Biochanin a Versus17beta Estradiol Effect in Rat Submandibular Salivary Gland; Natural Alternative or an Endocrine Disruptor! (Transmission Electron Microscope)

s The ultrastructure of Submandibular gland [SMG] following low dose of Biochanin a [BCA] and 17beta estradiol [E2] application was observed. The pups were allocated randomly into control, BCA, E2, Dimethyl sulphoxide [DMSO] and euthanized at the 6 th , 14 th , 30 th , 60 th postnatal days [PND]. The SMG acinar and ductal structure, in addition to telocytes, were altered with the compounds of concern.

were housed in individual polypropylene cages. After mating and parturition ninety-six pathogen free female offspring was randomly allocated into four groups, twenty-four each. Group 1 was the control group. In the experimental groups the offspring was injected subcutaneously at [PND] 1, 5, 14, 21, 30, targeting developmental stages, with 500μg/g body weight of BCA, freshly prepared dissolved in an equal volume of DMSO [1:1] in group 2; 500 ng/g body weight of E2 dissolved in sesame oil in group3; while in group4 the corresponding volume of the vehicle was injected [11]. Offspring was euthanized on the 6 th , 15 th , 30 th and 60 th postnatal days [PND] [six for each time of euthanization]. The submandibular salivary gland pair were surgically removed and separated from sublingual gland, then processed for ultra-structural examination [15].
Ultrastructural examination [16,17] The procedures were done in Electron Microscopy Unit, Agriculture faculty, Mansoura University.

A.
The 1mm blocks were fixed primarily in glutaraldehyde 4% for 2 hours, then in osmic acid solution [1%] as a secondary fixation for one to two hours, washed in phosphate buffer after each fixation, dehydrated by series of ethanol alcohol, followed by 100%propylene oxide and then embedded in Epon 812.

B.
Semi thin section [1μm] were stained with toluidine blue, and then examined by light microscope to determine the spot of choice to be ultra-cut for electron microscope examination.

C.
The ultrathin sections [50nm], cut using the ultra-microtome, were mounted on grids and were double stained with uranyle acetate and lead citrate, then washed with N-NaoH and finally with fresh double distilled water and dried before transmission electron microscope examination.

Results and Discussion
The striated duct of control group showed distinguishing features of tall columnar cells arranged around the lumen, centrally located nuclei and characteristic basal folding. The acini revealed basally located nuclei with well-defined secretory granules that differed between different age groups. The compounds of concern showed changes in cell height of ductal component compared to the control group, wide intercellular spaces mitochondrial lesions, and dilation of double membrane [rough endoplasmic reticulum] were also noted especially in the striated ducts. The nuclear changes were also prominent both in acinar and ductal structures (Figures 1-4). The acinar basement membrane integrity as well as connective tissue component like telocytes was also affected in DMSO group ( Figure 5). The striated duct radial pattern of the mitochondria and the basal infoldings was more evident at 15 th PND. These results were similar to those of TEM observation in mouse submandibular gland by Pícoli et al. [18]. Several groupings of secretory granules with different diameters and structure that were noted in proaciniat 6 th & 15 th PND were in agreement with Moreira et al. [19] and Watanabe et al. [20]. They observed that the rat immature acini contain secretory cells of several types at different stages of differentiation and/or maturation, whereas the mature acini are composed only of the serous secretory cell.   with long-distance cell projections]; the thin fibrillar segments are called podomers and the dilated, cistern-like regions are called podoms. Usually found in close contact of blood vessels and nerves, acini and ducts. Telocyte was also affected by DMSO application [22][23][24]. As far as we know this is the first documentation of presence of telocytes in submandibular gland. The presence of telocyte was also observed by Nicolescu et al. [25] in the interlaminar

MRD.000596. 4(5).2019
and the sub ductal stroma of parotid gland, and in minor salivary glands of primary Sjogren's syndrome by Alunno et al. [26]. The ultrastructure unexpectedly revealed another aspect of BCA and E2 properties reflected on the increased height of the striated duct cells, wide intercellular spaces and bizarre shaped nuclei, not consistent with the normal developmental apoptosis or autophagy. This might be due to the effect of BCA & E2 on the DNA.
Concomitantly Jefferson et al. [27] revealed that biochanin A and daidzein [isoflavone] affect hormonal endpoints such as increasing uterine gland number and cell height but without increasing uterine weight. In the present study, the secretory granules were of different size and shape and rough endoplasmic reticulum was dilated suggesting that BCA might have modulated the secretory function of the gland. The precise mechanism is not known. Both acinar and ductal component showed changes in nuclei and dilation of rER. In the 30 th & 60 th PND, the BCA, E2 and DMSO groups, showed altered nuclei and cell organelles in electron microscopy results. These results similar to that of De Rijk et al. [28]. who revealed absence of rows of mitochondria and [pseudo]luminal structures formed by variably sized cell, as result of steroid application for long period. Although dilated rough endoplasmic reticulum is associated with reversible cell injury [29], the observed dilatation of RER cisternae in the experimental groups of the current study was a sign of cell injury rather than a sign of increased secretory activity. Vacuolation may be explained as dilated RER cisternae or swollen mitochondria with destructed cristae. Vacuolation may be due to functional loss and disturbed structural integrity of their membranes in the absence of nuclear fragmentation [30] or represents DNA changes in the cell [31] The electron examination revealed alteration of the chromatin condensation either by loss in the peripheral arrangement in some areas or coarse, asymmetric aggregation of densely packed heterochromatin seen in BCA, [sometimes with rupture of nuclear membrane] and E2 groups. The alteration of chromatin spatial arrangement is proposed to alter the macromolecules diffusion inside the nucleoplasm and therefore alters the chromatin's accessibility to transcription factors. Unfortunately, such structural chromatin alterations represent the microscopic characters of pre-neoplastic cell nuclei that probably drive the changes in gene expression during neoplastic transformation [32,33]. The distortion observed in DMSO group agrees with Yuan et al. [34] observations. They revealed caspase-3 activation, decreased cell viability, mitochondrial distortion and membrane potential impairment in astrocyte cell culture after exposure to DMSO. The ability of DMSO to cause membrane loosening, pore formation and bilayer collapse may be responsible for the structure distortion [35].

Conclusion and Remarks
Submandibular gland is targeted by endocrinal disruptor. The degree of damage might be dependent on the window of sensitivity and time of exposure. The use of low dose of Biochanin A should be avoided during early stages of development and growth; further investigation is needed for BCA usage with solvent other than DMSO to avoid the toxicity. Biochanin A affected the gland component not only on the morphological structure.