Calpains mediate epithelial-cell death during mammary gland involution: mitochondria and lysosomal destabilization

Our aim was to elucidate the physiological role of calpains (CAPN) in mammary gland involution. Both CAPN-1 and -2 were induced after weaning and its activity increased in isolated mitochondria and lysosomes. CAPN activation within the mitochondria could trigger the release of cytochrome c and other pro-apoptotic factors, whereas in lysosomes it might be essential for tissue remodeling by releasing cathepsins into the cytosol. Immunohistochemical analysis localized CAPNs mainly at the luminal side of alveoli. During weaning, CAPNs translocate to the lysosomes processing membrane proteins. To identify these substrates, lysosomal fractions were treated with recombinant CAPN and cleaved products were identified by 2D-DIGE. The subunit b(2) of the v-type H(+) ATPase is proteolyzed and so is the lysosomal-associated membrane protein 2a (LAMP2a). Both proteins are also cleaved in vivo. Furthermore, LAMP2a cleavage was confirmed in vitro by addition of CAPNs to isolated lysosomes and several CAPN inhibitors prevented it. Finally, in vivo inhibition of CAPN1 in 72-h-weaned mice decreased LAMP2a cleavage. Indeed, calpeptin-treated mice showed a substantial delay in tissue remodeling and involution of the mammary gland. These results suggest that CAPNs are responsible for mitochondrial and lysosomal membrane permeabilization, supporting the idea that lysosomal-mediated cell death is a new hallmark of mammary gland involution.

Retinoids induce MMP-9 expression through RARalpha during mammary gland remodeling

Retinoic acid (RA) is a signaling molecule in the morphogenesis of the mammary gland, modulating the expression of matrix metalloproteinases (MMPs). The aim of this paper was to study the role of RA during weaning, which consists of three events: apoptosis of the secretory cells, degradation of the extracellular matrix, and adipogenesis. CRABP II and CRBP-1 carrier proteins increased significantly during weaning compared with lactating glands but reverted to control values after the litter resuckled. The effects of RA are mediated by the nuclear receptors RARalpha, RARbeta, RARgamma, and RXRalpha, which underwent an increase in protein levels during weaning. In an attempt to elucidate the RARalpha-dependent signaling pathway, ChIP assays were performed. The results showed the binding of RARalpha to the MMP-9 promoter after 24- and 72-h weaning together with its coactivator p300; this fact could be responsible for the increase found in MMP-9 mRNA and protein levels in these conditions. Expression of related MMPs (MMP-2 and MMP-3) was also increased during weaning. Using gelatine zymography, we observed a time-dependent increase in active forms of MMP-9 and MMP-2. On the other hand, the inhibitor of MMPs, TIMP-1, was almost undetectable at 24- and 72-h weaning by Western blot. The role of retinoids in matrix remodeling is reinforced by the fact that administration of an acute dose of retinol palmitate to control lactating rats also induces MMP-9 expression. This emphasizes the importance of retinoids in vivo to regulate mammary gland involution.

Role of GSH in the modulation of NOS-2 expression in the weaned mammary gland

GSH delivery to the lactating mammary gland is essential for the maintenance of lactation as its decrease leads to apoptosis and involution of the mammary gland. In fact, it has already been demonstrated that some of the changes in gene expression found in the lactating mammary gland after forced weaning are reproduced in rats treated with buthionine sulphoximine to deplete GSH levels. An oligonucleotide microarray experiment would give us a better knowledge of the mRNA expression patterns during lactation and after weaning and the possible functions of GSH in the modulation of these events.

Na+ dependent glutamate transporters (EAAT1, EAAT2, and EAAT3) in primary astrocyte cultures: effect of oxidative stress

The Na+ -dependent L-glutamate transporters EAAT1(GLAST), EAAT2 (GLT-1) and EAAT3 (EAAC1) are expressed in primary astrocyte cultures, showing that the EAAT3 transporter is not neuron-specific. The presence of these three transporters was evaluated by RT-PCR, immunoblotting, immunocytochemical techniques, and transport activity. When primary astrocyte cultures were incubated with L-buthionine-(S,R)-sulfoximine (BSO), a selective inhibitor of gamma-glutamylcysteine synthetase, the GSH concentration was significantly lower than in control cultures, but the expression and amount of protein of EAAT1, EAAT2 and EAAT3 and transport of L-glutamate was unchanged. Oxidative stress was created by adding H(2)O(2) or tert.-butyl hydroperoxide (t-bOOH) to the primary astrocyte cultures and cell damage was evaluated by measuring activity of lactate dehydrogenase. Under oxidative stress, GSH levels were significantly lower than in control astrocytes; but the expression and the amount of protein of the three transporters remained unchanged. However, L-glutamate uptake was significantly lower in astrocytes under oxidative conditions when compared to controls. L-Glutamate uptake was not changed in the presence of ascorbate, but was partially recovered in the presence of DTT and GSH ethyl ester. This report emphasizes that oxidative stress and not GSH depletion alters transporter activity without changing transporter expression.

A proposal for nomenclature of aldehyde dehydrogenases in Saccharomyces cerevisiae and characterization of the stress-inducible ALD2 and ALD3 genes

The complete sequencing of the genome of Saccharomyces cerevisiae indicated that this organism contains five genes encoding aldehyde dehydrogenases. YOR374w and YER073w correspond to the mitochondrial isoforms and we propose as gene names ALD4 and ALD5, respectively. YPL061w has been described as the cytoplasmic constitutive isoform and named ALD6. We characterize here the tandem-repeated ORFs YMR170c and YMR169c as the cytoplasmic stress-inducible isoforms, with gene names ALD2 and ALD3, respectively. The expression of ALD2 and ALD3 is dependent on the general-stress transcription factors Msn2,4 but independent of the HOG MAP kinase pathway. ALD3 is induced by a variety of stresses, including osmotic shock, heat shock, glucose exhaustion, oxidative stress and drugs. ALD2 is only induced by osmotic stress and glucose exhaustion. A double null mutant, ald2 ald3, exhibited unchanged sensitivity to any of the above stresses. The only phenotype detected in this mutant was a reduced growth rate in ethanol medium as compared to the wild type.

Elevated expression of liver gamma-cystathionase is required for the maintenance of lactation in rats

Liver gamma-cystathionase activity increases in rats during lactation; its inhibition due to propargylglycine is followed by a significant decrease in lactation. This is reversible by N-acetylcysteine administration. To study the role of liver gamma-cystathionase and the intertissue flux of glutathione during lactation, we used lactating and virgin rats fed liquid diets. Virgin rats were divided into two groups as follows: one group was fed daily a diet containing the same amount of protein that was consumed the previous day by lactating rats (high protein diet-fed rats); the other virgin group was fed the normal liquid diet (control). The expression and activity of liver gamma-cystathionase were significantly greater in lactating rats and in high protein diet-fed virgin rats compared with control rats. The total glutathione [reduced glutathione (GSH) + oxidized glutathione (GSSG)] released per gram of liver did not differ in lactating rats or in high protein diet-fed rats, but it was significantly higher in these two groups than in control virgin rats. Liver size and the GSH + GSSG released by total liver were significantly higher in lactating rats than in high protein diet-fed virgin rats, and this difference was similar to the amount of glutathione taken up by the mammary gland (454.2 +/- 36.0 nmol/min). The uptake of total glutathione by the lactating mammary gland was much higher than the uptakes of free L-cysteine and L-cystine, which were negligible. These data suggest that the intertissue flux of glutathione is an important mechanism of L-cysteine delivery to the lactating mammary gland, which lacks gamma-cystathionase activity. This emphasizes the physiologic importance of the increased expression and activity of liver gamma-cystathionase during lactation.

The L-glutamate transporters GLAST (EAAT1) and GLT-1 (EAAT2): expression and regulation in rat lactating mammary gland

The Na(+)-dependent L-glutamate transporters GLAST (EAAT1) and GLT-1 (EAAT2), were expressed in rat lactating mammary gland, but EAAC1 (EAAT3) was not. GLT-1 expression in rat lactating mammary gland was constant in all the physiological situations studied; however, the GLAST expression is under tight regulation. Fasting for 24 h decreased the GLAST expression which returned to control values after refeeding. Weaning for 24 h produced a decrease in GLAST expression through a mechanism independent of prolactin deficiency. Resuckling for 6 h returned the expression of this transporter to control values. There is a correlation between the levels of GLAST (mRNA and protein) and the in vivo uptake of L-glutamate by the lactating mammary gland during the starvation/refeeding cycle and milk accumulation process.

A genomic locus in Saccharomyces cerevisiae with four genes up-regulated by osmotic stress

A locust within chromosome XIII of Saccharomyces cerevisiae containing four genes upregulated by osmotic stress has been characterized. Two of the genes, but not their osmotic induction, were already described: the DNA damage-inducible gene DDR48 and the protease inhibitor gene PAI3. The two novel genes encode a cytoplasmic aldehyde dehydrogenase (ALD2) and a peptide of unknown function (SIP18). These genes form a cluster of two pairs of divergent promoters regulated by osmotic stress. The regulation of the divergent ALD2 and DDR48 genes, however, occurs by different mechanisms. ALD2 exhibits maximum induction with 0.3 M NaCl, negative regulation by protein kinase A and dependence on PBS2 and HOG1 protein kinases for osmotic induction. DDR48 requires 1 M NaCl for maximum induction and its expression in independent of PBS2 and HOG1 protein kinases and less sensitive to protein kinase A. PAI3 and SIP18 are as dependent on the above protein kinases as ALD2. Deletion analysis indicates that most of the regulation of the ALD2 promoter is mediated by a negative element counteracted by osmotic stress.

Termination of transcription in an 'in vitro' system is dependent on a polyadenylation sequence

Using HeLa cell nuclear extract as a source of the different transcription and polyadenylation factors and reverse transcription to analyze the levels of RNA 5' and 3' to the cleavage-polyadenylation site, an in vitro assay has been established to study polyadenylation coupled to transcription directed by different adenovirus promoters. The levels of transcription 5' and 3' to the cleavage site in the L3 polyadenylation region are practically the same as described previously, however, the level of transcription 3' to the cleavage site in the SV40 early polyadenylation region decreases immediately after the cleavage site indicating a termination of the transcription.

TPA can overcome the requirement for EIa and together act synergistically in stimulating expression of the adenovirus EIII promoter

We have examined the control of gene expression from the adenovirus early region III (Ad-EIII) promoter, which contains two previously defined elements, the AP1 and ATF sites. We found that the AP1 element is capable of mediating activation by the adenovirus immediate early (EIa) gene products. Consistent with studies demonstrating that the AP1 site mediates signal transduction in response to 12-O-tetradecanoylphorbol 13-acetate (TPA) we have shown that TPA can activate Ad-EIII expression and overcome the requirement for EIa. Together TPA and EIa elicited a synergistic response in expression from the Ad-EIII promoter during both transient expression assays and viral infections. This synergistic effect required the AP1 element. An EIII promoter construct, in which sequences upstream of the TATA box had been replaced with four AP1 sites, was responsive to TPA and EIa and in combination promoted the synergistic effect. The analysis of specific factors involved in transcription from the Ad-EIII indicated that proteins recognizing the ATF and AP1 sites were important in expression from this promoter in vitro. Purification of protein factors that specifically stimulated EIII expression resulted in the isolation of a set of factors of the AP1 family. Affinity purified AP1 recognized and activated transcription through both the AP1 and ATF elements. In addition, a protein fraction was identified with DNA binding activity specific for the ATF element. This fraction was dependent on the ATF site for transcriptional activity.

In vitro transport of ornithine carbamoyltransferase precursor into rat liver mitochondria using a more homologous medium

The precursor of ornithine carbamoyltransferase can be transported in vitro into rat liver mitochondria using the postmitochondrial supernatant from rat liver, a more homologous medium than the commonly used rabbit reticulocyte lysate. The transport of the precursor in the case of reticulocyte lysate requires a standard translation mixture. In the presence of the postmitochondrial supernatant the same is true. However, when the components of the translation mixture were added individually to the postmitochondrial supernatant, it was found that spermidine or spermine, at physiological concentrations, sufficed for the transport of the precursor of ornithine carbamoyltransferase. The activity of the postmitochondrial supernatant was inactivated by trypsin and slightly decreased by RNase treatment; it was not lost by dialysis or by heating at 100 degrees C.

The adenovirus inverted terminal repeat functions as an enhancer in a cell-free system

Two binding sites for EivF, a factor involved in transcription from the adenovirus early promoter iv (Eiv), were mapped within the adenovirus inverted terminal repeats (ITR). Consistent with the observation that EivF was required to initiate transcription from the Eiv promoter and with the demonstration that two EivF binding sites were present in the ITR, we show that the inverted terminal repeat region was able to promote transcription from the CAP site of the Eiv promoter in vitro and in an EIa-dependent fashion in vivo. The minimum sequence within the ITR capable of directing EIa-dependent transcription consists of forty nine nucleotides comprising two EivF binding sites and at least one Sp1 binding site. This 49-base pair fragment possesses the characteristics of an enhancer which is induced by EIa. The enhancer is active in HeLa cell nuclear extracts. Transcription directed by the ITR required EivF and the general transcription factors. The addition of purified Sp1 factor specifically stimulated transcription which correlates with the presence of Sp1 binding sites between the two EivF recognition sites.

Polyamines are sufficient to drive the transport of the precursor of ornithine carbamoyltransferase into rat liver mitochondria: possible effect on mitochondrial membranes

The polyamines spermidine, spermine and putrescine, by themselves, at physiological concentrations, induce the transport of the precursor of ornithine carbamoyltransferase into isolated rat liver mitochondria. The presence of polyamines in the transport medium results in the approach of both mitochondrial membranes, suggesting a possible role of these molecules in the transport of the precursor of ornithine carbamoyltransferase into mitochondria, by the formation and/or stabilization of mitochondrial structures involved in the transport system.

Loading rat liver mitochondria with apocytochrome c provokes exit of cytochrome c

Rat liver mitochondria were loaded with cytochrome c by incubation with large amounts of [14C]apocytochrome c. After being washed they were incubated with either more apocytochrome c or cytochrome c. There was no release of labeled proteins from the mitochondria when incubated with cytochrome c. However, there was when incubated with apocytochrome c. The material released showed only one radioactive band which migrated as cytochrome c. Also no release of proteins other than cytochrome c was detected when liver mitochondria isolated from rats injected with [35S]methionine were incubated with apocytochrome c. These results suggest that the level and possibly the turnover of cytochrome c in rat liver mitochondria is regulated by the entry of apocytochrome c into mitochondria.

Spermidine and spermine stimulate the transport of the precursor of ornithine carbamoyltransferase into rat liver mitochondria

We have examined the effect of low molecular weight components of the transport mixture generally used for the import of rat liver pre-ornithine carbamoyltransferase by isolated rat liver mitochondria. These studies revealed that spermidine and spermine, at physiological concentrations, stimulate the transport of the precursor of ornithine carbamoyltransferase into mitochondria. This stimulatory effect of spermidine and spermine is concentration-dependent and is completely inhibited at higher than physiological concentrations (20 mM for spermidine and 4 mM for spermine). Magnesium ions, which also have a stimulatory effect, inhibit the stimulatory effect of spermidine.

Apocytochrome-c competes with pre-ornithine carbamoyl transferase for transport into mitochondria

Apocytochrome c, the cytosolic precursor of cytochrome c, competes with the precursor of ornithine carbamoyltransferase (OCT) for entry into isolated rat liver mitochondria.

An ammonium sulphate fraction from rabbit reticulocytes increases the release of proteins from rat liver mitochondria

Incubation of [35S]methionine labeled mitochondria from rat liver with rabbit reticulocyte lysate under the same conditions as those used in the import of mitochondrial protein precursors results in the release of mitochondrial proteins to the medium. Fractionation of the lysates with ammonium sulphate yields a fraction, essentially free of haemoglobin, which exhibits higher activity for the release of mitochondrial proteins than the starting lysate. The fraction has a molecular mass of greater than 10 kDa and is heat-sensitive. The release is insensitive to inhibitors of reticulocyte lipoxygenase.

Synthesis and transport of the precursor for the beta-subunit of rat liver F1-ATPase

The synthesis and intracellular transport of the beta-subunit of rat liver F1-ATPase was studied in a cell-free system, using free polysomal mRNA from rat liver and isolated rat hepatocytes. The beta-subunit of rat liver F1-ATPase is synthesized as a larger precursor form in rabbit reticulocyte lysate and then transported into isolated mitochondria in the absence of protein synthesis. In pulse experiments at 37 degrees C, the precursor of the beta-subunit reached a plateau 30 min after the pulse. The labeled mature beta-subunit appeared in the particulate fraction (containing mitochondria) after a time lag and increased almost linearly with time up to 40 min.