Interaction of estrogen receptor-alpha transactivation domain with nuclear proteins of mouse brain: p68 RNA helicase shows age- and sex-specific change

Estrogen receptor (ER)-alpha interacts with nuclear proteins to mediate its multiple functions in the brain. However, it is not known which proteins interact with the ERalpha-transactivation domain (TAD) in mouse brain and whether they change with age and sex. Therefore, we have used affinity-purified GST-tagged mouse ERalpha-TAD fusion protein for interaction with nuclear proteins from the mouse brain. The pull-down assay and far-Western blotting detected four nuclear proteins of 100, 80, 68, and 50 kD. We have recently identified the 80-kD protein as MTA1 and demonstrated its decrease in old age. Here we report alteration in the interaction and expression of the 68-kD protein of adult and old mice of both sexes. This protein was identified as p68 RNA helicase through NCBI database search, immunoprecipitation, and immunoblotting. Further analysis showed that the extent of its interaction was relatively lower in old mice of both sexes and in male mice of both ages compared with their counterparts. However, the expression of p68 was significantly lower in old males compared with adult males, although other groups did not show significant changes. Such age- and sex-specific interaction of p68 suggests its implication in ERalpha-mediated brain functions during aging.

GST-tagged mouse estrogen receptor alpha-transactivation domain fusion protein is specifically degraded during its over-expression in E. coli and purification

Escherichia coli BL21 (DE3) is commonly used for the overproduction of fusion proteins. Using this system, we recently reported the overproduction of histidine-tagged mouse estrogen receptor (ER) alpha-ligand binding domain as an intact 30 kD protein and its inhibitory effect on the growth of bacteria. However, when GST-tagged mouse ERalpha transactivation domain (TAD) was overproduced using this system, it showed no effect on the growth of bacteria but was specifically degraded during its expression and purification. Here we report the expression of 47 kD GST-tagged mouse ERalpha-TAD protein, which was degraded partially and specifically into 46 and 43 kD fragments. This fusion protein was further degraded into 37, 31, 29 and 26 kD fragments during its purification by affinity chromatography. Such specific degradation of GST-tagged mouse ERalpha-TAD during its overproduction in E. coli and purification indicates the induction of specific protease and suggests the modification of expression system.

Role of steroid hormone coregulators in health and disease

The involvement of coactivators and corepressors, collectively termed as coregulators, increases the complexity of regulation of steroid hormone action. Following the interaction of the steroid hormone-receptor complex with the specific nucleotide sequences of target genes, the coregulators are recruited for activation or suppression of specific genes. The coregulators regulate a number of hormonal events during pregnancy, sex differentiation, development, reproduction and sexual behavior. They also exert equally important functions in non-reproductive tissues like heart, kidney, pancreas, bone and brain. The mutation and/or aberrant expression of these coregulators affect the normal function of steroid hormones and result in physiological abnormalities leading to the development of diseases. Therefore, understanding the role of coregulators in steroid hormone action is important and would help in developing the therapeutic strategy for the treatment of steroid-related diseases. In this review article, we describe the coregulators and their implication in health and pathogenesis of diseases. Furthermore, the possible therapeutic approach has been discussed for the treatment of steroid-related diseases, which will be of future interest in the field of medical sciences.

Binding of estrogen receptor alpha promoter to nuclear proteins of mouse cerebral cortex: effect of age, sex, and gonadal steroids

Majority of estrogen actions in the brain are mediated by estrogen receptor (ER) alpha which in turn is regulated by several factors like circulating levels of gonadal steroid hormones 17beta-estradiol and testosterone, sex and age of the organism. The expression of ERalpha is regulated through interaction between cis-elements of its promoter and proteins present in the nuclei. Here, we have used electrophoretic mobility shift assay (EMSA) to analyze the effect of age, sex, 17beta-estradiol, and testosterone on the binding of ERalpha promoter (-91 to +46 bp) to nuclear proteins from the mouse cerebral cortex. EMSA revealed the formation of three specific complexes in all groups. However, the intensity of these complexes varied as a function of age, sex and treatment with 17beta-estradiol and testosterone. Nuclear proteins from the cerebral cortex of both sexes showed reduced binding with promoter fragment in old mice. Further, competition analysis indicated stronger binding in females than males of both ages. The extent of binding was reduced by 17beta-estradiol and testosterone treatment in both ages and sexes. Thus, these findings demonstrate differential binding of nuclear proteins to mouse ERalpha promoter which may account for different functions of estrogen in the brain.

PS2 protein expression is upregulated by sex steroids in the cerebral cortex of aging mice

Mutations in presenilin (PS) genes cause majority of early onset Alzheimer's disease (AD), an age related neurodegenerative disorder. PS proteins undergo proteolytic cleavage to produce biologically active fragments, which constitute the catalytic core of the gamma-secretase enzyme. This enzyme cleaves beta-amyloid precursor protein (betaAPP) to generate Abeta peptides, which are influenced by sex steroids. Recently we have reported the downregulation of PS1 expression by sex steroids in the brain of adult mice. Here we have examined the effect of gonadectomy and subsequent administration of gonadal hormones 17beta-estradiol and testosterone on the level of PS2 C-terminal fragment (CTF) in the cerebral cortex of adult and old AKR strain mice of both sexes. PS2 expression was downregulated following gonadectomy, but upregulated by supplementation of gonadal steroids in both age groups and sexes. Thus these results demonstrate up-regulation of PS2 protein expression by sex steroids, which in turn may influence PS2 associated brain functions.

Transcription of estrogen receptor alpha and beta in mouse cerebral cortex: effect of age, sex, 17beta-estradiol and testosterone

Estrogen actions are mainly mediated by estrogen receptor (ER)alpha and ERbeta which in turn are regulated by several factors including age, sex and gonadal steroid hormones 17beta-estradiol and testosterone. In the present study, we have used nuclear run-off assay to examine the effect of these factors on the rate of transcription of ERalpha and ERbeta of mouse cerebral cortex. The run-off assay result was further corroborated with the measurement of steady state level of ERalpha and ERbeta mRNA by semiquantitative RT-PCR method. Our results reveal that ERalpha transcription rate decreases in old mice of both sexes, whereas ERbeta transcription rate decreases only in old females when compared to their adult counterparts. 17beta-Estradiol supplementation reduces the transcription rate of ERalpha and ERbeta in all groups except in adult male while testosterone treatment down regulates the transcription rate of ERalpha and ERbeta in all groups. The semiquantitative RT-PCR analysis reveals that the level of ERalpha mRNA decreases in old male but shows no effect in old female as compared to adult counterpart. In contrast, ERbeta transcript level decreases in old mice of both sexes. Furthermore, ERalpha mRNA level is higher in adult female than in adult male but no sex-dependent difference is seen in ERbeta mRNA level. Supplementation of 17beta-estradiol shows no significant alteration but testosterone reduces the ERalpha level in male mice, while 17beta-estradiol and testosterone down regulate the ERalpha level in female mice of both ages. In case of ERbeta, 17beta-estradiol decreases the transcript level in all groups except adult male while testosterone treatment results in the down regulation of transcript level in all groups. Thus these findings suggest differential effects of age, sex, 17beta-estradiol and testosterone supplementation on the transcription of mouse ER genes which may account for differences in the protein levels of ERalpha and ERbeta and their functions in the brain.

Aging of Brain: Role of Estrogen

The brain undergoes many structural and functional changes during aging. Some of these changes are regulated by estrogens which act mainly through their intracellular receptors, estrogen receptor ERalpha and ERbeta. The expression of these receptors is regulated by several factors including their own ligand estrogen, and others such as growth hormone and thyroid hormone. The levels of these factors decrease during aging which in turn influence estrogen signaling leading to alterations in brain functions. In the present paper, we review the effects of aging on brain structure and function, and estrogen action and signaling during brain aging. The findings suggest key role of estrogen in the maintenance of brain functions during aging.

Expression of estrogen receptor (ER) α and β in mouse cerebral cortex: Effect of age, sex and gonadal steroids

Estrogen receptor (ER), which mediates the multiple effects of estrogen in brain, is regulated by several factors including its own ligand. In the present study, we have examined the effect of age, sex and gonadal steroids (estrogen and testosterone) on the level of ERalpha and ERbeta in the cerebral cortex of AKR mice. Adult and old mice of both sexes were divided into four groups: intact, gonadectomized, 17beta-estradiol treated and testosterone treated. Western blot analysis showed higher level of ERalpha and ERbeta in the cerebral cortex of adult female than male mice. ERbeta level decreased significantly with advancing age in both sexes, whereas 17beta-estradiol supplementation decreased ERalpha level in old male and increased in old female, it also increased ERbeta level in old male and adult female. On the other hand, testosterone treatment decreased ERalpha level significantly in old female and ERbeta level in adult female but increased ERbeta level in male mice of both ages. Thus, these findings showed that the expression of ERalpha and ERbeta protein is differentially influenced by age, sex and gonadal steroids in the mouse cerebral cortex, suggesting differences in ER-mediated brain functions.

In the cerebral cortex of female and male mice, amyloid precursor protein (APP) promoter methylation is higher in females and differentially regulated by sex steroids

The over-expression of amyloid precursor protein (APP) gene in certain areas of the brain indicates abnormalities in gene regulation as an important factor for the development of Alzheimer's disease (AD). We have reported recently that APP mRNA expression is lower in female as compared to male and is regulated by sex steroids. As methylation of promoter is crucial for such regulation, we have used isoschizomeric restriction enzymes MspI and HpaII to analyze the pattern of APP promoter methylation in the cerebral cortex of intact, gonadectomized, testosterone- and estradiol-treated adult and old mice of both sexes. Southern blots of DNA digested with HindIII/MspI or HindIII/HpaII from different groups of mice were probed with a 1.27-kb DIG-11-dUTP labeled APP promoter fragment. The results revealed four distinct bands of 315 bp, 596 bp, 911 bp, and 2.6 kb by MspI, a single band of 2.6 kb by HpaII in all groups and an additional 2.9 kb in intact and estradiol treated old male and testosterone-treated adult female mice. The intensity of 2.6-kb band was relatively lower in intact female as compared to male and varied with different treatments in both ages, indicating the modulation of methylation. Thus, these findings showed that APP promoter methylation is higher in female and differentially regulated by sex steroids in the mice cerebral cortex, suggesting a strong correlation between promoter methylation and transcriptional silencing of APP.

Estradiol regulates APP mRNA alternative splicing in the mice brain cortex

Alternative splicing of amyloid precursor protein (APP), one of the candidate genes for Alzheimer's disease, yields three major mRNAs, which give rise to APP770, APP751 and APP695 protein isoforms. Out of these three isoforms, APP695 is expressed most predominantly in the brain. The splicing and processing of APP are shown to be influenced by several factors including hormones. In this study, we report the effect of withdrawal and administration of sex steroid hormones on the alternative splicing of APP mRNA during aging in the brain cortex of mice of both sexes. The level of APP695 mRNA isoform was higher in intact adult as compared to old mice of both sexes. Gonadectomy upregulated the APP695 mRNA isoform levels in all groups except in adult female where the level was downregulated. Estradiol supplementation upregulated the level of APP695 mRNA isoform in all groups except in old male where the level was downregulated. Thus these results show that the level of APP695 mRNA changes with age and estradiol may play a key role in the development of Alzheimer's disease by modulating the level of APP mRNA isoforms.

Sex steroids reduce DNaseI accessibility of androgen receptor promoter in adult male mice brain

We have previously reported that androgen receptor (AR) expression is inversely correlated to its promoter methylation and is regulated by sex steroids. As chromatin structure plays an important role in transcriptional regulation, the effect of sex steroids on DNaseI accessibility of chromatin of AR promoter was examined in the brain cortex of adult and old mice of both sexes. Nuclei were digested with different concentrations of DNaseI and the extracted DNA was further cleaved by PstI and analyzed by Southern hybridization with DIG-labeled 695-bp AR promoter. With 50 U DNaseI, the intensity of PstI-specific 1.45-kb band was lower in intact female as compared to male groups, suggesting increased nuclease accessibility in female than male. Although gonadectomy increased DNaseI accessibility remarkably in male and female of both ages, testosterone decreased the accessibility in adult but increased in old male. Estradiol, on the other hand, decreased DNaseI accessibility in both adult male and old female but increased in old male and adult female. Thus, these findings suggest that the chromatin conformation of AR promoter varies with age and sex and its accessibility to DNaseI is reduced by testosterone and estradiol in the brain cortex of adult male mice.

Androgen receptor mRNA is inversely regulated by testosterone and estradiol in adult mouse brain

Androgen receptor (AR) is expressed in different tissues including the brain and is under regulation by sex steroid hormones. It mediates the action of androgen which plays a key role in learning, memory, and other brain functions that deteriorate with increasing age. We have correlated the expression of AR mRNA with its promoter methylation and their regulation by testosterone and estradiol in the brain cortex of adult and old male and female mice. Results revealed that (i) AR mRNA expression was significantly higher in male than in female mice. (ii) In both sexes, AR mRNA level was down-regulated by testosterone in adult and old, but up-regulated by estradiol only in adult mice. (iii) Methylation of AR core promoter was increased by testosterone, but decreased by estradiol. These findings show that AR mRNA expression and its core promoter methylation are inversely regulated by testosterone and estradiol in the adult mice brain cortex. Such regulation of AR expression might influence androgen action during aging of the mice brain.

Estrogen receptor ? expression in mice kidney shows sex differences during aging

We have used semi quantitative RT-PCR and western blotting for the analysis of expression of estrogen receptor (ER) alpha and beta mRNA and protein in the kidney of adult and old mice of both sexes. Uterus, a well-known target for estrogen action, was used for comparison. As compared to adult, the expression of both ER alpha mRNA and protein of old mice decreased in male but increased in female. However, unlike uterus, neither ERbeta mRNA nor protein could be detected in the kidney of adult or old mice. Thus the present data reveal that the expression of ERalpha in mice kidney shows sex differences during aging.

Amplification of exons 4 and 5 of androgen receptor gene by testosterone in aged female mouse brain cortex

We have investigated the effect of testosterone on the amplification of androgen receptor (AR) gene in the brain cortex of aging female mice. For this purpose, high molecular weight (HMW) DNA purified from the brain cortex of intact, gonadectomized, testosterone- and estradiol-treated adult and old female mice was digested with different restriction enzymes and used for Southern hybridization with 32P-labeled AR cDNA fragments representing different domains of AR. The results reveal that only exons 4 and 5 corresponding to amino-terminal part of the hormone binding domain of AR are amplified in testosterone-treated old female but not in adult mice. Densitometric analysis further shows that testosterone increases the copy number of exons 4 and 5 of mouse AR gene by four-fold. Reprobing of slot blots with estrogen receptor and cathepsin D cDNA as probes supports the observation that amplification occurs only in AR gene. The tissue specificity is also confirmed when the slot blot hybridization of mouse liver HMW DNA with AR cDNA fails to show similar amplification. As the restriction map analysis of Southern blots does not show restriction fragment length polymorphism, the possibility of structural rearrangement leading to amplification of AR gene is ruled out. Thus our results suggest that the in vivo induction of mouse AR gene amplification by testosterone is tissue- and age-specific, and might contribute to the progress of genetic instability in the brain of aged female mice.

Pyridoxal 5'-phosphate inhibits DNA binding of HNF1

An efficient Escherichia coli expression system was constructed for the production of a variant form of HNF1 protein having the additional five amino acid residues (Asp-Arg-Trp-Gly-Ser) at the NH(2)-terminal. The cDNA encoding HNF1 was ligated to 6 x His tag and inserted into an inducible bacterial expression vector pRSET A. After expression in E. coli, the recombinant product was purified by Ni-NTA affinity column chromatography. The purified product showed expected NH(2)-terminal sequence and specific binding to the HNF1 site. The effect of pyridoxal 5'-phosphate and its analogues on the binding activity of recombinant HNF1 was examined and found that only pyridoxal 5'-phosphate effectively inhibited the DNA binding. The concentration of pyridoxal 5'-phosphate that inhibited 50% of DNA binding was around 100 microM. Furthermore, we identified Lys197 of HNF1 molecule as the essential residue of DNA binding. These observations suggest that pyridoxal 5'-phosphate directly interacts with tissue-specific transcription factor HNF1 and modulates the binding to DNA.

Age- and sex-related expression of norbin in the brain cortex of mice

Norbin is a novel neuron specific protein that extends the neurites of neuronal cells. It is expressed in neural tissues like brain cortex, hippocampus, spinal cord and cerebellum. In this paper, we have studied the expression of norbin mRNA and protein in the brain cortex of male and female mice of different ages. Northern blot analysis showed that the level of norbin mRNA increased in both sexes during aging. However, Western blotting revealed that the protein increased in male but decreased in female with advancing age. These findings suggest that norbin is involved in brain function which is dependent on age and sex.

Purification, characterization and differentiation-dependent expression of a perchloric acid soluble protein from rat kidney

We have recently reported the presence of a novel perchloric acid soluble protein in rat liver (PSP1) that inhibits cell-free protein synthesis in a rabbit reticulocyte system. While studying the perchloric acid soluble proteins from different tissues of rats, we found that the kidney protein cross-reacted with antibody against the PSP1. In this investigation, we have purified a perchloric acid soluble protein from the rat kidney and studied its characterization and expression. The protein extracted from the postmitochondrial supernatant fraction with 5% perchloric acid was purified by ammonium sulfate fractionation and CM-Sephadex chromatography. By immunoscreening with the rabbit antisera against the PSP1, we detected a cDNA that contained an open reading frame of 411 bp, encoding a 137 amino-acid protein with a molecular mass of 14,149 daltons. The deduced amino acid sequence was completely identical with that of PSP1 from rat liver. The perchloric acid soluble protein from rat kidney (K-PSP1) also inhibited cell-free protein synthesis in the rabbit reticulocyte lysate system in a different manner than RNase A. Immunohistochemistry showed that the expression of K-PSP1 increased from fetal 17th day to postnatal 4th week, and it remained almost the same until the 7th week of postnatal age. Furthermore, the expression of K-PSP1 in the kidney of the nephrotic rat model was shown to be differentiation dependent. On the other hand, the expression of K-PSP1 in renal tumor cells was downregulated as compared with intact tissue. These results suggest that the expression of K-PSP1 is regulated in a differentiation-dependent manner in the kidney.

Synthesis and phosphorylation of androgen receptor of the mouse brain cortex and their regulation by sex steroids during aging

To examine the synthesis and phosphorylation of androgen receptor (AR) and their regulation by sex steroids, adult (24 weeks) and old (65 weeks) male and female mice were gonadectomized and administered with testosterone and estradiol. AR amount, synthesis and phosphorylation were measured in the brain cortex by immunoblotting and immunoprecipitation using antibody raised against rat AR transactivation domain (TAD) which was expressed in E. coli as a fusion protein. We found that the amount of AR was high in adult and declined in old mice of both sexes. Administration of testosterone and estradiol significantly down-regulated the level of AR in old male and adult female. Similarly, the rate of AR synthesis also declined with age. Exogenous treatment of gonadectomized mice with testosterone and estradiol reduced the extent of synthesis significantly in all groups except in old female. No sex-dependent variation was noticed either in the level or synthesis of AR. In contrast, the extent of phosphorylation was higher in old mice of both sexes as compared to their adult counterparts. Testosterone and estradiol supplementation resulted in remarkable increase in AR phosphorylation in all groups. Thus it is evident from our findings that the amount and synthesis of AR decrease but phosphorylation of AR increases in the brain cortex with advancing age of mice and they are regulated by testosterone and estradiol in age- and sex-specific manner.

Sex-specific alterations in chromatin conformation of the brain of aging mouse

Chromatin conformation has been analysed in the brain cortex of adult (24+/-2 weeks) and old (65+/-4 weeks) male and female mice. Nuclei purified from different groups of mice were digested with MNase and DNase I for varying time periods (0-90 min), and with endogenous endonucleases for 1 h. MNase and DNase I digestion kinetics showed that the percentage of acid solubility of chromatin was relatively lower in old than adult and in female than male. This was further supported by electrophoretic analysis of nuclease digested DNA fragments. When the nuclei were incubated with only Ca2+ or Mg2+, no endonuclease digestion was observed. However, under similar conditions, the liver DNA was cleaved substantially. When divalent cations were added together, they activated endogenous endonucleases and digested the brain chromatin. The activity of Ca2+/Mg2+-dependent endogenous endonucleases was higher in male than female. Thus the accessibility of chromatin to MNase, DNase I and endogenous endonucleases was higher in male than female, and MNase as well as DNase I were more active in adult than old. Such sex- and age-dependent conformation of chromatin may attribute to differential expression of genes in the mouse brain.

Sex steroids modulate the synthesis and phosphorylation of proteins in the brain cortex of aging mice

We have analysed the synthesis and phosphorylation of total cellular proteins and their modulation by sex steroids (testosterone and 17beta-estradiol) in the brain cortex of adult (25-28 weeks) and old (54-58 weeks) male and female AKR mice. The level of (35S) methionine incorporation in total proteins is comparatively higher in males than females. It declines significantly in older males but shows no difference with age in females. After gonadectomy, the extent of (35S) methionine incorporation decreases in adults but not in the old. The incorporation is induced remarkably by estradiol in males and by both sex steroids in females. Further analysis by fluorography shows several proteins, but only a few (66, 45 and 29 kDa) vary in levels significantly with age, sex and hormonal treatment. The data on phosphorylation of total cellular proteins by (32P) orthophosphate incorporation exhibit no age-dependent variation. However, it is reduced drastically by gonadectomy in adults. After the addition of testosterone, the extent of phosphorylation is enhanced significantly in adults but remains the same in the old of both sexes. Estradiol also increases this modification remarkably in males of both ages and adult females, but shows no effect in old females. These results suggest that both testosterone and estradiol modulate the synthesis and phosphorylation of brain cortex proteins in age- and sex-dependent manner. This leads to alterations in physiological activities of the animal.

Age-dependent degradation of amyloid precursor protein in the post-mortem mouse brain cortex

We have examined the degradation of amyloid precursor protein (APP) in the brain cortex of adult (24 +/- 2) and old (58 +/- 2) mice at different post-mortem time intervals (0, 1.5, 3, 6, 12 and 24 h). The brain cortex extract was prepared and processed for immunoblotting using antibodies against N-terminal 47-62 amino acids (Asp29) and central 301-316 amino acids containing Kunitz protease inhibitor (KPI) domain (Asp45) of APP. Asp29 (N-terminal) recognizes two bands of 140 and 112 kDa. The amount of 140 kDa is relatively higher in adult than old. The level of 112 kDa is 1.6 times lower in adult than old. It shows no remarkable change with varying post-mortem time. On the other hand, Asp45 (KPI) detects two bands of 110 and 116 kDa. While 116 kDa disappears rapidly after death of the animal, 110 kDa shows no remarkable change with different post-mortem periods. Further incubation of the disrupted tissue at 4 degrees C for 24 h and immunoblot analysis with Asp29 (N-terminal) shows 112 kDa in both ages but 58.5 kDa in adult and 70 kDa in old only. Analysis with Asp45 (KPI) shows only 54 kDa which increases after 3 h in adult but decreases significantly after 1.5 h and becomes undetectable at 24 h in old. Thus the present findings indicate that APP is degraded in a precise pattern and it depends on cellular intactness, post-mortem period and age of the animal.

Nucleosome positioning and periodicity of satellite DNA in the liver of aging rats. Nucleosome positioning and periodicity of satellite DNA

The positioning of nucleosomes has been analysed by comparing the pattern of cutting sites of a probing reagent on chromatin and naked DNA. For this purpose, high molecular weight DNA and nuclei from the liver of young (18 +/- 2 weeks) and old (100 +/- 5 weeks) Wistar male rats were digested with micrococcal nuclease (MNase) and hybridized with 32P-labelled rat satellite DNA probe. A comparison of the ladder generated by MNase with chromatin and nuclei indicates long range organization of the satellite chromatin fiber with distinct non-random positioning of nucleosomes. However, the positioning of nucleosomes on satellite DNA does not vary with age. For studying the periodicity and subunit structure of satellite DNA, high molecular weight DNA from the liver of young and old rats were digested with different restriction enzymes. Surprisingly, no noteworthy age-related change is visible in the periodicity and subunit structural organization of the satellite DNA. These results suggest that the nucleosome positioning and the periodicity of liver satellite DNA do not vary with age.

Nuclease susceptibility of the rat liver satellite DNA-containing chromatin decreases with age

Nuclease susceptibility of the satellite DNA-containing chromatin of the liver of young (18 +/- 2 weeks) and old (100 +/- 5 weeks) rats was analysed using nick-translated rat 185 bp satellite I DNA fragment cloned in pBR322. With increasing concentration of DNaseI and micrococcal nuclease (MNase), multimeric forms of the satellite ladder gradually disappear in both the ages. The rate of disappearance is faster in young rats as compared to old ones. Such age-dependent decrease in the susceptibility of satellite DNA-containing chromatin reflects its condensation towards heterochromatization in old age.