Exfoliated epithelial cells : potentials to explore gastrointestinal maturation of preterm infants

Exfoliated epithelial cells represent valuable source of information on the physiopathological state of the mucosa. However, the interpretation of data obtained from exfoliated cells is complicated by the conditions of isolation as well as the health of the subject. Exfoliation is either: a) a natural loss of body cells implying a molecular signal related to the turnover of terminally differentiated cells and to the progressive mobilization of proliferative as well as stem cells or b) the result of manual exfoliation by applying mechanical constraints like scraping. Depending on the methodology of isolation, exfoliated epithelial cells are believed to be either in apoptosis or in anoïkis. Most studies are using microscopic examination to demonstrate the presence of typical cells along with measurements on a limited number of biomarkers. Only few studies using proteomics or transcriptomics are available and they open discussion about tissue references and normalization. The main advantage of measures realized on exfoliated epithelial cells is that they are strictly non-invasive and open the possibility to evaluate maturation of gastric and intestinal tissues in long-term experiments performed on the same animal or in translational research on samples recovered from preterm infants.


Depending on the methodology of isolation, exfoliated epithelial cells are believed to be either in apoptosis o r i n a n o ï k i s . M o s t s t u d i e s a re u s i n g m i c ro s c o p i c e x a m i n a t i o n t o d e m o n s t r a t e t h e p re s e n c e o f t y p i c a l cells along with measurements on a limited number of b i o m a r k e r s . O n l y f e w s t u d i e s u s i n g p ro t e o m i c s o r transcriptomics are available and they open discussion about tissue references and normalization. The m a i n a d v a n t a g e o f m e a s u re s re a l i z e d o n e x f o l i a t e d epithelial cells is that they are strictly non-invasive a n d o p e n t h e p o s s i b i l i t y t o e v a l u a t e m a t u r a t i o n o f g a s t r i c a n d i n t e s t i n a l t i s s u e s i n l o n g -t e r m e x p e r im e n t s p e r f o r m e d o n t h e s a m e a n i m a l o r i n t r a n s l at i o n a l re s e a rc h o n s a m p l e s re c o v e re d f ro m p re t e r m
infants.

Key words
Mammals, Biological clocks, Gut, Neonate, Premature, Epithelial cells Exfoliated epithelial cells can be used as a surrogate for tissue biopsies in predicting changes in gene expression, DNA methylation, DNA damage, protein expression and the accumulation of dietary components 1,2 or in studying the expression of the circadian clock components. 3In the past, the recovery of cellular material from blood samples or tissue biopsies has been crucial in demonstrating the circadian nature of 180 biological parameters as well as the ultradian or seasonal rhythms of many others, [4][5][6] thereby sustaining the concept of reactive homeostasis. 7  Epithelia can be divided into simple cylindrical cell monolayers, as in the case of the colon, or pseudostratified layers, as in the case of the urothelium. 12 a given time point, a mucosal epithelium is supposed to lose different categories of cells by way of various exfoliation mechanisms (Figure 1).

Resumo C é l u l a s e p i t e l i a i s e x f o l i a d a s s ã o u m a f o n t e d e i n f o r m a ç ã o v a l i o s a s o b re o e s t a d o f i s i o l ó g i c
However, cell turn-over is driven by a delicate balance between cell loss and proliferation.
Proliferation depends on two cellular compartments, proliferative cells capable of rapid mitosis to increase tissue regeneration and stem cells, which give rise to all phenotypes by way of assymetric mitosis.The speed of mitosis in proliferative compartment depends on cellular loss at the top of the structure and on tightly regulated cell migration along the functional units. 13,14Cell migration in the small and large bowel of mice shows a strong circadian rhythm, with cell velocity reaching a peak at 9 a.m. and a minimum at 5 p.m. 15 Other rhythms which could be controlled by circadian clocks have been observed in the intestine, such as cell proliferation 16,17 or apoptosis. 18Cell proliferation is also believed to be controlled by clockwork, not only in hepatocytes, 19 but also throughout the rat's gut. 20asonal proliferation rhythms have been described in adult rats by Haus et al., 21 and Gomes et al. 22 Circadian as well as seasonal cell proliferation rhythms are clearly relevant to the recovery of exfoliated quiescent cells holding specific and functional biomarkers (Figure 1).

Exfoliation and the epithelium homeostasis
Exfoliation has been described as an active biochemical process linked to epithelial homeostasis. 3,23,24It is believed that epithelial cells, losing contact with companion cells (such as fibroblasts) as well as the extracellular matrix, enter anoikis. 25The detachment of epithelial cells triggers

Figure 1
Main parameters of exfoliation of epithelial cells.
The flow chart summarizes the cellular status of epithelial cells recovered under mild stress (left panel) and under severe stress (right panel).As shown in the central panel, epithelial cell functional units are organized into four compartments (stem cells, proliferative, terminally differentiated, and senescent).The isolation of exfoliated cells depends on the techniques (manual or induced by some stress), the epithelium itself, state of health and species.A major difference in the autophagy/phagocytosis process of senescent cells has been found between rat or mouse exfoliated colonocytes which are lost in the lumen and human colonocytes which are rarely lost in the lumen but actively recycled by neighboring cells.26   Quiescent epithelial cells can be isolated from a variety of body fluids (breast milk, urine, digestive fluids).They are believed to enter rapidly into anoikis after exfoliation.Anoikis is considered to be an autophagic state promoting epithelial cell survival some time after loss of contact with the extracellular matrix and cell neighbors.11 Primary cultures can be derived from these cell populations, indicating that some phenotypes retain clonogenic potential.The molecular components of circadian clocks are detected in these cells as in any other somatic cells and could provide molecular data on the expression ratios between these proteins, provided sampling procedures are standardized.Further studies are needed to identify any differences in the rate of exfoliation according to the time of day and the season, as well as to differences in phenotypes.Circadian rhythmicity is known to depend on many individual parameters, such as sex 27 and adolescence, 28 as well as age at birth (full-term or preterm infants; Rivkees, 29 ).Senescent cells observed on the top of human colonic crypts have been found to be unreliable in studying clock components.10 inducers of intectine, a protein involved in the exfoliation of apoptotic cells at the top of the villi of the small intestine within one hour after feeding. 23ese models that manipulate nutrition in order to induce exfoliation in the small intestine of mice 23 or the gastric mucosa of rats 24 indicate that the exfoliation mechanism is highly context-dependent but they also suggest that it would be possible to develop in vivo studies of anoikis and autophagy in relation to the functioning of peripheral circadian clocks.

Exfoliation by applying mechanical constraints
In its simplest form, exfoliation is a loss of cells the obtaining of epithelial cells of the respiratory tract from sputum and oral mucosal cells by rinsing the mouth or chewing-gum (betel chewers 44 ), the obtaining of esophageal cells, 45 of mammary cells by way of nipple aspiration, from ductal lavage, 39 breast milk 40 or by obtaining bladder urothelial cells present in urine samples. 46,47Manual exfoliation has also been proposed as a way of recovering intact, normal epithelial cells in tissue biopsies carried on the occasion of colon resection. 30,48This technique partially purifies the cell preparation by taking advantage of the cell's inherent biology.Epithelial cells remain in small clumps or sheets, detached from any stromal elements that may have been scraped off. 48This observation also holds true for gastric epithelial cells. 3The recovery of mechanically exfoliated cells by gentle swabbing can be used to obtain typical epithelial cells that are immediately available for analysis and may represent a reliable alternative to the oral mucosal punch biopsies of Bjarnason et al. 8 in the study of clock gene variations in time series studies involving human volunteers.
In short, exfoliation is a broad term covering many different biological or experimental situations.
There is still no proof that the exfoliation of quiescent cells follows a circadian rhythm.This is probably because the set of physiological parameters leading to active exfoliation are difficult to handle and the interpretation of data obtained from manual exfoliation is also highly context-sensitive.The next section will illustrate that the methods used to recover exfoliated cells are of paramount importance.
both pro-and anti-apoptotic signals, such as nuclear factor kappa-B, and inhibits the apoptosis protein family members.4][35] The balance between these signals and the duration of detachment determine the subsequent fate of these cells.Anti-apoptotic signals presumably delay the onset of anoikis, allowing cells to survive, provided that they can reestablish extracellular matrix contact in time. 11Loss of extracellular matrix contact induces autophagy in normal epithelial cells and autophagy allows for the survival of detached cells during both anoikis and lumen formation in a 3D epithelial cell culture. 36,37Given these assumptions, exfoliation may be understood as a natural process of removal of external cells from the luminal surface of an epithelium.Consequently, exfoliation has a physiological role to play in the architecture of the epithelium by allowing the formation of a lumen and presumably providing sufficient flexibility to preserve the physical integrity of the epithelium and enable it to grow.In three-dimensional epithelial cell cultures, both autophagy and apoptosis are observed during lumen formation. 36,37 losing contact with the original mucosa, exfoliated epithelial cells activate autophagy as a survival mechanism to endure starvation.Starving cells break down cytoplasmic material to generate both nutrients and energy. 38Quiescent exfoliated epithelial cells with no signs of apoptosis can be recovered under specific conditions in aspirated gastric fluid 3 or, by suction, from breast glands 39,40 or extensive rinsing at the end of routine colonoscopy. 41Many quiescent exfoliated epithelial cells can be cultured, suggesting that detachment-induced autophagy contributes to the viability of these cells.Human mammary epithelial cells die after 24-48 hours after detachment, while certain epithelial cells, in particular the primary mammary epithelial cells of mice and the intestinal epithelial cells of rats, perish within a few hours following substratum detachment. 13,37imal models have been developed to study the effect of cycles of nutrient intake on the exfoliation of epithelial cells in the digestive lumen.In adult rats that have fasted for 24 hours and subsequently fed for one hour, food intake induces exfoliation of quiescent parietal cells at the top of the gastric gland by way of an unidentified exfoliation factor. 24Under these conditions, stem cells located in the neck region of the gastric glands are believed to be actively recruited to repopulate the surface of the stomach of the adult rat.By contrast, in adult laboratory mice, fatty acids (such as palmitate) are

Methods for studying exfoliated cells
A major difficulty with the use of exfoliated cells is finding a device or a method that allows for reliable and easy recovery of cell material.Moreover, for successful chronobiological studies, experimenters need to perform sampling with sufficient regularity over time and to take legal considerations into account. 49

Handling of samples and cell isolation
The best strategy is to avoid sample storage by performing cell isolation immediately on fresh samples.However, this is highly demanding in terms of time and manpower.It is common to store samples at -70°C (for a maximum of six months).
But, the gold standard is to use unfixed snap frozen exfoliated cells. 30Alternatively, for isolation of freshly exfoliated cells subsequent to exposure to some inducers with the corresponding original epithelium, cryogenics needs to be used. 24entrifugation is the best method for obtaining pellets of cellular materials from biological fluids devoid of large aggregates or mucus, such as urine for a urocytogram 47 or by gently swabbing oral mucosa on inner side of the cheek with a cytobrush to study cytogenetic damage. 42Manual exfoliation of the cells is also accomplished by applying the edge of a glass slide to the exposed surface of the open mucosa, as with colon resection specimens, and gently scraping. 30,50The viability of cells recovered using this exfoliation/enrichment method or other similar techniques tends to lie between 90 to 100% according to the Trypan blue exclusion assay.There is a need for a device that recovers surface exfoliated cells of human rectal mucosa using minimal invasive scraping. 51gnetic beads and antibodies are known to recover low numbers of epithelial cells in biological fluids or to recover highly purified epithelial phenotypes.Antibodies against human cell surface antigens, such as AntiHep, 3,52 from an original antibody, as described by Moldenhaus et al., 53 or anti-Ber-Ep4  Our current studies demonstrate that a sufficient number of exfoliated cells can be recovered from gastric aspirates in preterm infants to measure the expression of specific genes of interest but the recovery of epithelial cells form stools is very inefficient. 3Exfoliated cells are shed in abundance in the stools of adult patients with colorectal cancer.These cells are non-apoptotic, and markers in exfoliated cells originating from the tumor are used for cancer screening and prevention. 55,56Exfoliated colonocytes are rare in human adults free of colorectal cancer as these cells are believed to be rapidly removed from colonic epithelium by phagocytosis. 26,31(Figure 1) Furthermore, these cells may be mixed with well-preserved squamous epithelial cells mechanically sloughed in abundance from the surface of the anal canal epithelium during every

Microscopic analyses
Microscopic examinations overcome the problems related to the heterogeneity inherent in working with clinical material by relating all results to the single cell.Exfoliated epithelial cells were described more than 50 years ago -as colonocytes 59 or urothelial cells 46,47 -but such descriptions were based on the microscopic examination of cell morphology and were of little use in characterizing the cellular origin of recovered cell phenotypes.In addition, dark material, such as fecal samples, may have adverse effects on direct examination, as well as heavy loads of autofluorescent materials, such as biliary salts.Cell enumeration by microscopic examination is a tedious and slow process but it makes it possible to easily distinguish quiescent from apoptotic cells 3,32,52 and to evaluate not only contamination by yeasts and bacteria, but also the interactions with gastric cells when using milk supplemented with probiotics.Recovery of intact but rare RNA molecules has been widely facilitated by the use of kits based on the amplification procedure of Phillips and Eberwine. 62kewise, detection of clock transcripts has been reported in exfoliated gastric and colonic cells of preterm infants. 3Future studies using exfoliated human cells may be able to employ the strategy used by Loboda et al. 63 to compare diurnal variation of adipose transcriptome in silico, using the publiclyavailable Connectivity Map.

Proteins
Comparative proteomic analysis between scrapings of the human intestinal epithelium and colon cancer cell lines has revealed that numerous proteins can be used to profile both scrapings and cell lines. 64mentin (P08670) has been strongly associated

DNA and associated histones of the regulatory transcription complex
Ways of monitoring exfoliation of host DNA have been designed for genomic studies on the total DNA of human breast epithelial cells 40

or using
Real-time PCR of host DNA in human or rat colonocytes. 26In the field of epigenetics, clock and parental imprinting have been found to be connected, as Magel2 is imprinted in the male genome and regulates normal circadian output. 67is information may be accessible in the exfoliated epithelial cell genome.
Histone acetylation has not been explored in exfoliated cells but it constitutes a future field of active investigation.Histone acetylation has been linked to the acquisition of epigenetic profiles during normal development or following perinatal denutritition and can be directly evaluated using the histone acetyltransferase activity harbored by CLOCK. 68thodologies to check all these parameters will be crucial for broadening the usefulness of exfoliated epithelial cells in chronobiology as well as in physiology.Finally, with a low potential for measuring chronobiological parameters but widely used in genotoxic studies, the formation of micronuclei in exfoliated cells, which emerge during mitosis of the basal layers of the epithelium from different organs (like oral and nasal cavity, bladder, cervix and esophagus), has been used as an end point to detect exposure to genotoxins or bioactive food components. 42,69,70 short, the problem with the recovery of exfoliated cells is that of relating these cells to the intact tissue structure of the donor.The degradation of biological information depends on the bioactive compounds present in the biological fluids, which may be heavily loaded with enzymes, such as digestive fluids.The availability of animal models is of paramount importance in developing in vivo studies of anoikis and its connection with molecular circadian clocks as a way of evaluating the stability of chronobiological molecular information in exfoliated cells.

Stability of chronobiological information in exfoliated epithelial cells
The chronobiological information that can be extracted from exfoliated epithelial cells depends on the techniques used to isolate cellular material or the manipulation of physiological parameters (Figure 1) and on the affinity of interactions of clock molecular components with stable molecules, such as DNA or the persistence of the physiological effects that they believed to be acquired with a stability related to the original tissue 73 and to the time of day. 74 may speculate that quiescent cells, such as synchronizers as well as in their output in rodent models 82 as well as in human data. 72Future studies could employ epigenetic tags to delineate the onset of acquisition of a stable epigenetic profile as a way of exploring clock gene regulation in peripheral organs.
o d a mucosa.Contudo, a interpretação dos dados obtidos de células exfoliadas é complicado pelas condições de isolamento e da saúde do sujeito.A exfoliação é: a) uma perda natural de células implicando um sinal m o l e c u l a r re la c i o n a d o a o t u r n o v e r t e r m i n a l d e células diferenciadas e à progressiva mobilização de c é l u l a s p ro l i f e r a t i v a s e d e c é l u l a s t ro n c o o u b ) o re s u l t a d o d e a p l i c a ç ã o d e f a t o re s m e c â n i c o s c o m o r a s p a g e m .D e p e n d e n d o d o m é t o d o d e i s l o l a m e n t o , a c re d i t a -s e q u e p o d e m e s t a r e m a p o p t o s e o u e m a n o i k i s .A m a i o r p a r t e d o s e s t u d o s t e m u t i l i z a d o exame microscópico para demonstrar a presença de células típicas com medições sobre um número limit a d o d e b i o m a rc a d o re s .A p e n a s u n s p o u c o s e s t u d o s u s a n d o p ro t e ô m i c a o u t r a n s c r i p t ô m i c a e s t ã o disponíveis e discutem sobre referenciais de tecidos e normalização.A principal vantagem de medidas realizadas em células epiteliais exfoliadas é que elas são estritamente não invasivas e abertas à possibilidade de avaliar a maturação de tecidos gástricos e intestinais em experimentos de longo prazo feitos no mesmo animal ou em pesquisas translacionais com amostras obtidas de crianças pré-termoIntroductionExfoliated or sloughed epithelial cells are naturally lost by mammals in their environment.These cells represent valuable tools for the study of the epithelial cell physiology of the mucosa and for predicting the outcome of nutritional/clinical intervention studies.Recovery of exfoliated cells from biological fluids is a non-invasive technology which is in high demand in the field of translational research as well as during long-term experiments designed to minimize the sacrifice of long-lived or precious animals.
However, there are clear clinical histochemical limitations to biopsies or organ explants.The detection of clock gene products through biopsies of oral mucosa, 8 skin 8,9 or colon 10 cannot be used for long-term nutritional/intervention studies.Moreover studies of chrononutrition or chronopharmacology need to go beyond the relatively simple detection of molecules coded in the presence or absence of clock components.Investigators would like to be able to measure, at least, the difference between morning and evening parameters.Preferably, they wish to measure clock gene expression over at least three consecutive circadian cycles every 1-4 hours.Recent developments in the concept of epithelial homeostasis and the role of exfoliation in preserving epithelial architecture 11 should be reevaluated to enable the use of these cells in neonatalogy to invesbeen achieved in the efficient recovery of exfoliated epithelial cells, thereby allowing circadian clock molecular components to be recorded in situation where biological fluids can be collected regularly enough over time.This review presents new concepts in the understanding of exfoliation and the influence of methodology on the isolation of exfoliated epithelial cell phenotypes, and, finally, speculates on the stability of biological information in such cellular material with a special emphasis on the regulation of peripheral circadian clocks.
in the environment due to external mechanical forces, such as brushing or friction.Such forces have a deep effect on the epithelium architecture but rapidly yield high quantities of so-called normal epithelial cells.Manual exfoliation involves the brushing or scraping of the oral epithelium of the cheek or tongue; 42 cervical 43 or rectal swabbings 31 ; Exfoliated cells are recovered by hand from gastric fluid aspirates and the stool of preterm infants hospitalized in a neonatal intensive care unit.In this case, digestive fluids are not always directly available to scientists and a technical procedure has been designed to avoid delays.First, digestive fluids have to be kept at room temperature and away from direct sun light to preserve cell viability, preferably for no more than 20 min.Then samples are stored directly at -70°C or snap frozen using liquid nitrogen.Storage at 4°C or at -20°C does not provide good results (at -20°C) probably due to the formation of ice crystal with deleterious effects on the thawing of cell structures.The one-hour transportation problem can also be overcome by immersing gastric aspirates or stool in Dulbecco's growth medium supplemented with D-glucose and L-glutamine, 3 although the loss of pertinent chronobiological information may be considerable under these conditions of conservation.
30 ; the exfoliated cell populations may contain other cell types, most notably lymphocytes and plasma cells.It should be stressed that the problem of cross-contamination by other sources of exfoliated epithelial cells, such as the contamination of breast cells from milk with the gastric cells of lactating infants or of exfoliated cells by instruments, is particularly difficult to avoid, pointing to a need to develop biomarkers of tissue origin which can identify the origin of the cells in a cost-effective manner.
stool passage.According to Loktionov, 31 few colonocytes can be usually obtained in this way, whereas squamous cells of the anal canal epithelium often dominate the pool of isolated cells.Direct observation of colon cells recovered from preterm infants have not taken this possibility into account 3 and more studies are needed to design a phenotyping strategy that enables clear identification of colonocytes and squamous cells from the anal canal.Exfoliated cells are studied using fixed cell immunofluorescent imaging, proteomics or transcriptomics (microarray technology).The methodology for recovering exfoliated cells is difficult to standardize and relies heavily on a cytological approach to minimize misinterpretations arising from microbial contamination or the presence of cells of different origin.Single-cell methods provide important information on the mean and variance of cell responses, but allow far fewer signals to be measured than is the case with proteomics or transcriptomics. 57Direct measurement using fluorospectrometry on live purified cell preparations would be provide valuable information, as normal tissue or diseased tissue (inflammation or cancer) produce distinctive spectra in vivo.Fluorescent profiles are caused by nicotinamide adenine dinucleotide (NADH), tryptophane, tyrosine and may help to outline the physiology of the epithelial cells.Profiles of normal gastric mucosa have been reported by Silveira et al., 58 although, after sampling, the fluorescence profiles of tissue biopsies are rapidly lost.Furthermore, spectral analysis of freshly isolated exfoliated epithelial cells remains unreported, probably because of the low numbers of exfoliated cells obtained and the sensitivity of the instruments.
protein can be used to counter normalization problems associated with quantification of clock components in epithelial cells of unknown origin.Beta-actin (P60709) is also useful to include in the normalization matrix, in view of its abundance and ubiquity.Of the circadian regulated proteins, alpha-enolase (P06733) was systematically detected by Lenaerts et al.,64 in scrapings from the large intestine.In the case of exfoliated cells from the cervix, Steinau et al.43 have found that around 80% of genes are expressed in exfoliated cells compared to the total cell extract of a single corresponding tissue used as reference.Global proteomics has also been used to explore the difference between Rev. Bras.Saúde Matern.Infant., Recife, 10 (1): 13-24, jan./ mar, 2010 Kaeffer B exfoliated breast cells.39Normalization remains hazardous, as the quantity of cellular material is often very low and frequently below the present levels of detection using 2-D gel electrophoresis.Up to now, global proteomics has been of little use in analyzing exfoliated cells, in view of the difficulties encountered with proper labeling of cell populations that are frequently below 1,000.Such a labeling technique on 1,000 cells has been described by Sitek et al.65 and involves performing fluorescence dye saturation labeling in combination with high resolution two-dimensional gel electrophoresis, but the methodology has not yet been applied to exfoliated cells.Reddy et al.66 pooled the livers of six mice to obtain reliable results regarding the circadian rhythm of hepatocyte proteomes using two-dimensional difference gel electrophoresis.Again current animal models may help to circumvent the problem of the scarcity of reference materials as well as to allow efficient pooling of exfoliated epithelial cells.
induce.Cells have to process diverse signals such as temperature, pH, and nutrient concentrations in order to maintain a normal physiology.In vivo, cells are believed to use clocks to organize and adapt cellular metabolisms and coordinate three-dimensional macromolecular organization (their phenotype) in a noisy molecular environment (molecular signals criss-crossing within and between cells and irrelevant chemical messages).This process has been formalized by Tan et al. 71 in a genetic model that is useful for understanding signal processing and the influence of cellular noise on the reliability and speed of frequency-signal transmission.Exfoliated epithelial cells in anoikis can be seen as a way of obtaining chronobiological information dating back from the time the cells peeled from the surface of the functional unit.According to the mathematical model of Tan et al., 71 relevant biological information can be encoded in the amplitude or the frequency domains of a signal.Signals encoded in the amplitude domain are predominantly based on concentrations of signaling molecules, a parameter difficult to measure in exfoliated cells in anoikis without proper normalization at the single cell level in highly purified cell phenotypes.In addition, some highly labile biochemical modifications, such as phosphorylation, are probably lost during the storage of biological fluids and in the isolation process or can be made irrelevant to the pathophysiology of the mucosa due to the turn-over of the signal by the cellular machinery.However according to Gallego and Virshup, 72 the addition of phosphatase inhibitors to cell extracts can preserve period proteins.Rev. Bras.Saúde Matern.Infant., Recife, 10 (1): 13-24, jan./ mar, 2010 Significant improvements in the quality of cell extracts may be achieved using extraction bufffers suitable for preserving clock gene products.The biological information encoded in the frequency domain of an oscillatory signal can be transmitted as concatenated signals with multiple biologically significant signals to gene behind the regulatory sequence within the promoter.In transgenic mammals, oscillations can be measured by recording rhythms of light emissions by cells in which the promoter of some clock gene is linked to a luciferase reporter.In humans or non-transgenic mammals, oscillations per se cannot be measured in the absence of spectrofluorimetric methods applicable on freshly recovered living cells but indirect evidence of genecircuit activation may be recovered.Long-lasting or resilient information may be accessible either: a) by way of the machinery of transcription at the site of fixation on the DNA of the cells or b) using the histone code, as these epigenetic modifications are epithelial gastric cells, retain fully functional clocks i. e. consistent information with their time at exfoliation and subsequent cell survival outside the organism.The induction of gastric cell exfoliation by the nutrient cycle developed in rats by Aoyama et al.24 that we have adapted to lactating rat pups32 could be used in the future to address questions regarding the stability of clock information during anoikis.Exfoliated epithelial cells can be followed by microscopic examination from the initial step of loss of contact at the mouth of the gastric gland to the recovery of cells in the stomach lumen.In addition, the model is clearly relevant to clinical situations in which patients are equipped with nasogastric tubing.However, there may be tissue-specific differences in the molecular composition of the circadian clock, and clock components that have subtle effects on the central clock function may play a more prominent role in the regulation of peripheral clocks.Yagita et al.,75 have used spontaneously immortalized mouse embryo fibroblasts to explore the main clock components (proteins and mRNA) suggesting that peripheral clocks in cultured cells may be similar in composition and regulation as the central clock, but all these components are not always present in cells, depending on their tissue origin.The most striking example is the apparent redundancy of the clock in relation to its homolog, npas2, the two being largely equivalent molecules with strict structural differences.76,77Exfoliated epithelial cells, after losing contact with the extracellular matrix survive by activating autophagy.Three main physiological pathways have been described associated with the regulation of autophagy: AKT (energysensing), EGR-R (growth factor-sensing) and bcl-2 (stress-related programmed-cell death).According to Gan et al.,78 mTOR downregulation is also observed subsequent to extracellular matrix detachment.Clock components are probably also altered during this process but there are no data on the relation between autophagy and clock regulation.By contrast, explants of tissue isolated from transgenic rats for the period1 gene provide some chronobiological information about the chaotic expression of this gene under the drastic external conditions of explantation.79Records of the luminescence emitted in vitro by explants maintained in classic tissue culture conditions (37°C, 5% CO 2 ) have clearly shown that the chaotic light emissions from the transgene system continue for 12-14 hours and that, thereafter, the rhythms of light emissions from liver explants are organized according to an oscillatory model reminiscent of period1's in vivo oscillations (as described in Stokkan et al. 79 ) The phase of the peak has been recorded during the first subjective day in culture i. e. between 12 and 36 hours, in order to compare explants from rats maintained on ad libitum feeding with rats on restricted feeding.To avoid such chaotic evolution with the loss of chronobiological information, experimenters use mechanical mucosal punches, which are immediately snap frozen in liquid nitrogen.This strategy is a reliable but invasive solution for studying clock gene expression in time series.Otherwise, tissue biopsies can be explanted in culture to derive primary cells or cell lines and record clock functioning in exactly the same way as with exfoliated cells.However, cell lines have lost contact with body's network and their clock systems are probably quickly reorganized to attune to their new in vitro environment. 80,81In short, clock-related information has not yet been extensively studied in exfoliated cells.Recent data on the molecular biology of clock components indicate that central and peripheral clocks differ in their coupling with the different categories of

Exfoliation is either a natural process to preserve tissue architecture or the result of external mechanical constraints
30,48from an original antibody, as described by