Formation of crystalloid inclusions in the small intestine of neonatal pigs: an immunocytochemical study using colloidal gold

Histopathological, immunohistochemical, and ultrastructural evidence of spontaneous Senecavirus A-induced lesions at the choroid plexus of newborn piglets

Epidemic Transient Neonatal Losses (ETNL) is a disease of piglets caused by Senecavirus A (SVA) in which the method of dissemination and associated lesions are not well-defined. This study investigated the possible SVA-induced lesions by examining spontaneous infections in newborn piglets. Histopathology revealed ballooning degeneration of transitional epithelium, nonsuppurative meningoencephalitis, plexus choroiditis, and atrophic enteritis. RT-PCR identified SVA in all tissues evaluated and sequencing confirmed these results. Positive immunoreactivity to SVA was observed in endothelial and epithelial tissues of all organs evaluated. Semithin analysis revealed vacuolization of apical enterocytes of the small intestine, balloon degeneration and necrosis of endothelial cells of the choroid plexus (CP) and nonsuppurative choroid plexitis. Ultrathin evaluation demonstrated hydropic degeneration of apical enterocytes, degeneration and necrosis of endothelium of CP fenestrated capillaries, degeneration of ependymocytes associated with intralesional viral particles. It is proposed that SVA initially infects apical enterocytes of newborn piglets and probably enters the circulatory system with entry to the brain via the CP, by first producing an initial inflammatory reaction, with subsequent encephalitic dissemination. Consequently, SVA probably uses an enteric-neurological method of dissemination.

Anatomical particularities of the porcine immune system--a physician's view

In this article the anatomical structure of the porcine immune organs is described. The focus is on their particularities that are related to the use of pigs as an animal model. Key issues of the intrauterine development of the lymphoid organs are presented, such as the specific epithelio-chorial placenta, the appearance of the thymic tissue and the initial development of B cells. The role of the thymus for the development of alpha/beta and gamma/delta T cells and the location of tonsillar tissue in the naso-pharynx, in the oral cavity and at the basis of the tongue are described. The porcine spleen is of interest for surgical techniques to treat splenic trauma adequately. The observation of the inverted lymph node structure of pigs is puzzling and it remains unclear why only few species have this distinct morphological organisation. Based on the functional differences in lymphocyte recirculation observed in pigs, specific lymph cannulation experiments are possible in the porcine immune system. The porcine intestinal lymphoid tissue and the lymphocytes in the mucosal epithelium and lamina propria are of interest for studying the gut immune responses. For use as a model the fact that the pig is a monogastric omnivorous animal represents an advantage, although the porcine ileal Peyer's patch has no obvious anatomical equivalent in man. Based on the detailed knowledge of porcine immune morphology the pig is suitable as model animal for immunology--in addition to the various experimental approaches in physiology, pharmacology, surgery, etc. that are applicable to human medicine.

The pig as a model of developmental immunology

There are many limitations to analyse the developing immune system in humans, thus there is need for experimental animal models to study the environmental influences during the ontogeny of the immune system. However risk assessment is difficult in using rodent models alone, especially as the intrauterine period of development is much shorter than that of humans. In addition to studies in dogs, the pig provides a variety of experimental approaches for developmental immunotoxicology. The gestation period is 115 days and the occurrence of the different lines of T and B lymphocytes in the blood and organs of the porcine embryo and fetus is well documented. Fetal porcine B cells represent a naive population developing without maternal idiotypic-antiidiotypic influences. The postnatal development is highly correlated to sufficient uptake of colostrum during the first 48 hours. Although many immunotoxicological experiments have been performed, there is a limited number of original publications about these studies. With the different strains of standard pigs and miniature pigs available and the rapid growing amount of immunological reagents, the pig represents an important experimental model for cost-effective studies in developmental immunotoxicology to analyse the risk of environmental hazards.

Epidermal expression of the full-length extracellular calcium-sensing receptor is required for normal keratinocyte differentiation

The importance of the extracellular calcium-sensing receptor (CaR) in the stringent control of extracellular Ca(2+) concentration is well established. However, the presence of CaR in tissues not directly involved in regulating mineral ion homeostasis such as the epidermis suggests a role for CaR in other cellular functions. Although extracellular Ca(2+) regulates the differentiation of epidermal keratinocytes, the role of CaR in this process in the epidermis is not fully understood. In this study we showed using in situ hybridization and immunohistochemistry that CaR is expressed in suprabasal keratinocytes of the mammalian epidermis. We then evaluated the changes in epidermal keratinocyte morphology and differentiation in Casr(-/-) mice lacking the full-length CaR. These mice show increased expression of an alternatively spliced form of CaR which lacks acute Ca(2+)-signaling properties. The absence of the full-length CaR in the epidermis resulted in ultrastructural changes (abnormal keratohyalin granule formation and precocious lamellar body secretion) in the terminally differentiated granular keratinocytes. Furthermore, the expression of both mRNA and protein for the calcium inducible keratinocyte differentiation markers, filaggrin and loricrin, were down-regulated in the epidermis of Casr(-/-) mice, whereas the number of proliferating cells were increased even though the calcium gradient within the epidermis was enhanced. Our results demonstrate that the epidermal expression of the full-length CaR is required for the normal terminal differentiation of keratinocytes.

Postnatal development of lymphocyte subsets in different compartments of the small intestine of piglets

In contrast to rodents, all compartments of the porcine small intestine contain lymphoid cells at birth. During the first few days of life maternal antibodies and leukocytes are taken up by the intestinal epithelium. The number of intraepithelial lymphocytes (IEL) increases by a factor of 12 from Day 1 to Day 60, but in germfree pigs only a minor increase is observed. Immediately after birth, low numbers of T cells are present in the small intestinal lamina propria (LP), and many of these express neither CD4 nor CD8 on their surface. This type of subset composition is still present in germfree pigs at an age of 1.5 months. The appearance of IgA+ and IgM+ lymphocytes in the LP differs. Many more of these B cells are found in the LP of the crypts than of the villi. The development of the discrete jejunal Peyer's patches (PP) differs from that of the continuous PP in the terminal ileum. The lymphocyte subset composition shows the most obvious differences between conventional and germfree piglets and between the jejunal and ileal PP at an age of 1.5 months. Several markers, e.g. for antigen-presenting cells, memory T cells, M cells in the domes of PP, have recently become available for the pig. These should now be applied in experiments on pigs in the early postnatal period to study the mechanisms of the development of tolerance and protective immune reactions.

Paracrystalline structures in the epithelial principal cells of the epididymis of water buffalo (Bubalus bubalis)

The ultrastructure of many principal cells in the cauda epididymis of water buffaloes with ages varying between 4, 18, 24, 30 and 36 months, revealed, in many cells, the presence of long, curved paracrystalline structures that are quite large and frequently encountered in the cytoplasm, usually near the nucleus. Concomitantly or not, smaller rod-like, hexagonal or curled structures can be found in the nucleus. Both structures, cytoplasmic and intranuclear, are made up of a sheath of parallel filaments. These paracrystals may appear as thin, regularly spaced filaments that are associated with fine, evenly spaced subunits. Occasionally, the association of paracrystalline structures with membranes similar to the endoplasmic reticulum was observed, but no membranes were consistently found in close contact with the nuclear crystalloids. It is postulated that both structures are proteinaceous and may represent stored enzymes or substances present in the intraluminal fluid, which are absorbed and initially stored in numerous intraepithelial vacuoles of the corpus and cauda of the buffalo epididymis.

Goblet cell-specific expression mediated by the MUC2 mucin gene promoter in the intestine of transgenic mice

The regulation of MUC2, a major goblet cell mucin gene, was examined by constructing transgenic mice containing bases -2864 to +17 of the human MUC2 5'-flanking region fused into the 5'-untranslated region of a human growth hormone (hGH) reporter gene. Four of eight transgenic lines expressed reporter. hGH message expression was highest in the distal small intestine, with only one line expressing comparable levels in the colon. This contrasts with endogenous MUC2 expression, which is expressed at its highest levels in the colon. Immunohistochemical analysis indicated that goblet cell-specific expression of reporter begins deep in the crypts, as does endogenous MUC2 gene expression. These results indicate that the MUC2 5'-flanking sequence contains elements sufficient for the appropriate expression of MUC2 in small intestinal goblet cells. Conversely, elements located outside this region appear necessary for efficient colonic expression, implying that the two tissues utilize different regulatory elements. Thus many, but not all, of the elements necessary for MUC2 gene regulation reside between bases -2864 and +17 of the 5'-flanking region.

Crystalloidal paraprotein deposits in the cornea: an ultrastructural study of two new cases with tubular crystalloids that contain IgG kappa light chains and IgG gamma heavy chains

The fine structure and immunoprotein content of the crystalloids are described in two cases of paraproteinemic crystalloidal keretopathy, both of which had clinical features thought by the referring ophthalmologists to be those of atypical lattice-type corneal dystrophy (presumably because of lattice-like lines). Most keratocytes in one case were surrounded by a mantle of densely packed tubular crystalloids. Individual tubules were annular in cross section with mean dimensions as follows: overall diameter, 29.32 nm (SD 1.26); internal diameter (core), 8.53 nm (SD 1.12); wall thickness, 10.39 nm (SD 0.85) (n = 10). Crystalloids were extracellular and found only in the corneal stroma, with none in Bowman's layer or Descemet's membrane. In the second case, the tubules had a similar distribution but formed geometric arrays with no clear relationship to, or envelopment of the keratocytes. The tubules were thin-walled, with mean dimensions as follows: overall diameter, 26.12 nm (SD 1.12); internal diameter (core), 15.46 nm (SD 1.12); wall thickness, 5.33 nm (SD 0) (n = 10). In both cases the tubules were kappa-light chain- and gamma-chain-positive. Laboratory investigations revealed the presence of two IgM-kappa paraproteins and an IgG-kappa paraprotein in the serum of the first patient. The second patient had an IgG-kappa paraproteinemia and bone marrow changes consistent with low-grade non-Hodgkin's lymphoma. These cases emphasize and extend the morphological range of corneal IgG crystalloids; the second case also demonstrates that corneal IgG crystalloids may be an early indicator of un underlying immunoproliferative disease.

Suckling induces rapid intestinal growth and changes in brush border digestive functions of newborn pigs

The interplay between suckling, intestinal growth and brush-border membrane functions is critical during the perinatal period. The present study investigates changes in intestinal dimensions, activities of four brush border membrane hydrolases (lactase, sucrase, maltase and aminooligopeptidase) and rates of sugar and amino acid uptake by intact tissues and brush border membrane vesicles during the first 24 h of suckling. Total intestinal weight, mucosal weight and protein content increased 58%, 80% and 126% (P < 0.05) during the first 6 h of suckling; length and surface area did not increase. Total mucosal DNA content was 4.6-fold higher at 24 h after birth, with the rate of increase differing among intestinal regions. Hydrolytic capacities of the entire small intestine increased, more so for homogenates than for brush border membrane vesicles, and more for lactase relative to the other hydrolases studied. Rates of nutrient transport declined, especially for brush border membrane vesicles, for proximal and mid-intestine relative to distal intestine, and for glucose relative to galactose and amino acids. We conclude that 1) changes in brush border membrane digestive functions coincide with rapid intestinal growth, with postnatal patterns varying among hydrolases, transporters and regions; 2) insertion into the brush border membrane, not synthesis, limits the postnatal increase of hydrolase activity; and 3) despite declines in specific activity, hydrolytic and glucose transport capacities of the entire intestine remained stable or increased, and exceeded estimated dietary loads because of intestinal growth.

Lactase phlorhizin hydrolase turnover in vivo in water-fed and colostrum-fed newborn pigs

We have estimated the synthesis rates in vivo of precursor and brush-border (BB) polypeptides of lactase phlorhizin hydrolase (LPH) in newborn pigs fed with water or colostrum for 24h post partum. At the end of the feeding period, piglets were anaesthetized and infused intravenously for 3h with L-[4-3H]- phenylalanine. Blood and jejunal samples were collected at timed intervals. The precursor and BB forms of LPH were isolated from jejunal mucosa by immunoprecipitation followed by SDS/PAGE, and their specific radioactivity in Phe determined. The kinetics of precursor and BB LPH labelling were analysed by using a linear compartmental model. Immunoisolated LPH protein consisted of five polypeptides [high-mannose LPH precursor (proLPHh), complex glycosylated LPH precursor (proLPHe), intermediate complex glycosylated LPH precursor (proLPH1i) and two forms of BB LPH]. The fractional synthesis rate (Ks) of proLPHh and proLPHc (approx. 5%/min) were the same in the two groups but the absolute synthesis rate (in arbitrary units, min-1) of proLPHh in the colostrum-fed animals was twice that of the water-fed animals. The Ks values of proLPHi polypeptides were significantly different (water-fed, 3.89%/min; colostrum-fed, 1.6%/min), but the absolute synthesis rates did not differ. The Ks of BB LPH was not different between experimental treatment groups (on average 0.037%/min). However, the proportion of newly synthesized proLPHh processed to BB LPH was 48% lower in colostrum-fed than in water-fed animals. We conclude that in neonatal pigs, the ingestion of colostrum stimulates the synthesis of proLPHh but, at least temporarily, disrupts the processing of proLPH polypeptides to the BB enzyme.

Lenten cell: ultrastructure, absorptive properties, and enzyme expression of a novel type of cell in the newborn and suckling pig intestinal epithelium

BACKGROUND

The small intestinal epithelium is made up of columnar absorptive enterocytes and a smaller number of specialized non-absorptive cells, including goblet cells, enteroendocrine cells, M cells, cup cells, and tuft cells. During a study on milk protein absorption in newborn pigs, we identified an enterocyte that showed no uptake of milk proteins and that could be found only in the jejunum and ileum of pigs during the first 2 weeks of life. We call this previously undescribed enterocyte the lenten cell.

METHODS

We used light microscopy and transmission electron microscopy in conjunction with immunolabelling and cytochemical techniques to determine the occurrence, ultrastructure, absorptive properties, and brush border hydrolase expression of lenten cells.

RESULTS

Lenten cells constituted approximately 1-2% of the villous epithelium. They were seen in newborn and suckling pigs 1-9 days of age, but were not found in weaned pigs. Morphologically, lenten cells were spindle- or wineglass-shaped, with a ventrally sited nucleus and an electron-dense cytoplasm with numerous cytokeratin filaments. Lenten cells had a normal brush border with microvilli that were slightly thicker than those of absorptive enterocytes, but they did not express the brush border hydrolases lactase, aminopeptidase N, and alkaline phosphatase. Lenten cells did not endocytose milk proteins or horseradish peroxidase, but contained some endocytic or secretory vacuoles and a few dense granules.

CONCLUSIONS

No role for lenten cells has been identified in this study, but presence of these cells during the neonatal period, when growth and differentiation of the gastrointestinal tract is at a peak, clearly suggests that lenten cells may play a role in this process.

Localization and biosynthesis of aminopeptidase N in pig fetal small intestine

BACKGROUND & AIMS

Little is known about the expression of brush border enzymes in fetal enterocytes. The aim of this study was to describe the localization and biosynthesis of porcine fetal aminopeptidase N.

METHODS

This study was performed using histochemistry and immunoelectron microscopy and [35S]methionine labeling of cultured mucosal explants.

RESULTS

Enzyme activity was present in the brush border membrane and extended into the apical cytoplasm. The protein was colocalized with cationized ferritin at the surface of endocytic structures including coated pits, vesicles, tubules, and large vacuoles in the apical cytoplasm. The transient high mannose-glycosylated form of fetal aminopeptidase N was processed to the mature complex-glycosylated form at a markedly slower rate than the enzyme in adult intestine. Likewise, dimerization occurred slowly compared with the adult form of aminopeptidase N, and it took place mainly after the Golgi-associated complex glycosylation. The enzyme had a biphasic appearance in the Mg(2+)-precipitated and microvillar fractions, indicating that the bulk of newly made aminopeptidase N is transported to the brush border membrane before appearing in the apical endocytic structures.

CONCLUSIONS

In comparison with the adult enzyme, fetal aminopeptidase N has a more widespread subcellular distribution with substantial amounts present in apical endocytic compartments characteristic of the fetal enterocyte.