Calcium Participates in Secretion of Porphyrin from Shell Gland Epithelial Cells of Japanese Quail ( Coturnix coturnix japonica )

To investigate factors involved in the secretion of protoporphyrin IX (PpIX), a superficial eggshell pigment, from shell gland epithelial cells of Japanese quail, we cultured cells in Ham’s F12 medium with calcium chloride and quail plasma. The addition of hormones (prostaglandin F2α, progesterone, estradiol-17β) to the medium did not change the PpIX concentration in the culture supernatant, but changing the calcium chloride (CaCl2) concentration did: a lower concentration of CaCl2 led to a higher PpIX concentration; 0 mM CaCl2 enhanced the secretion of PpIX from epithelial cells prepared at 5 or 7 mM CaCl2. The result suggests that a drop in concentration of CaCl2 mimics the end of shell calcification and stimulates rapid secretion of PpIX in vivo. Bovine serum albumin was almost as effective as quail plasma for PpIX secretion in culture, and would facilitate further study of the mechanism of PpIX secretion.


Introduction
Bird eggshell coloring depends on superficial pigments [1] [2] [3] [4].Japanese quail eggshells are pigmented with protoporphyrin IX (PpIX).The PpIX is accumulated by the shell gland epithelial cells [5] [6] and secreted onto the shell surface 3.5 -2 h before oviposition [5] [7] [8].Factors involved in this process may be oviposition-related hormones such as prostaglandins, arachidonic acid, and arginine vasotocin; hormones injected in vivo induced oviposition and se-O.Kai cretion of the pigment from the shell gland [9], and the level of secretion increased with the dose of prostaglandin F2α and arachidonic acid [10].The involvement of prostaglandin was verified by intrauterine injection of indomethacin, which abolished shell pigmentation [11].
An in vitro culture system established to probe PpIX secretion by shell gland epithelial cells [12] can shed further light on the mechanisms.As well as oviposition-related hormones, calcium may be a candidate, because secretion begins when shell calcification ends.The aim of this study was to clarify whether calcium is a factor by using the in vitro culture system.

Experimental Birds
We used Japanese quail ≥ 10 weeks old and laying on a regular clutch.The quail were individually caged in a windowless environment-controlled room under a cycle of 14 h light/10 h dark.Food and water were available ad libitum.The oviposition times of each quail were automatically recorded (Egg Counter, O'Hara & Co., Ltd.Tokyo, Japan) and estimated oviposition time was calculated from former several days' oviposition time.Quail laying on a regular clutch were selected and used at a certain time before estimated oviposition or after actual oviposition.All procedures were conducted in accordance with the guidelines for animal experiments, College of Bioresource Science, Nihon University.

Collection of Egg Shells and Measurement of PpIX
Eggs were collected at 5, 3, or 0.5 h before estimated oviposition or 1 h after oviposition.Shells removed of shell membrane were extracted in 6 mL hydrogen chloride-methanol solution (1:1, 20% HCl and 100% methanol) for 24 h in the dark at room temperature.After centrifugation (1600× g, 5 min, 4˚C), the supernatant was collected; 100 µL was placed in each well of a 96-well culture plate (#3860-096, Iwaki, Tokyo, Japan) and the fluorescence was determined on a Synergy 2 Multi-Mode Microplate Reader (BioTek Instrument Inc., Winooski, VT, USA) using a 400-nm, 30-nm-bandwidth excitation filter and a 620-nm, 40-nm bandwidth emission filter [12].The fluorescence intensity was used as the value of PpIX.

Isolation of Shell Gland Epithelial Cells and Measurement of PpIX
The shell gland epithelial cells were collected from the same quails as in 2.2.The cell layer was isolated from the shell gland epithelium as described [12].In brief, the tissues were placed in Ham's F12 medium (Nissui Pharmaceutical, Tokyo, Japan) with 5 mM CaCl 2 (Nacalai Tesque, Tokyo, Japan) and 0.001% collagenase (Wako, Tokyo, Japan) or in the same volume of Accumax cell dissociation solu- and stood for several minutes to allow unseparated tissues to settle out.This process was repeated until the supernatant was clear.Then the supernatant was centrifuged (30× g, 5 min, 4˚C) once more.The sediment was used as shell gland epithelial cells in experiments.For some experiments (e.g. Figure 2), unincubated cells were resuspended in Ham's F12 + 20% HCl (final, 4%), stirred vigorously, and centrifuged (2000× g, 5 min, 4˚C), and PpIX in the supernatant was measured promptly as in 2.2.

Culture of Shell Gland Epithelial Cells and Measurement of PpIX
The isolated epithelial cells collected at 5 h before estimated oviposition were counted and adjusted to 2 × 10 and the values were defined as PpIX in the cells.

Culture of Shell Gland Epithelial Cells in Hormones or Charcoal-Treated Quail Plasma
To test the effect of hormones, we individually dissolved Prostaglandin F2α Tris salt (PGF2α; Sigma, Tokyo, Japan), Progesterone-water soluble (P4; Sigma), and β-Estradiol-water soluble (E2; Sigma) in 0.22-µm-filter-sterilized PBS.Five µL of hormones were added at either 200 or 2 µM (PGF2α, P4) or at either 200 or 2 nM (E2) to cell suspension (total, 250 µL in Ham's F12 medium with 5 mM CaCl 2 ).To exclude steroid hormones from plasma, we mixed half of the quail plasma with activated charcoal powder (Wako) at 0.02 g/mL overnight with stirring at 4˚C.The sample was centrifuged (1600× g, 20 min, 4˚C), then the supernatant was centrifuged again (5000× g, 40 min, 4˚C).The supernatant was filtered at 0.45 µm and used as charcoal-treated plasma.The other half of the plasma was left untreated.Cells collected at 5 h before estimated oviposition were cultured as described in 2.4.After incubation, 200 µL of culture supernatant was collected and mixed with Ham's F12 + 20% HCl (final, 4%), stirred vigorously, and measured as described in 2.2; the values were defined as PpIX secreted from the cells.

Culture of Shell Gland Epithelial Cells in Different Concentrations of CaCl2
We prepared 1 M CaCl 2 solution in Ham's F12 medium, diluted in the medium, and added 15 µL of diluted solution to the cell suspension (final, 250 µL) to a final concentration of 2, 3, 5, or 7 mM.Cells collected at 5 h before estimated oviposition were prepared and cultured as described in 2.4.After incubation, 200 µL of culture supernatant was collected and measured as described in 2.5; the values were defined as PpIX secreted from the cells.

Culture of Shell Gland Epithelial Cells with Bovine Serum Albumin
We added 25 µL of 10% BSA (Wako) dissolved in sterilized PBS (final, 1%) or 10 µL of quail plasma to cell suspension collected at 5 h before estimated oviposition (total, 250 µL in Ham's F12 with 7 mM CaCl 2 ).After 1 h incubation, we removed 200 µL of culture medium (1st culture) and added 200 µL of fresh medium (Ham's F12 with 0, 3, or 7 mM CaCl 2 ) and cultured it for a further 2 h (2nd culture) in an incubator (5% CO 2 , 37˚C).After incubation, 200 µL of culture supernatant was collected and measured as described in 2.5; the values were defined as PpIX secreted from the cells.

Data Analysis
All data obtained from 3 wells per quail were averaged.Data from all experiments were analyzed by Tukey-Kramer's HSD multiple range test or Student's t-test.Correlations were tested with Pearson's coefficient.Values were determined to be significant at P < 0.05.

Appearance of Eggs and Shell Gland Epithelium in Relation to Time of Oviposition
Figure 1 shows the appearance of eggs and shell gland epithelium at an estimated 5 and 3 h before oviposition and 1 h after oviposition.Eggs collected at −3 h varied in appearance.

Porphyrin Concentrations in Relation to Time of Oviposition
The PpIX concentration (indicated by fluorescence intensity) in eggshell increased significantly from −5 h to −3 h to +1 h (Figure 2).The concentration in the epithelial cells also increased marginally before oviposition, but decreased greatly at −0.5 h.At −3 h, the correlation between eggshells and cells was significantly negative (n = 7, Pearson's r = −0.927,P < 0.01%).

Effect of Hormone Addition to Culture Medium on PpIX Secretion from Cells
To explain the rapid disappearance of PpIX from the epithelial cells just before  oviposition (Figure 2), we cultured cells in medium containing charcoal-treated plasma with or without hormones, untreated plasma, or plasma-free medium.None of the hormones had a significant effect on PpIX secretion relative to charcoal-treated plasma (Figure 3).The charcoal-treated plasma had no significant effect relative to untreated plasma.However, the untreated plasma significantly increased secretion relative to plasma-free medium (P < 0.01, Student's t-test).).There were no significant differences between charcoal-treated plasma and any hormone (P < 0.05, Tukey-Kramer's HSD multiple range test) or between charcoal-treated plasma and untreated plasma.There was a significant difference between untreated plasma and culture medium (**P < 0.01, Student's t-test).

Effect of CaCl2 Addition to Culture Medium on PpIX Secretion from Cells
We cultured cells for 4 h in medium with three concentrations of CaCl 2 with or without quail plasma.At 0 h, the PpIX concentrations of the cell culture supernatants were the same in all 6 groups (Figure 4(a)).After 4 h, however, they were much greater with plasma than without, and PpIX was significantly higher at 0 mM CaCl 2 than at 2 and 5 mM (Figure 4(b)).The cells, in contrast, had the same PpIX concentration after 4 h incubation as at 0 h regardless of the concentration of CaCl 2 added to the culture medium (Figure 5).

Effect of Time of Plasma Collection on PpIX Secretion from Cells
The plasma used in the culture medium was collected at any time and pooled, or was collected 5 h before oviposition.So we compared plasma collected 5 h before oviposition with plasma collected just after oviposition (0 h plasma).PpIX concentrations were significantly higher in plasma collected 5 h before oviposition at all levels of CaCl 2 than in plasma-free medium (Figure 6).On the other hand, they were not significantly different between 0 h plasma and either 5 h plasma or plasma-free medium (Tukey-Kramer's HSD multiple range test), or among the CaCl 2 levels in either plasma treatment (Student's t-test).

Effect of Culture with BSA on PpIX Secretion from Cells
We tested BSA as a substitute for quail plasma.In the first culture, the PpIX concentration in BSA-medium lay midway between those with and without 0 500 1,000    In the second culture, the PpIX concentrations in plasma-medium were significantly higher than those in plasma-free medium at all three CaCl 2 levels (Figure 7(b)).Those at 3 and 7 mM CaCl 2 were significantly lower in BSA-medium than in plasma-medium, but those at 0 mM CaCl 2 groups did not differ significantly between BSA-medium and plasma-medium (Student's t-test).Those at all CaCl 2 levels in BSA-medium were significantly higher than those in plasma-free medium, respectively (Student's t-test).

Discussion
The shell of the quail egg is unevenly spotted with a superficial layer of pigment formed after shell deposition is complete [5].The pigment, PpIX, is secreted onto the shell surface 3.5 -2 h before oviposition [5] [7] [8].The eggshells that we collected about 3 h before oviposition had a range of pigmentation (Figure 1), and there was a significant negative correlation between PpIX concentrations in eggs and cells collected at that time.These results suggest that secretion of the PpIX from the shell gland epithelial cells onto the shell surface occurs quickly.
In vivo experiments showed that both prostaglandin F2α and arachidonic acid participate in the events [9] [10], but further evidence requires in vitro experimentation.We developed a method of incubating epithelial cells in vitro and measuring PpIX secretion by a spectrofluorometer [12].We used that method here to identify factors involved in the secretion of PpIX from epithelial cells.
Our results show that the addition of quail plasma to the culture medium significantly increased PpIX in the medium [12], and therefore unidentified factors in the plasma facilitate the secretion of PpIX.
In vivo experiments suggested that the injection of quails with prostaglandin F2α induced pigmentation [10] and indomethacin inhibited it [11].However, our results show that neither PGF2α nor P4 or E2 enhanced the secretion of  O. Kai PpIX from epithelial cells.Verification of this result will require a wider range of concentrations used in this study.
Calcium is another candidate, since calcium carbonate is a major component of eggshell, and the shell gland of a laying hen transports 2.0 -2.5 g of Ca within 15 h for the calcification of a single egg [13].In white Leghorn hens, the secretion of Ca from the shell gland increases ~7 h after ovulation, reaches a maximum as the shell is being formed, and falls to the basal rate after shell formation is complete [14], and the time of pigmentation coincides with the completion of calcification [5].This role exposes shell gland epithelial cells to high Ca levels during shell formation.To test whether Ca participates in PpIX secretion in vitro, we prepared cells first in a high-Ca environment (Ham's F12 medium + 5 mM CaCl 2 ) and then measured secretion in medium with 0, 2, or 5 mM CaCl 2 .
The secretion of PpIX was significantly higher with 0 mM CaCl 2 than with 2 and 5 mM (Figure 4).This result suggests that changing the Ca level from high to low increased the secretion of PpIX by mimicking the environment of the shell gland epithelial cells and the timing of the ending of calcification of the shell in vivo.Therefore, the reduction of the CaCl 2 concentration is a factor in the secre- tion of PpIX from the shell gland epithelial cells.
Since the addition of quail plasma was necessary for enhancing PpIX secretion in vitro (Figure 3, Figure 4, Figure 6), it may be another factor involved in secretion.Domestic poultry, including Japanese quail, have a ≥24-h ovulation-oviposition cycle [13].Ovarian hormones and other factors in blood change widely within the cycle, so the timing of blood collection is important.However, the secretion of PpIX was slightly but not significantly lower in plasma collected just after oviposition than at 5 h before oviposition (Figure 6).Further experiments will be necessary to identify other factors in the plasma that affect PpIX secretion.
The use of BSA had comparable effects to the use of quail plasma, especially at 0 mM CaCl 2 and after only 2 h incubation (Figure 7).Ovalbumin at the same concentration also significantly increased PpIX secretion (data not shown).
Therefore, albumin in plasma may be an important factor in PpIX secretion.As BSA is widely used in laboratory experiments, its use in place of quail plasma may further the study of PpIX secretion.
To our knowledge, our results represent the first observation of the participation of calcium in the secretion of PpIX from shell gland epithelial cells in vitro.The methodology would be suitable for the in vitro study of secretion mechanisms.

Conclusion
We used an in vitro

Figure 1 .
Figure 1.Photographs of quail eggs (upper panels) and their shell gland tissues (epithelial side, lower panels).Negative times (−5, −3 h) are based on estimated oviposition calculated from former several days' oviposition time.Eggs and tissues at −3 h varied in appearance.

Figure 3 .
Figure3.PpIX concentration (shown as fluorescence intensity) in culture medium after incubation of shell gland epithelial cells without or with hormones, charcoal-treated plasma, or untreated plasma.Values are means ± SEM (n = 3 -7).There were no significant differences between charcoal-treated plasma and any hormone (P < 0.05, Tukey-Kramer's HSD multiple range test) or between charcoal-treated plasma and untreated plasma.There was a significant difference between untreated plasma and culture medium

Figure 6 .
Figure 6.PpIX concentration (shown as fluorescence intensity) in culture medium after incubation of cells for 4 h in medium without or with 4% plasma collected 5 h before oviposition or just after oviposition (0 h).Values are means ± SEM (n = 3).Different letters indicate significant differences (a, b: CaCl 2 level within plasma treatment, x, y: between plasma treatments within a CaCl 2 level, P < 0.05, Tukey-Kramer's HSD multiple range test).
cell culture system to identify factors involved in the secretion of PpIX from shell gland epithelial cells of Japanese quail.The PpIX concentration in culture medium containing quail plasma depended on the concentration of CaCl 2 but not on the presence or concentration of hormones.The DOI: 10.4236/ojas.2019.91013159 Open Journal of Animal Sciences O. Kai rapid drop of CaCl 2 concentration in the culture medium might mimic the environment of the cells and the timing of the end of shell calcification in vivo, and thus might be an important factor in triggering PpIX secretion.