Attenuation of transcriptional and signaling responses limits viability of ρ(0)Saccharomyces cerevisiae during periods of glucose deprivation.

BACKGROUND: The maintenance of viability during periods when a glycolytic carbon source is limited (or absent) is a major obstacle for cells whose mitochondrial DNA (mtDNA) has been damaged or lost. METHODS: We utilized genome wide transcriptional profiling and in gel mobility analyses to examine the transcriptional response and characterize defects in the phosphorylation dependent signaling events that occur during acute glucose starvation in ρ(0) cells that lack mtDNA. Genetic and pharmacological interventions were employed to clarify the contribution of nutrient responsive kinases to regulation of the transcription factors that displayed abnormal phosphoregulation in ρ(0) cells. RESULTS: The transcriptional response to glucose deprivation is dampened but not blocked in ρ(0) cells. Genes regulated by the transcription factors Mig1, Msn2, Gat1, and Ume6 were noticeably affected and phosphorylation of these factors in response to nutrient depletion is abnormal in ρ(0) cells. Regulation of the nutrient responsive kinases PKA and Snf1 remains normal in ρ(0) cells. The phosphorylation defect results from ATP depletion and loss of the activity of kinases including GSK3ß, Rim15, and Yak1. Interventions which rescue phosphoregulation of transcription factors bolster maintenance of viability in ρ(0) cells during subsequent glucose deprivation. CONCLUSIONS: A subset of nutrient responsive kinases is especially sensitive to ATP levels and their misregulation may underlie regulatory defects presented by ρ(0) cells. GENERAL SIGNIFICANCE: Abnormal regulation of mitochondrial function is implicated in numerous human disorders. This work illustrates that some signaling pathways are more sensitive than others to metabolic defects caused by mitochondrial dysfunction.

High-Performance Chemical Isotope Labeling Liquid Chromatography-Mass Spectrometry for Profiling the Metabolomic Reprogramming Elicited by Ammonium Limitation in Yeast.

Information about how yeast metabolism is rewired in response to internal and external cues can inform the development of metabolic engineering strategies for food, fuel, and chemical production in this organism. We report a new metabolomics workflow for the characterization of such metabolic rewiring. The workflow combines efficient cell lysis without using chemicals that may interfere with downstream sample analysis and differential chemical isotope labeling liquid chromatography mass spectrometry (CIL LC-MS) for in-depth yeast metabolome profiling. Using (12)C- and (13)C-dansylation (Dns) labeling to analyze the amine/phenol submetabolome, we detected and quantified a total of 5719 peak pairs or metabolites. Among them, 120 metabolites were positively identified using a library of 275 Dns-metabolite standards, and 2980 metabolites were putatively identified based on accurate mass matches to metabolome databases. We also applied (12)C- and (13)C-dimethylaminophenacyl (DmPA) labeling to profile the carboxylic acid submetabolome and detected over 2286 peak pairs, from which 33 metabolites were positively identified using a library of 188 DmPA-metabolite standards, and 1595 metabolites were putatively identified. Using this workflow for metabolomic profiling of cells challenged by ammonium limitation revealed unexpected links between ammonium assimilation and pantothenate accumulation that might be amenable to engineering for better acetyl-CoA production in yeast. We anticipate that efforts to improve other schemes of metabolic engineering will benefit from application of this workflow to multiple cell types.

A glycolytic burst drives glucose induction of global histone acetylation by picNuA4 and SAGA.

Little is known about what enzyme complexes or mechanisms control global lysine acetylation in the amino-terminal tails of the histones. Here, we show that glucose induces overall acetylation of H3 K9, 18, 27 and H4 K5, 8, 12 in quiescent yeast cells mainly by stimulating two KATs, Gcn5 and Esa1. Genetic and pharmacological perturbation of carbon metabolism, combined with (1)H-NMR metabolic profiling, revealed that glucose induction of KAT activity directly depends on increased glucose catabolism. Glucose-inducible Esa1 and Gcn5 activities predominantly reside in the picNuA4 and SAGA complexes, respectively, and act on chromatin by an untargeted mechanism. We conclude that direct metabolic regulation of globally acting KATs can be a potent driving force for reconfiguration of overall histone acetylation in response to a physiological cue.

New mammary epithelial and fibroblastic cell clones in coculture form structures competent to differentiate functionally.

We have established and characterized a spontaneously immortalized, nontumorigenic mouse mammary cell line, designated IM-2. IM-2 cells synthesize large amounts of the milk protein beta-casein upon addition of lactogenic hormones. The induction of beta-casein occurs rapidly and does not require any exogenous extracellular matrix components. The IM-2 cell line is morphologically heterogeneous and could be separated into cell clones with epithelial and fibroblastic characteristics. In monoculture, none of the epithelial clones could be induced to synthesize caseins. Coculture of epithelial and fibroblastic clones, however, rendered the epithelial cells competent to differentiate functionally; the addition of lactogenic hormones to these cocultures resulted in the synthesis of beta-casein in amounts comparable to that seen with the original IM-2 line. Using this unique cell system, we have investigated the interrelationships between different steps in differentiation leading to hormone-induced casein production. Independent of hormones, epithelial-fibroblastic cell contacts led to the formation of characteristic structures showing the deposition of laminin. We found that the epithelial cells located in these structures also exhibited significantly increased levels of cytokeratin intermediate filament polypeptides. Double immunofluorescence revealed that the cells inducible by hormones to synthesize casein, colocalized exactly with the areas of laminin deposition and with the cells showing greatly intensified cytokeratin expression. These results suggest that hormone-independent differentiation events take place in response to intercellular epithelial-mesenchymal contacts. These events in turn bring about a state of competence for functional differentiation after lactogenic hormonal stimulation.

Loss of epithelial differentiation and gain of invasiveness correlates with tyrosine phosphorylation of the E-cadherin/beta-catenin complex in cells transformed with a temperature-sensitive v-SRC gene.

Loss of histotypic organization of epithelial cells is a common feature in normal development as well as in the invasion of carcinomas. Here we show that the v-src oncogene is a potent effector of epithelial differentiation and invasiveness. MDCK epithelial cells transformed with a temperature-sensitive mutant of v-src exhibit a strictly epithelial phenotype at the nonpermissive temperature for pp60v-src activity (40.5 degrees C) but rapidly loose cell-to-cell contacts and acquire a fibroblast-like morphology after culture at the permissive temperature (35 degrees C). Furthermore, the invasiveness of the cells into collagen gels or into chick heart fragments was increased at the permissive temperature. The profound effects of v-src on intercellular adhesion were not linked to changes in the levels of expression of the epithelial cell adhesion molecule E-cadherin. Rather, we observed an increase in tyrosine phosphorylation of E-cadherin and, in particular, of the associated protein beta-catenin. These results suggest a mechanism by which v-src counteracts junctional assembly and thereby promotes invasiveness and dedifferentiation of epithelial cells through phosphorylation of the E-cadherin/catenin complex.

Expression of secreted frizzled-related protein 4 in the primate placenta.

Secreted frizzled-related protein 4 (sFRP4) blocks the Wnt signalling pathway by competitively binding Wnt ligands (frizzled receptors). This pathway is important during development and oncogenesis. It is, however, complex with a large number of interacting proteins, isoforms and receptors. The Wnt signalling pathway has a role in human placental development and implantation, particularly in the trophoblast. Humans and macaque monkeys exhibit a similar remodelling of the decidual spiral arteries. The expression of sFRP4 in human and macaque placentas at different gestational ages have been examined with immunohistochemistry, in-situ hybridization, real-time polymerase chain reaction, and western blotting. This study demonstrates that sFRP4 is expressed predominantly in the villous syncytiotrophoblast and the invasive intermediate cytotrophoblast, and in the amnion. These observational studies suggest that sFRP4 has a role in placental development and implantation, and may be an important factor in the development of the decidual fibrinoid zone, and in trophoblast apoptosis and a band of apoptosis in the underlying decidua deep into the trophoblast.

Expression of secreted frizzled-related protein 4 (SFRP4) in primary serous ovarian tumours.

OBJECTIVE: Serous ovarian cancer is the most prevalent type of ovarian cancer. The majority of women present at an advanced stage and patient survival is poor. Resistance to chemotherapy is thought to relate to failure of tumours to undergo apoptosis. Secreted frizzled-related protein 4 (SFRP4) has been demonstrated to be involved in apoptosis in the ovary but not in ovarian tumours as yet. This study examined SFRP4 expression in ovarian cancers and correlated this with expression of beta-catenin, a main component of the wNT-signalling pathway it inhibits. METHODS: We examined 153 primary serous ovarian carcinomas for SFRP4 and B-catenin expression using immunohistochemistry on tissue microarrays and correlated this with clinical information. RESULTS: SFRP4 expression was inversely associated with beta-catenin expression in 84% of samples. However, high-level SFRP4 expression was not significantly associated with patient survival (p = 0.08). CONCLUSION: Elevated SFRP4 expression in serous ovarian tumours appears to correlate with reduced beta-catenin expression but long-term survival appears unaffected by this.

Solitary Fibrous Tumour: A Single Institution Retrospective Study and Further Validation of a Prognostic Risk Assessment System.

AIMS: Solitary fibrous tumour (SFT) is a rare mesenchymal-derived neoplasm that can arise in any anatomical location in the body. SFT rarely metastasises, but aggressive behaviour is seen in a minority of cases, and relapses can occur several years after treatment. It would be a clinical advantage if high-risk patients could be identified before treatment. MATERIALS AND METHODS: We retrospectively analysed a population-based cohort of SFT to describe treatment, outcome, prognostic factors and to further validate a previously published risk assessment tool (D-score) based on age, tumour size and mitotic index. Seventy-two patients diagnosed with SFT in the Central, North and Southern Denmark regions between 1979 and 2013 were included in the study. RESULTS: For patients with localised disease at the time of diagnosis (n = 64) the 5 and 10 year overall survival was 86% (95% confidence interval 74-92) and 65% (95% confidence interval 50-78), respectively. Seventeen of 62 patients (27%) who were in remission after radical treatment developed recurrence with either local or distant disease. The 5 year recurrence-free survival was 83% (95% confidence interval 70-90) and the 10 year was 69% (95% confidence interval 53-81). The 5 year local recurrence-free survival was 96% (95% confidence interval 86-99) and the 10 year was 92% (95% confidence interval 76-96). The median time to both overall recurrence and local recurrence was 4.3 years. Metastatic or inoperable SFT had a poor prognosis with a median overall survival of 8.4 months (range 3.6-26.4) and a 5 year overall survival of 11% (95% confidence interval 2-30). A further validation of a risk assessment tool (D-score) confirmed that patients classified as high-risk had a significantly decreased overall survival, with a hazard ratio of 3.7 (95% confidence interval 1.1-12.3). CONCLUSIONS: This study showed that our management and outcome were comparable with other published studies describing SFT and confirmed the value of the D-score as a risk assessment tool. Because of late recurrences, long-term (e.g. 10 years) follow-up for moderate- and high-risk patients is recommended.

Half-life of the Rous sarcoma virus transforming protein pp60src and its associated kinase activity.

The half-life of metabolically labeled pp60src of the Prague A strain of Rous sarcoma virus and of several transformation-defective, temperature-sensitive mutants was investigated by pulse-labeling infected cells with [35S]methionine, chasing for different times, and immunoprecipitating pp60src with tumor-bearing rabbit serum. These experiments showed that pp60src has a short half-life of approximately 60 min under normal physiological conditions and that the mutant pp60src proteins have similar half-lives to the wild type, irrespective of whether the cells are kept at the nonpermissive (42 degrees C) or permissive (35 degrees C) temperature. The half-life of the pp60src -associated kinase activity was determined by monitoring its decay by the immunoglobulin G heavy chain assay after the cells had been treated with several inhibitors of protein synthesis. In these experiments the kinase half-life was much longer than expected from the half-life of pp60src. The apparent contradiction between the half-lives of the kinase activity and the [35S]methionine-labeled pp60src protein could be resolved by the observation that treatment of cells with inhibitors of protein synthesis stabilized pp60src, resulting in a greatly extended half-life. Inhibitors of protein synthesis also extended the half-life of the gag precursor polypeptide, Pr76, suggesting that a host factor(s) may be required for the efficient intracellular processing of this polypeptide to the gag proteins.

Overexpression of Mos, Ras, Src, and Fos inhibits mouse mammary epithelial cell differentiation.

Mammary epithelial cells terminally differentiate in response to lactogenic hormones. We present evidence that oncoprotein overexpression is incompatible with this hormone-inducible differentiation and results in striking cellular morphological changes. In mammary epithelial cells in culture, lactogenic hormones (glucocorticoid and prolactin) activated a transfected beta-casein promoter and endogenous beta-casein gene expression. This response to lactogenic hormone treatment was paralleled by a decrease in cellular AP-1 DNA-binding activity. Expression of the mos, ras, or src (but not myc) oncogene blocked the activation of the beta-casein promoter induced by the lactogenic hormones and was associated with the maintenance of high levels of AP-1. Mos expression also increased c-fos and c-jun mRNA levels. Overexpression of Fos and Jun from transiently transfected constructs resulted in a functional inhibition of the glucocorticoid receptor in these mouse mammary epithelial cells. This finding clearly suggests that glucocorticoid receptor inhibition arising from oncogene expression will contribute to the block in hormonally induced mammary epithelial cell differentiation. Expression of Src resulted in the loss of the normal organization and morphological phenotype of mammary epithelial cells in the epithelial/fibroblastic line IM-2. Activation of a conditional c-fos/estrogen receptor gene encoding an estrogen-dependent Fos/estrogen receptor fusion protein also morphologically transformed mammary epithelial cells and inhibited initiation of mammary epithelial differentiation-associated expression of the beta-casein and WDNM 1 genes. In response to estrogen treatment, the cells displayed a high level of AP-1 DNA-binding activity. Our results demonstrate that high cellular AP-1 levels contribute to blocking the ability of mammary epithelial cells in culture to respond to lactogenic hormones. This and other studies indicate that the oncogene products Mos, Ras, and Src exert their effects, at least in part, by stimulating cellular Fos and probably cellular Jun activity.

Changes in phosphatidylinositol metabolism correlated to growth state of normal and Rous sarcoma virus-transformed Japanese quail cells.

Second-passage Japanese quail embryo cell cultures, normal or quantitatively transformed by Rous sarcoma virus, were investigated for phospholipid composition and metabolism. Cells cultivated at low and high population density as well as in the presence or absence of serum, have been compared by chemical analysis and in pulse-chase experiments. No differences in the lipid compositions between the normal and the tumor cells or between cells under different culture conditions were detected. In no case was the metabolism of phosphatidylserine or sphingomyelin affected by culture conditions. The metabolism of the choline and ethanolamine glycerophospholipids, however, differed according to culture conditions, whether cells were normal or transformed. Significantly, in normal cells, the breakdown of [32P]phosphate-labeled phosphatidylinositol was slowed when cell growth was restricted, i.e., at high population density or in medium without serum. This effect was not observed in tumor cells under such culture conditions, and cells were not growth inhibited. Hence, release of [32P]phosphate from phosphatidylinositol is the only parameter in the metabolism of phospholipids observed to correlate with growth.

Megakaryocytic differentiation of K562 cells is associated with changes in the cytoskeletal organization and the pattern of chromatographically distinct forms of phosphotyrosyl-specific protein phosphatases.

We have analyzed morphological and biochemical changes occurring during megakaryocytic differentiation of the human chronic myelogenous leukemia cell line K562 induced by phorbol 12-myristate 13-acetate (PMA). PMA-treated cells became growth arrested, were slightly larger and irregular in shape, adhered better to the culture flask surface, and expressed the glycoprotein IIIa on their surfaces. The morphological changes induced by PMA treatment were associated with the disappearance of actin from the cytosol and presumably reflect PMA-induced actin polymerization. Megakaryocytic differentiation was accompanied by about a 3-fold decrease in the specific phosphotyrosine protein phosphatase (PTPase) activity in the particulate membrane fraction, whereas the activity in the soluble cytosol fraction increased about 3-fold. The decrease of PTPase activity in the particulate membrane fraction could be attributed to the disappearance of at least 1 distinct PTPase form displaying an apparent native Mr of 200,000 and a reduction in activity of a Mr 43,000 PTPase found associated with membranes of all cells examined to date. The increase of PTPase activity in the cytosol fraction manifested itself by the appearance of a new Mr 40,000 PTPase and a reduction of a Mr 60,000 PTPase. These results suggest the existence of several growth- and/or differentiation-related PTPase activities in K562 cells.

Oncogene mediated repression of glucocorticoid hormone response elements and glucocorticoid receptor levels.

We have previously described the inhibition of glucocorticoid-dependent transcription from the mouse mammary tumor virus long terminal repeat promoter by products of the H-ras and v-mos oncogenes. We have studied the effects of conditional oncogenes on expression of glucocorticoid-dependent indicator genes. Expression of the glucocorticoid-dependent transcription of the tyrosine aminotransferase gene was monitored in FTO-2B rat hepatoma cells during Mr 21,000 protein (p21) H-ras induction. A strong transcriptional repression of the tyrosine aminotransferase gene followed p21 H-ras expression. The sequences in a glucocorticoid-dependent promoter which are responsible for the oncogene-mediated repression could be localized to the glucocorticoid response element; a construct in which a 15-base pair glucocorticoid response element was inserted 5' of the thymidine kinase promoter exhibited the oncogene-mediated repression of transcription. We observed a strong repression of glucocorticoid-dependent promoters and promoter constructs not only in the presence of p21 H-ras and p37 v-mos but also with p60 v-src. p57 v-myc, however, had no effect. Oncogene expression is not a sufficient prerequisite for an initial repression of glucocorticoid hormone-dependent gene transcription, since even in the presence of constitutively high levels of oncogene product a transient stimulation of glucocorticoid-dependent gene expression was found. Protein synthesis inhibition experiments revealed that no hormonally induced cellular protein is needed for the oncogene-mediated repression. It seemed reasonable that this phenomenon might reflect oncogene effects on the glucocorticoid receptor. We, therefore, made measurements of the glucocorticoid receptor protein. In the presence of glucocorticoid hormone the receptor translocated rapidly from the cytoplasm to the nucleus. In normal NIH 3T3 cells, after 24-h treatments the nuclear receptor levels had declined to about 50% of those determined at 2 h and in the presence of p21 H-ras they declined to 15%. The levels of cytoplasmic receptor were not affected by p21 H-ras expression.

The transformation of primary and established mouse mammary epithelial cells by p21-ras is concentration dependent.

We constructed a retroviral vector (pZSR) which is capable of simultaneously expressing the neomycin resistance gene and the viral ras oncogene. Primary mammary gland epithelial cells were prepared from mid-pregnant mice and infected with this virus. Cell lines with epithelial cell characteristics could be established with a low frequency. High expression of p21 v-ras was observed in these cells. They are tumorigenic and form soft agar colonies dependent on the presence of EGF and insulin in the growth medium but progress to hormone independent growth at higher passage numbers. A cloned cell line of non-tumorigenic, established mammary epithelial cells (NOG8) was also infected with the v-ras expressing virus. Individual cell clones expressing increasing amounts of p21 v-ras were selected. The level of p21 v-ras expression directly influences the morphology of the epithelial cells in culture, determines their cloning efficiency in soft agar and their tumorigenicity.

Purification and characterization of particles containing RNA-dependent DNA polymerase, in the allantoic fluid of uninfected leukosis virus-free chicken eggs.

The allantoic fluid of embryonated chicken eggs regularly contains particle-associated RNA-dependent DNA polymerase, as shown by its reaction with homopolymeric and heteropolymeric RNA and by the characterization of the products. The purification of the particles is described. The purified particles are different from the known avian RNA tumor viruses in their protein composition and their sedimentation constant. They do not exhibit biological properties typical for RNA tumour viruses, such as helper activity, interfering properties or infectivity and do not show endogenous DNA synthesis. The particles are discussed as non-viral elements.

Apoptosis in the rat mammary gland and ventral prostate: detection of cell death-associated genes using a coincident-expression cloning approach.

Apoptosis plays a striking role in the hormone-dependent involution of the mammary gland, but it has proved difficult to distinguish between the 'cell death' associated genes and the 'tissue remodelling' genes which are expressed concurrently. To identify cell death-associated genes, we have established a 'coincidence analysis' based on the previously described 'RNA differential display' method of Liang and Pardee (1992). Coincidence analysis allows the detection of genes expressed during related processes in different organs and was employed here to identify transcripts in which expression patterns are seen to be associated with apoptosis during involution of both rat mammary- and the ventral prostate glands. That the coincidence analysis is a promising approach can be seen from the fact that while widely accepted apoptosis markers such as transglutaminase (Fesus et al, 1987; Strange et al, 1992) and sulfated glycoprotein-2 (Buttyan et al, 1989; Strange et al, 1992; Guenette et al 1994) exhibited similar expression in both regressing tissues, transcription of tissue remodelling enzymes was minimal in the involuting prostate. We describe here the characteristics of five clones isolated which show coincident expression during programmed cell death in mammary and prostate tissues. Partial sequence analysis revealed for three clones high homologies with previously described genes; the putative rat homolog of the growth arrest gene gas-1 (Schneider et al, 1988; Del Sal et al, 1992), an homolog of the mouse 'Integrin Associated Protein' (IAP) (Brown et al, 1990; Lindberg et al, 1993) and the sequence encoding for the 'Allograft Inflammatory Factor' AIF-1 (Autieri et al, 1995; Utans et al, 1995). One clone displayed homology with an expressed human sequence tag and one clone unrelated to any known DNA sequence was isolated. The expression of these genes in involuting rat mammary and ventral prostate, was correlated with that in other organs and in situ hybridization was applied to establish that the secretory epithelial cells which undergo programmed cell death are the site of elevated expression during the course of involution. Furthermore, we conclude that the coincidence analysis approach described here could be easily applied to facilitate the characterization of gene expression i.e. for the detection and comparison of hormonally regulated genes in different organs.

Apoptosis-linked in vivo regulation of the tissue transglutaminase gene promoter.

Tissue transglutaminase (tTG) is upregulated in various cells undergoing apoptosis. To investigate the transcriptional regulation of tTG a mouse strain carrying a beta-galactosidase reporter gene under the control of a 3.8 kilobase fragment of the tTG promoter was characterised. The transgene construct was shown to be expressed in the apoptotic regions of the mouse embryo. Here we report that the regulation of the transgene is also apoptosis-linked in adult animals. The transgene is induced in endocrine apoptosis involving mammary gland involution and corpus luteum regression. Induction of the reporter gene is detectable during in vivo but not in vitro apoptosis of thymocytes induced by the glucocorticoid receptor, the nur77, p53 and the retinoid receptor gamma mediated pathways. Additionally, the lacZ expression mimics the activation of the endogenous promoter in tissues characterised by high apoptotic turnover. These results suggest that the apoptosis-specific transcriptional regulation of tTG is mediated through elements of a 3.8 kb promoter and may require cosignals available only in tissue environment. Cell Death and Differentiation (2000) 7, 1225 - 1233.

Isolation of cell death-associated cDNAs from involuting mouse mammary epithelium.

Although apoptosis is important in determining cell fate and maintaining tissue homeostasis, the initiation and control of apoptotic cell death in epithelium is not well understood. Post-lactationai involution of the mammary gland provides both an important developmental process and a normal physiological setting for studying apoptosis of epithelium. We used a differential screening strategy, based on previous studies correlating morphology with gene expression and nucleic acid integrity during mammary gland involution, to isolate genes involved in the regulation and execution of apoptotic cell death in regressing mammary epithelium. This screening strategy yielded a large number of genes the expression of which is significantly altered during mammary gland involution. These include genes associated with cell death processes, tissue remodelling and mesenchymal differentiation. In addition, a number of novel genes have been isolated. We have used Northern analysis and in situ hybridisation to study the expression of a selection of these putative death-associated genes during post-lactational mouse mammary gland involution.

Role of DDC-4/sFRP-4, a secreted frizzled-related protein, at the onset of apoptosis in mammary involution.

Using differential display, we isolated DDC-4, a secreted frizzled-related protein (sFRP), which is induced in the physiological apoptosis of hormonally regulated, reproductive tissues such as mammary gland, prostate, corpus luteum and uterus. The role of this gene in apoptosis was studied in animals overexpressing ectopic DDC-4/sFRP-4. Transgenic mice bearing the DDC-4/sFRP-4 cDNA under the control of the MMTV-LTR promoter showed lactational insufficiency and many apoptotic cells in the alveoli between day 19 of pregnancy and day 4 of lactation as demonstrated by TUNEL reaction and the presence of activated caspase-3. We performed a PKB/Akt kinase assay and studied several of its substrates using phosphorylation-specific antibodies to show reduced phosphorylation in PKB/Akt itself, as well as in glycogen synthetase kinase-3beta (GSK-3beta), BAD, and Forkhead. Taken together, our results show a role for DDC-4/sFRP-4 in abrogating an epithelial cell survival pathway at the onset of mammary gland involution.