Separate molecular mechanisms regulate CAT2 gene expression before and after glyoxysome maturation in two genetic lines of maize

The temporal expression pattern of the CAT-2 catalase isozyme in scutella of Zea mays seedlings normally coincides with that of other major glyoxysomal enzymes. In standard genetic lines (e.g., W64A), the CAT-2 enzyme is synthesized de novo after imbibition, reaches a peak at approximately 4 days later, and then declines steadily. In a high CAT-2 genetic line, R6-67, the enzyme accumulates in a linear fashion for at least 8 days after imbibition and reaches a level 3-fold higher than in W64A. During the first 9 days of early seedling growth in W64A, the correlation between Cat2 mRNA levels and CAT-2 protein suggests that pretranslational control governs Cat2 gene expression. In R6-67, the steady rise in CAT-2 protein appears to result from a pretranslational control mechanism in which Cat2 mRNA apparently never declines to levels which would limit the rate of accumulation of CAT-2 protein. In addition, the amount of Cat2 mRNA bound to polysomes is 3-fold higher in R6-67 at day 9, relative to W64A at day 9, reflecting a much greater capacity to synthesize CAT-2 later in development. Despite substantial differences in Cat2 mRNA levels between genetic lines, early CAT-2 protein accumulation is similar until day 5, when other glyoxysomal enzymes also attain maximal activity levels. The early increase in CAT-2, between day 2 and day 5 post-imbibition, occurs despite a sharp decline in polysomal Cat2 mRNA. This is related to a transient decline in total extractable polysomes which paradoxically coincides with the peak in glyoxysomal enzyme activities.(ABSTRACT TRUNCATED AT 250 WORDS)     

Influence of the axis on the development of mitochondrial activity in imbibed black gram cotyledons

The respiration rate of mitochondria from detached Vigna mungo L. cotyledons (without the embryonic axis) doubled during the first day after imbibition, whereas that of mitochondria from attached ones increased by only 50%. Contrary to the respiration rate, the respiratory control ratio was higher in attached cotyledons. The activities of enzymes in the mitochondrial fraction from detached cotyledons increased by about 30% during the first day, while those in mitochondria from attached ones changed little. Cycloheximide did not inhibit the development of mitochondrial respiration in either attached or detached cotyledons, although it almost completely inhibited the incorporation of [¹⁴C]-leucine into mitochondrial proteins. Cycloheximide did not retard the increase in the activities of mitochondrial enzymes in detached cotyledons. It is inferred that the development of mitochondria in black gram cotyledons is brought about by repair or activation of mitochondria present in dry seeds and that the axis affects this repair process.     

Genetic and biochemical characterization of a Cat2 catalase null mutant of zea mays

Summary In all maize inbred lines examined to date, the Cat2 gene which codes for the CAT-2 catalase is expressed primarily in the scutellum upon seed imbibition. The activity of CAT-2 increases dramatically during the initial four days after germination and subsequently declines. In contrast, we have recently identified and inbred strain (A16) of maize which does not express the Cat2 gene (i.e., the CAT-2 catalase is undetectable). Electrophoretic and immunological analyses indicate that the CAT-2 protein is not present in either an active or inactive form in line A16. Genetic analysis suggests that the absence of CAT-2 expression in line A16 is due to a null allele at the Cat2 gene locus although the possibility of a mutation at a regulatory locus, closely linked to the structural gene has not been excluded. Two other enzymes involved in H₂O₂ metabolism (superoxide dismutase and peroxidase) were also compared in W64A and A16 with no significant differences being observed. Aminotriazole (AT), a known inhibitor of catalase, has been used to simulate the A16 phenomenon by inhibiting catalase activity in line W64A (which has normal expression of CAT-2). AT, in very low concentrations, effectively inhibits the expression of CAT-2 in the scutellum. This inhibition of catalase by AT does not result in changes of the developmental time-course of superoxide dismutase and peroxidase.Research supported by National Institutes of Health Grant No. GM 22733-05 to J.G.S.Paper No. 6601 of the Journal Series of the North Carolina Agricultural Research Service, Raleigh, NC     

Non-Coordinate Genetic Alterations in the Expression of Catalase and other Glyoxysomal Enzymes during Maize Development

In the scutellum of maize during post-germinative development,the primary form of catalase expressed is the product of theCat2 structural gene, CAT-2. The developmental time-course ofCAT-2 protein follows a rapid increase with a peak at approximately4–5 d alter germination and a subsequent decline. An inbredstrain of maize, A337, has been found to exhibit a similar generalizedprofile with the significant exception that the level of CAT-2protein present in the scutellum is far above that in the ‘typical’maize lines exemplified by W64A. Our data suggest that the higherlevels of CAT-2 exhibited in A337 are due to increased synthesisand accumulation of more CAT-2 protein, and not merely to enzymeactivation. A comparison of A337 and W64A showed that the twolines are similar with respect to number of glyoxysomes andwith the exception of catalase, other microbody associated enzymesexhibit similar activity levels and developmental profiles.Thus, the results presented suggest that the catalasc developmentalprogramme characteristic of line A337 is not due to a concurrentincrease and subsequent decline in the number of glyoxysomesformed in the scutellum during this developmental period butis instead due to a greater level of CAT-2 protein. The datafurther support our earlier findings that the genes coding forglyoxysomal enzymes in maize are non-coordinately regulated. Key words: Gene regulation, glyoxysomes, catalase, glyoxysomal enzymes     

A proteomic approach towards the identification of the matrix protein content of the two types of microbodies in Neurospora crassa

Microbodies (peroxisomes) comprise a class of organelles with a similar biogenesis but remarkable biochemical heterogeneity. Here, we purified the two distinct microbody family members of filamentous fungi, glyoxysomes and Woronin bodies, from Neurospora crassa and analyzed their protein content by HPLC/ESI‐MS/MS. In the purified Woronin bodies, we unambiguously identified only hexagonal 1 (HEX1), suggesting that the matrix is probably exclusively filled with the HEX1 hexagonal crystal. The proteomic analysis of highly purified glyoxysomes allowed the identification of 191 proteins. Among them were 16 proteins with a peroxisomal targeting signal type 1 (PTS1) and three with a PTS2. The collection also contained the previously described N. crassa glyoxysomal matrix proteins FOX2 and ICL1 that lack a typical PTS. Three PTS1 proteins were identified that likely represent the long sought glyoxysomal acyl‐CoA dehydrogenases of filamentous fungi. Two of them were demonstrated by subcellular localization studies to be indeed glyoxysomal. Furthermore, two PTS proteins were identified that are suggested to be involved in the detoxification of nitroalkanes. Since the glyoxysomal localization was experimentally demonstrated for one of these enzymes, a new biochemical reaction is expected to be associated with microbody function.     

Biogenesis of Mitochondria in Imbibed Peanut Cotyledons: Influence of the Axis

Development of mitochondrial activities (state 3 respiration,respiratory control ratio, ADP/O ratio) in peanut cotyledonsoccurs over the first 5 d from the start of imbibition. Mitochondriain cotyledons with the axis attached develop better than inthose from which the axis has been removed. Initially, mitochondriaare deficient in cytochrome c, but after 2 d from the startof imbibition this deficiency is overcome. Mitochondrial developmentin attached cotyledons, as measured by state 3 respiration,respiratory control ratio, ADP/O ratio, and succinate dehydrogenaseand cytochrome oxidase activities, is severely impaired by cycloheximide.This indicates that de novo synthesis of proteins is necessaryfor mitochondria and their enzymes to develop, a situation whichis in sharp contrast to the situation in pea cotyledons. Electronmicroscope studies also show that there is an increase in thenumbers of mitochondria in peanut cotyledons with time afterthe start of imbibition. Two patterns of mitochondrial developmentexist in legumes: in imbibed peanut cotyledons respiratory activitiesincrease due to biogenesis of mitochondria, whereas in pea cotyledonsthe increases are due to improvement of pre-existing organelles     

Retroviral infection and expression of cationic amino acid transporters in rodent hepatocytes.

The susceptibility of rodent hepatocytes to infection by mouse type C retroviruses was examined in vivo and in vitro and compared with the expression of two membrane proteins that function as transporters for the cationic amino acids CAT-1 and CAT-2. CAT-1 expression in rodents determines susceptibility to ecotropic retrovirus infection by serving as the virus receptor. Recently, it has been suggested that CAT-2 may be a receptor for amphotropic murine leukemia virus. In the present study, CAT-1 expression was observed in Hepa1, a cell line derived from a murine hepatoma, and in rat hepatocytes propagated on collagen monolayers in vitro but not in intact or regenerating rat liver in vivo. The expression of CAT-1 correlated with susceptibility to infection by an ecotropic retrovirus encoding beta-galactosidase. CAT-2 expression was observed in hepatocytes in vitro and in vivo, consistent with reports of infection of regenerating and cultured hepatocytes by amphotropic retroviruses. However, introduction of murine CAT-2 into nonpermissive Chinese hamster cells was not sufficient to confer susceptibility to amphotropic retrovirus infection, using a protocol that could easily demonstrate CAT-1-dependent infection by an ecotropic virus. Our data establish CAT-1 as a major determinant of ecotropic retrovirus infection in rodent hepatocytes and suggest that CAT-2 is not a receptor for viruses in the amphotropic subgroup.     

Regulation of Glyoxysomal Enzyme Expression in Maize

The activity levels of three glyoxysomal enzymes (catalase, isocitric lyase, and malate synthase) were measured in the scutellum following germination of the inbred lines W64A, R6-67, and A16. In W64A, as in most maize lines examined, germination was accompanied by a rapid and synchronous increase in the activities of all three enzymes, and reached a peak at about day 4 and declined thereafter. In R6-67, catalase activity continues to increase past day 4 and reaches its highest activity level on later days. In A16, catalase activity is very low due to the lack of expression of the Cat2 gene. Despite these significant differences in catalase expression, the levels of the other two glyoxysomal enzymes did not differ in these inbred lines. Artificial inhibition of catalase in W64A by exogenous application of 10^–4 M aminotriazole did not inhibit germination, nor did it alter the levels of the other two glyoxysomal enzymes. Similarly, application of 10^–4 M itaconate to W64A seeds inhibited the appearance of isocitric lyase, but did not inhibit germination or alter the levels of malate synthase or catalase. Comparative cell fractionation and immunological studies were conducted with W64A and A16 and their microbodies were observed under the electron microscope. Cell fractionation studies were also conducted with W64A seeds germinated in the presence of aminotriazole or itaconate. Thus, our results suggest that the expression of these three glyoxysomal enzymes is not regulated coordinately in the maize scutellum.     

Expression profiling of the solute carrier gene family in chicken intestine from the late embryonic to early post-hatch stages

Intestinal development during late embryogenesis and early post-hatch has a long-term influence on digestive and absorptive capacity in chickens. The objective of this research was to obtain a global view of intestinal solute carrier (SLC) gene family member expression from late embryogenesis until 2 weeks post-hatch with a focus on SLC genes involved in uptake of sugars and amino acids. Small intestine samples from male chicks were collected on embryonic days 18 (E18) and 20 (E20), day of hatch and days 1, 3, 7 and 14 post-hatch. The expression profiles of 162 SLC genes belonging to 41 SLC families were determined using Affymetrix chicken genome microarrays. The majority of SLC genes showed little or no difference in level of expression during E18–D14. A number of well-known intestinal transporters were upregulated between E18 and D14 including the amino acid transporters rBAT , y ⁺ LAT-2 and EAAT3 , the peptide transporter PepT1 and the sugar transporters SGLT1 , GLUT2 and GLUT5 . The amino acid transporters CAT-1 and CAT-2 were downregulated. In addition, several glucose and amino acid transporters that are novel to our understanding of nutrient absorption in the chicken intestine were discovered through the arrays ( SGLT6 , SNAT1 , SNAT2 and AST ). These results represent a comprehensive characterization of the expression profiles of the SLC family of genes at different stages of development in the chicken intestine and lay the ground work for future nutritional studies.     

Arginase-1 overexpression induces cationic amino acid transporter-1 in psoriasis

Regulated uptake of extracellular l-arginine by cationic amino acid transporters (CATs) is required for inducible nitric oxide synthase and arginase activity. Both enzymes were recently recognized as important in the pathophysiology of psoriasis because of their contribution to epidermal hyperproliferation. We here characterize the expression pattern of CATs in psoriatic skin compared to healthy skin. CAT-1 mRNA expression was strongly upregulated in lesional and nonlesional areas of psoriatic skin compared to healthy skin, whereas expression of CAT-2A and the inducible isoform CAT-2B was unaltered in psoriatic skin. Furthermore, we tested the hypothesis that arginase-1 overexpression regulates CAT expression via intracellular l-arginine concentration. In in vitro experiments with arginase-1 overexpressing HaCaT cells, CAT-1 mRNA expression was increased. Likewise, this occurs in l-arginine-starved HaCaT cells. Both CAT-2 isoforms were not affected. Arginase-1 overexpression limits the synthesis of NO at physiological, but not supraphysiological, l-arginine levels. Plasma l-arginine concentration was diminished in psoriasis patients and the arginase product l-ornithine was significantly increased compared to healthy controls. In summary, arginase-1 overexpression leads to upregulated CAT-1 expression in psoriatic skin, which is due to lowered intracellular l-arginine levels and limits NO synthesis at physiological l-arginine concentrations.     

Human cationic amino acid transporter hCAT-3 is preferentially expressed in peripheral tissues

At least five distinct carrier proteins form the family of mammalian cationic amino acid transporters (CATs). We have cloned a cDNA containing the complete coding region of human CAT-3. hCAT-3 is glycosylated and localized to the plasma membrane. Transport studies in Xenopus laevis oocytes revealed that hCAT-3 is selective for cationic L-amino acids and exhibits a maximal transport activity similar to other CAT proteins. The apparent substrate affinity and sensitivity to trans-stimulation of hCAT-3 resembles most closely hCAT-2B. This is in contrast to rat and murine CAT-3 proteins that have been reported to display a very low activity and to be inhibited by neutral and anionic L-amino acids as well as D-arginine (Hosokawa, H., et al. (1997) J. Biol. Chem. 272, 8717-8722; Ito, K., and Groudine, M. (1997) J. Biol. Chem. 272, 26780-26786). Also, in adult rat and mouse, CAT-3 has been found exclusively in central neurons. Human CAT-3 expression is not restricted to the brain, in fact, by far the highest expression was found in thymus. Also in other peripheral tissues, hCAT-3 expression was equal to or higher than in most brain regions, suggesting that hCAT-3 is not a neuron-specific transporter.     

Effect of embryonic axis removal and exogenous calcium on carboxypeptidase I of mung bean seedling cotyledons

Removal of the embryonic axis prevents the normal decline of carboxypeptidase (Cpase) I in mung bean seedling cotyledons. Cpase I activity and protein, the latter manifested on western blots, almost completely disappear about 24 h before the cotyledon abscises. Of the 3 proteolytic enzyme patterns, only that of Cpase I can be restored by an exogenous supply of 10 m M CaCl₂ in the agar growth medium. The calcium effect is dependent on [CaCl₂] and is not manifested in the presence of chelators and calcium channel blockers. For detached cotyledons to show the normal low level of Cpase I by the eighth day of growth, calcium had to be supplied during seed imbibition and throughout the entire time from removal of the axis. The difference between detached cotyledons in the absence and presence of calcium was greatest when the cotyledons were detached 4–6 days after seed imbibition. Loss of Cpase I activity and protein can be demonstrated in vitro, with the maximum level of Cpase I-degrading activity measured 4 days after seed imbibition under the same growth conditions used to study the calcium effect. It is sensitive to pepstatin and has a pH optimum of 3, suggesting that this Cpase I-degrading activity is due to an aspartic protease.     

No influence of the embryonic axis on the development of diamine oxidase in pea cotyledons

A reexamination has been made for the supposed regulation of pea (Pisum sativum cv Alaska) cotyledonary diamine oxidase (EC 1.4.3.6) activity by the embryonic axis. When dry cotyledons from which the embryo and testa have been removed surgically are imbibed by soaking in water, there is little increase of the enzyme activity during subsequent incubation on filter paper. However, if the dry cotyledons are imbibed and maintained on filter paper from the first, the increase of the enzyme activity is similar to that in the intact seedling. Thus, rapid imbibition of the isolated dry cotyledons is responsible for repression of enzyme development, and a role for the axis need not be invoked.