase activities were almost only directed against -Glu-and Gly-Pro-MNA at the cell apices. It is concluded that most of the exopeptidase activities in the apiccal cell membrane of the visceral yolk-sac epithelium are only demonstrable in unfixed yolk sacs. These activities are of great importance for the supplying of the embryo with amino acids.Supported by the Deutsche Forschungsgemeinschaft (SFB 105)     

Histochemical demonstration of exopeptidases in the rat visceral yolk-sac epithelium

The localization of exopeptidase activities was demonstrated histochemically (by simultaneous azo coupling) on the visceral endoderm of whole unfixed yolk sacs of rats (12.5-18.5 days of gestation). For comparison, the topochemistry of exopeptidases was studied by conventional section histochemistry of frozen yolk sacs. The study of unfixed visceral yolk-sac epithelium showed that different artificial peptidase substrates (Ala-, Met-, Phe-, Leu-, alpha-Asp-, alpha-Glu-, gamma-Glu, Tyr-, Val-, Ser-, Arg- and Gly-Pro-MNA) are hydrolysed in the apical-cell membranes (membrane-bound peptidases) and, in a number of cells, within the cytoplasmic matrix. Section histochemistry showed that peptidase activities were almost only directed against gamma-Glu- and Gly-Pro-MNA at the cell apices. It is concluded that most of the exopeptidase activities in the apical cell membrane of the visceral yolk-sac epithelium are only demonstrable in unfixed yolk sacs. These activities are of great importance for the supplying of the embryo with amino acids.     

Effects of L-asparaginase on rat embryonic development and yolk sac membrane in vitro

A comparative analysis of the teratogenic effects of L-asparaginase on 10.5- and 11.5-day rat embryos after 24 and 48 hours of exposure in vitro, respectively, were performed. Several medium concentrations of L-asparaginase (0.05, 0.25, and 1.5 IU/ml) were tested in both embryo series. Resulting embryos were submitted to morphological studies in a search for a specific route of pathogenesis. Morphological alterations of the visceral yolk sac were also studied to investigate its contribution to L-asparaginase teratogenicity in rats. Main embryonic malformations (open truncal neural tube, open encephalic vesicles, anophthalmia, lack of inversion, abnormal frontolateral protrusions, great vascular dilations at the cephalic level) and developmental retardation were already generated after the first 24 hours of culture (embryos of 10.5 days) and presented a dose-response relationship. Vascular dilations and neurulation disturbances seemed to be related to an early mesenchyme deficiency. Reduced number of mesenchymal cells was more evident in embryos of 10.5 days than those of 11.5 days, suggesting the existence of a later compensatory mechanism of cellular proliferation in the older embryo. Visceral yolk-sac endodermal cells at both embryonic stages were greatly deformed and enlarged by an increase of the high electron-dense vacuolar system. Therefore, both a blockage of the processes of lysosomal digestion and derived trophic deficiencies probably existed. A double teratogenic mechanism for L-asparaginase is postulated: a direct action mainly in younger embryos (before invagination of the embryo into the yolk sac) and a yolk sac-mediated one.     

Thermodynamics of all-or-none water channel closure in red cells

Summary The relation of osmotic to diffusional water permeability of human red blood cells was compared after treating the cells with different concentrations of PCMBS (p-chloromercuribenzene sulfonate). After subtracting the PCMBS-insensitive permeability (presumably the water permeability of the lipid bilayer) from each, the ratio of osmotic to diffusional permeability remains invariant (11) as more and more water channels are inhibited by increasing concentrations of PCMBS. This result implies that the channels close in an all-or-none way and suggests a two-state model. Analysis of the dependence of osmotic water permeability on PCMBS concentration in terms of the model reveals a 11 stoichiometry and a dissociation constant for the PCMBS/membrane receptor complex of about 0.019mm at 37°C. Temperature dependence studies show that the reaction is entropically driven (H ^o25 kcal/mol, S ^o100 cal/moldeg) and suggest the involvement of hydrophobic interactions.     

Adsorptive pinocytosis of 125I-labelled lactate dehydrogenase isoenzymes H4 and M4 by rat yolk sacs incubated in vitro.

The pinocytic uptake of 125I-labelled porcine lactate dehydrogenase isoenzymes H4 and M4 by 17.5-day rat visceral yolk sac incubated in vitro was saturable and binding obeyed Michaelis-Menten kinetics. The uptake characteristics of the two isoenzymes were very similar. For the H4 and the M4 isoenzymes, the dissociation constants of the protein-plasma-membrane complex were 0.62 microM and 0.84 microM respectively, and the maximum rates of uptake 0.13 and 0.26 nmol/mg of yolk-sac protein per h respectively. These findings contrast with those from studies in vivo, which show the M4 form is taken up by rat liver sinusoidal cells at a much higher rate than the H4 form, and point to different recognition systems for the adsorptive pinocytosis of simple non-conjugate proteins in yolk-sac epithelial cells and liver sinusoidal cells. Competition experiments indicate that binding of the H4 isoenzyme to the yolk-sac cells is restricted to hydrophobic interactions, whereas the binding of the M4 isoenzyme involves hydrophobic as well as positively charged sites on the protein molecules.     

Two new species of Isospora (Apicomplexa: Eimeriidae) from passeriform birds of South America

Summary Two new species of Isospora (Apicomplexa: Eimeriidae) are described from the faeces of passeriform birds of South America. I. cyanocoracis n. sp. is described from Cyanocorax chrysops (Passeriformes: Corvidae) and I. paroariae n. sp. from Paroaria coronata (Passeriformes: Emberizidae). I. cyanocoracis oocysts are spherical or subspherical, 28.7×26.8 m (25.0–30.5×24.5–29.0), with bi-layered wall about 2.0 m thick. Micropyle and oocyst residuum are absent; large polar granule present. Sporocysts are ovoid, 19.3×11.4 m (17.0–21.0×10.5–12.2), with smooth, single-layered wall about 0.8 m thick. Stieda and substiedal bodies and sporocyst residuum are present. Sporozoites 12.2×4.2 m (10.5–15.0×3.5–4.5), possess spherical anterior and posterior refractile bodies. I. paroariae oocysts are spherical or subspherical, 22.3×21.4 m (19.5–25.5×18.5–24.0), and have bi-layered wall about 1.8 m thick. Micropyle, polar granule, and oocyst residuum are absent. Sporocysts ovoid, 15.2×10.0 m (14.0–16.5×8.0–11.5), possess smooth, single-layered wall about 0.7 m thick. Stieda and substiedal bodies and sporocyst residuum are present. Sporozoites elongate, 11.3×3.4 m (10.0–13.5×3.2–4.0), have single, large, posterior refractile body. ac]19840712     

Histochemical studies of enzymes of the energy metabolism in postimplantation rat embryos

Using histochemical procedures for the detection of lactate dehydrogenase (LDH), succinate dehydrogenase (SDH), and cytochrome c oxidase (cytox), we investigated the levels of these enzymes of the energy metabolism in postimplantation rat embryos (9.5-12.5 days of gestation). On day 10.5 of gestation, the neural tube, somites, myocardium, and mesenchyme displayed moderate levels of LDH activity; this activity gradually increased in strength, so that, on day 12.5 of gestation, intense LDH activity was uniformly distributed in these intraembryonic tissues. In contrast to LDH, distinct regional differences in the distribution of SDH and cytox were detected. On day 10.5 of gestation, the myocardium exhibited weak to moderate SDH and cytox activity, and on day 11.5, the myocardial activity of these enzymes had become moderate to intense. However, in all other embryonic tissues, e.g., the neural tube and somites, only weak SDH and cytox activity was present. On day 12.5 of gestation, the myocardium displayed very intense SDH and cytox activity, whereas the mantle layer of the neural tube, the spinal ganglia, and the myotomes exhibited only moderate levels of SDH and cytox activity. In the matrix of the neural tube and mesenchyme, these enzyme activities remained at low levels. At electron microscopy, cytox activity was detectable in the spaces between the inner and outer membranes as well as in the intracristal spaces of mitochondria. In general, cytox activity increased in parallel with the differentiation of mitochondria (i.e., increased mitochondrial numbers and size, and the development of mitochondrial cristae), but when the distribution of the cytox activity was considered in detail, it was found to differ among mitochondria.(ABSTRACT TRUNCATED AT 250 WORDS)     

Fluorescent histochemical demonstration of cathepsin B in the rat yolk sac

Summary Fluorescence demonstration of cathepsin B (E.C. 3.4.22.1) activity was performed in the yolk sac of rats near term (18th day of gestation). The enzyme demonstration was performed on freeze-dried and celloidin mounted yolk-sac sections using different substituted -naphthylamide derivatives as substrates and nitrosalicylaldehyde as coupling agent. The discrete reaction products are localized preferentially in the apical part of the visceral yolk-sac epithelium. There is little doubt that cathepsin B is contained here in the well developed lysosomal apparatus of the yolk-sac epithelium.Supported by the Deutsche Forschungsgemeinschaft (SFB 105)     

The innervation of the salivary gland of the moth,Manduca sexta

Summary The salivary glands of the moth, Manduca sexta (Insecta: Sphingidae), are unlike most other salivary glands in that they are innervated from one source only. Vital staining of nerves with methylene-blue reveals numerous fine nerves extending to the glands from the oesophageal nerve, a part of the stomatogastric or visceral nervous system. Light and electron microscopy confirm that only the fluid-secreting cells, confined to a discrete region in these glands, are innervated. Axons with or without glial wrappings are found in intercellular spaces between fluid-secreting cells. Axons lacking a glial sheath contain, after glutaraldehyde-osmium tetroxide fixation, large granular and small agranular vesicles. In nerve endings in glands fixed with permanganate these smaller vesicles are granular, having the electron-dense cores characteristic of monoamine-containing neurons. These nerve endings with synaptoid areas are in close (direct) contact with the fluid-secreting cells.I am grateful to Professor T. Weis-Fogh for accommodation in the department of Zoology and to Dr. Nancy Lane for use of A.R.C. facilities and advice. Thanks are also due to Drs. M. J. Berridge, S.H.P. Maddrell, and W. T. Prince and Mr. R. A. Leslie for helpful discussion. Financial assistance from Clare College, Cambridge is gratefully acknowledged.     

Studies on the mechanism of trypan blue teratogenicity in the rat developing in vivo and in vitro

Trypan blue is a potent teratogen in vivo and in vitro in the rat. Many of the abnormalities produced by trypan blue--including swollen neural tube and pericardium, subectodermal blisters, hematomas, and generalized edema--may result from altered fluid balance in and around the embryo. The present study demonstrates relationships between changes in the fluid environment around the embryo and appearance of anomalies. Rat embryos were exposed in utero or in vitro to trypan blue during the early period of organogenesis. Both exposures resulted in defects that are typical of trypan blue treatment. Osmolality of exocoelomic fluid (ECF) was measured on gestation day 10 in vivo and day 12 in vitro, both after 48 hr of exposure to trypan blue. In both cases ECF osmolality was significantly lower than controls. This was correlated with the presence of edema-related anomalies in the embryo. On gestation day 11 in vivo, three days after maternal injection of trypan blue, ECF osmolalities were significantly higher than controls; however, there was tremendous variability in this parameter in day 11 treated embryos, and some had ECF osmolalities below the control range. Increased frequency of abnormalities was correlated with abnormal ECF osmolality, below and above the control range. Trypan blue probably exerts its teratogenic effects by disturbing the function of the visceral yolk sac. The movements of an amino acid and a monosaccharide across the visceral yolk sac were measured on gestation day 12 embryos in vitro. This aspect of yolk sac function was not altered by trypan blue exposure. Ultrastructure of the visceral yolk sac was observed after trypan blue exposure in vivo and in vitro. Endodermal cells in trypan blue-treated yolk sacs contained fewer large, electron dense lysosomes than controls. These were replaced by numerous small vacuoles, which may contain trypan blue. Trypan blue causes osmotic changes in the rat embryo in vivo and in vitro. These changes are correlated with embryonic malformations. Alterations in yolk sac ultrastructure indicate that trypan blue affects the function of this membrane.     

The effects of high-sucrose diets and of maternal diabetes on the ultrastructure of the visceral yolk sac endoderm in rat embryos developing in vivo and in vitro

The ultrastructure of the visceral yolk sac endoderm of in vivo developing 9- to 13-day-old embryos from 2 diabetic rat models (streptozotocin diabetes and Cohen--genetically determined--diabetes) and from nondiabetic rats fed high sucrose diets have been studied. This was compared to yolk sacs from 9.5-day-old embryos cultured for 48 h in sera from diabetic and nondiabetic rats fed a high-sucrose diet. Light-microscopic, TEM and SEM studies showed that the pathological cellular changes in the visceral yolk sac endoderm from diabetic rats were first observed on day 9 and were most severe among 11-day-old embryos. In vitro culture of control rat embryos in serum from experimental animals induced a reduction in the number of microvilli, of vacuolar intracellular inclusions and an increase in the number of degenerated endodermal cells. SEM studies showed that in addition to disappearance of microvilli, the majority of cells were collapsed and had degenerated cell membranes. Culture of embryos from diabetic animals in control serum only slightly reversed the pathological changes in the visceral yolk sac endoderm. A good correlation exists between the rate of embryonic malformations in diabetic rats and an index of endodermal-cell damage in the visceral yolk sac.     

Abnormal embryonic development induced by antibodies to rat visceral yolk-sac endoderm: isolation of the antigen and localization to microvillar membrane

An antigenic substance was isolated from rat visceral yolk-sac endoderm of the 18th-20th days of gestation by extraction with the nonionic detergent Nonidet P-40, Sephacryl S-300 gel filtration, and Ricinus communis agglutinin affinity chromatography. The rabbit antiserum directed against this antigenic substance when injected into pregnant rats during the period of organogenesis caused abnormal embryonic development, fetal growth retardation, and embryonic death. Ouchterlony gel diffusion analysis demonstrated that the antiserum formed one immunoprecipitin band against the crude detergent extract and a complete identity between the present visceral yolk-sac antigen and the renal glycoprotein antigen previously isolated (C. C. K. Leung, (1982) J. Exp. Med. 156, 372-384). The antigen eluted from the antibody affinity column appeared to consist of two major peptides of 60 and 30 kDa when analyzed by SDS-polyacrylamide gel electrophoresis. Indirect immunofluorescent and immunoperoxidase localization studies at the light microscopic level demonstrated that both rat renal proximal tubule and embryonic visceral yolk-sac endoderm at various gestational stages (including the organogenetic period) shared the same antigen. Indirect immunoperoxidase localization studies at the electron microscopic level demonstrated that the antigen was a part of (or associated with) the microvillar membrane and membrane invaginations at the base of the microvilli of the renal proximal tubule and visceral yolk-sac endoderm. In vivo immunoperoxidase localization studies demonstrated that the teratogenic antibodies localized within the large phagolysosomes and the apical vesicles of the visceral yolk-sac endoderm. It is postulated that visceral yolk-sac pathology was induced by the antibodies.     

Histochemical studies of enzymes of the energy metabolism in postimplantation rat embryos

Summary Using histochemical procedures for the detection of lactate dehydrogenase (LDH), succinate dehydrogenase (SDH), and cytochrome c oxidase (cytox), we investigated the levels of these enzymes of the energy metabolism in postimplantation rat embryos (9.5–12.5 days of gestation). On day 10.5 of gestation, the neural tube, somites, myocardium, and mesenchyme displayed moderate levels of LDH activity; this activity gradually increased in strength, so that, on day 12.5 of gestation, intense LDH activity was uniformly distributed in these intraembryonic tissues. In contrast to LDH, distinet regional differences in the distribution of SDH and cytox were detected. On day 10.5 of gestation, the myocardium exhibited weak to moderate SDH and cytox activity, and on day 11.5, the myocardial activity of these enzymes had become moderate to intense. However, in all other embryonic tissues, e.g., the neural tube and somites, only weak SDH and cytox activity was present. On day 12.5 of gestation, the myocardium displayed very intense SDH and cytox activity, whereas the mantle layer of the neural tube, the spinal ganglia, and the myotomes exhibited only moderate levels of SDH and cytox activity. In the matrix of the neural tube and mesenchyme, these enzyme activities remained at low levels. At electron microscopy, cytox activity was detectable in the spaces between the inner and outer membranes as well as in the intracristal spaces of mitochondria. In general, cytox activity increased in paralled with the differentiation of mitochondria (i.e., increased mitochondrial numbers and size, and the development of mitochondrial cristae), but when the distribution of the cytox activity was considered in detail, it was found to differ among mitochondria. The relationship between, on the one hand, changes in the enzymatic patterns with a bearing on the energy-yielding metabolism and, on the other hand, cellular differentiation during major organogenesis in rat embryos is discussed.Dedicated to Professor Dr. T.H. Schiebler on the occasion of his 65th birthday     

Isolation of homogeneous polysaccharide monooxygenases from fungal sources and investigation of their synergism with cellulases when acting on cellulose

Lytic polysaccharide monooxygenases (PMO) discovered several years ago are enzymes classified as oxidoreductases. In nature, they participate in microbial degradation of cellulose together with cellulases that belong to the hydrolytic type of enzymes (class of hydrolases). Three PMO from ascomycetes–Thielavia terrestris, Trichoderma reesei, and Myceliophthora thermophila–were isolated and purified to homogeneous state using various types of chromatography. The first two enzymes are recombinant proteins heterologously expressed by the Penicillium verruculosum fungus, while the third is a native PMO secreted by M. thermophila. When acting on microcrystalline cellulose, all these PMOs displayed synergism with the cellulase complex of the P. verruculosum fungus. Replacing 10% of cellulases (by protein concentration) with PMO in the presence of 6.25 mM gallic acid or 2.5 μM of cellobiose dehydrogenase from M. thermophila, used as electron donors for PMO, resulted in the 17-31% increase in the yield of reducing sugars after 24-48 h of the enzymatic reaction.     

Micromanipulation of male and female gametes ofNicotiana tabacum: I. Isolation of gametes

The isolation of male and female gametes is a precondition for the micromanipulation of flowering plant gametes. To reflect their condition at fertilization, isolated gametes need to be physiologically mature and vigorous. Sperm cells are isolated from pollen tubes grown on cut styles using the in vivo/in vitro technique. Embryo sacs are isolated 2 days after anthesis using brief treatments of minimal concentrations of cell-wall-digesting enzymes on ovules of emasculated flowers. Egg cells are then mechanically separated from the embryo sac, allowing unambiguous identification of cells. Two days is usually the minimum required for the pollen tube to penetrate the ovule and effect fertilization in vivo.     

Morphological and physiological effects of beta-hydroxybutyrate on rat embryos grown in vitro at different stages

Diabetic women are more likely to give birth to infants with congenital malformations than are nondiabetic women. Rodent embryos have been used as a model for the study of abnormal fetal development associated with maternal diabetes, and some of the metabolic factors which are altered in diabetes, such as raised glucose and ketones, have been shown to cause abnormal development of rodent embryos in vitro. The present work explores further the teratogenicity of beta-hydroxybutyrate to rat embryos. To determine the sensitivities of rat embryos at different stages of their development, rat embryos at 9.5 days of gestation have been cultured in vitro for 24 or 48 h, with or without 4 x 10(-2) M beta-hydroxybutyrate for all or part of the culture period. The embryos have been examined by scanning electron microscopy, and a detailed morphometric analysis of one tissue, the neuroepithelium, has been undertaken. The results confirm that beta-hydroxybutyrate causes abnormal development of rat embryos. The results of experiments in which embryos were exposed to beta-hydroxybutyrate for only part of a 48 h culture show that embryos exposed to beta-hydroxybutyrate for a complete 48 h culture are more severely affected than embryos exposed to beta-hydroxybutyrate for only part of the culture and that embryos are more vulnerable to beta-hydroxybutyrate during the first half of a 48 h culture (equivalent to 9.5 to 10.5 days of gestation) than during the second half of a 48 h culture (10.5 to 11.5 days of gestation). The results of experiments in which embryos were cultured with beta-hydroxybutyrate from 9.5 days of gestation for 24 h (equivalent to 9.5 to 10.5 days of gestation) showed that some effects of beta-hydroxybutyrate are already apparent after 24 hours in culture. Many of the abnormalities produced by beta-hydroxybutyrate can be classified as embryonic retardations rather than malformations--that is, embryos show features characteristic of normal, but younger, embryos. Embryos exposed to beta-hydroxybutyrate for the complete 48 h culture period consume less glucose and produce less lactate than control embryos on a per embryo basis, but not on a per microgram protein basis, suggesting that the reduced metabolism is an effect of beta-hydroxybutyrate-induced developmental delay rather than a cause of it.(ABSTRACT TRUNCATED AT 400 WORDS)     

Infant distress vocalizations in the Southern African Lesser Bushbaby (Galago moholi)

Infant lesser bushbabies are typically able, from the earliest age, to utter distress vocalizations which appear to have major adaptive significance. Distress vocalizations of infant G. moholi were analyzed by means of a digital storage oscilloscope. Three kinds of sound analyses were carried out: analysis of the sound wave signal, sequential spectrum analysis, and fast Fourier transformation. We emphasize analysis of the frequency spectrum. Three distress calls were identified-the click call, the crackle, and the chirp-which we report for the first time. Click calls were typically composed of short, high-pitched pulses (clicks) uttered in fast, repetitive sequences with a broad band frequency spectrum containing frequencies up to 60 kHz. These acoustic characteristics appear to be particularly well suited for accurate spatial localization of the sound source. The main function of the click call is apparently to alert and to guide the mother to a lost or endangered infant. These basic acoustic characteristics-related to sound localization-are shared to some extent, with the other two distress calls. However, the three calls appear to represent different degrees of distress, with the click call being the basic, call, the crackle corresponding to a greater degree of distress, and the chirp possibly signaling extreme distress such as physical pain.We prefer the specific name,Galago moholi (A. Smith, 1836), for the southern African lesser bushbaby [instead ofGalago senegalensis moholi (A. Smith, 1839)] according to the new classification proposed by Olson (1979, 1986) and Nashet al. (1989).     

Behavior of L-threonine-degrading enzymes during liver regeneration

We examined the effects of a two-thirds hepatectomy in the adult rat on the activities of the three L-threonine-degrading enzymes, L-threonine dehydratase, L-threonine aldolase and L-threonine dehydrogenase. Noticeable variations were observed which did not occur in either sham-operated or turpentine-treated rats and were not linked to food intake. They were considered specific to the regenerating liver. When the reactions were followed in vitro, L-threonine deaminase and L-threonine aldolase were significantly lower for the first 12-24 h: L-threonine dehydrogenase decreased only after 48 h. These results are linked to a decrease in the enzyme concentration in the tissue. L-Serine and L-threonine liver concentrations increased 2-3-fold during the same periods. When the activities were evaluated in vivo, the levels of the first two enzymes remained constant for 24 h, but increased after 48 h; L-threonine dehydrogenase increased between 12 and 48 h. The in vivo activity of the enzymes was reflected by total L-threonine degradation, which had a single sharp peak at 48 h. The asynchronous variations in enzyme activity are related to the differences in protein metabolism which occur in the regenerating liver, and are the consequence of a new transient differential control. The changes observed are significant in liver regeneration; they regulate the consumption and the serum and liver levels of L-serine and L-threonine, setting them aside for protein synthesis. They minutely control the flux of amino acids toward gluconeogenesis, since, during the first 48 h after partial hepatectomy, the production of glucose is ensured principally by lactate; the contribution of L-threonine seems to be more significant only at 48 h. These findings are useful in the study of the regulation of the enzymes involved in amino acid metabolism during liver regeneration.     

The effect of some glycolytic intermediates and long-chain acyl-CoA esters on rat skeletal muscle mitochondrial α-glycerophosphate dehydrogenase

Summary -Glycerophosphate dehydrogenase (sn-glycerol-3-phosphate: acceptor oxidoreductase, EC 1.1.99.5) activity in mitochondria isolated from rat skeletal muscle has been studied. The pH optimum of the enzyme activity was about 7.4 and the apparent K_m value for DL--glycerophosphate was approxinately 1.6mm. The activity of this enzyme was found to be inhibited by DL-glyceraldehyde-3-phosphate, phosphoenolpyruvate and 3-phosphoglycerate in a competitive manner: the apparent K_i values at pH 7.4 being 0.3mm, 1.5mm and 4.0mm respectively. The enzyme was found to be more sensitive to phosphoenolpyruvate at pH 7.0 than 7.6.The activity of -glycerophosphate dehydrogenase in rat skeletal muscle was also inhibited by palmitoyl-CoA and stearoyl-CoA in a competitive manner. The K_i values being about 9.0 m for both metabolites. This inhibition was partly reversed by Ca²⁺ and Mg²⁺ ions. Palmitoylcarnitine also exerted inhibitory effect on -glycerophosphate dehydrogenase activity but palmitate, carnitine and CoA added alone was without effect. It is proposed that the activity of -glycerophosphate dehydrogenase in rat skeletal muscle mitochondria may be controlled by changes of the cytosolic levels of some glycolytic intermediates and long-chain acyl-CoA esters. These results are discussed with respect to the regulation of -glycerophosphate shuttle activity in skeletal muscle.