Impaired biliary secretion of immunoglobulin A in vitamin A-deficient rats

The effect of vitamin A deficiency on biliary secretion of IgA was investigated. Rats used in this study were rendered vitamin A deficient following withdrawal of retinoic acid from the diet of retinoate-cycled animals. This procedure allows a precise control of both the onset of deficiency and dietary protein-energy input. Defective synthesis and transport of IgA antibodies into the bile was evident when vitamin A-deficient rats (A-) were immunized by injections of either Brucella abortus or sheep red blood cells directly into the Peyer's patches. Antibody titers in the bile of A- animals were significantly lower than those of A+ controls (P less than 0.01). These A- rats also had significantly lower levels of total IgA in the bile compared with A+ controls (P less than 0.05). Moreover, the transport of labeled rat IgA injected intravenously was adversely affected in these animals. These results, together with our previous report on the impaired intestinal antibody in A- rats, clearly indicate that vitamin A deficiency interferes with the transport of IgA antibodies into the bile of these animals.     

Effect of DDT on hepatic mixed-function oxidase activity in normal and vitamin A-deficient rats

Feeding of vitamin A-deficient diet to male weanling rats for 10 weeks resulted in significant decrease in the body weight and marked reduction in the hepatic vitamin A content. The levels of hepatic phase I microsomal enzymes cytochrome P-450, cytochrome b5, aminopyrine N-demethylase and arylhydrocarbon hydroxylase were found to be substantially reduced by vitamin A-deficiency. Also, the activity of phase II microsomal UDP - glucuronyl transferase enzyme was significantly decreased in deficient animals. Following repeated oral administration of DDT (15 mg/kg/body wt/day) for 21 days, the phase I microsomal enzymes were induced to a greater extent in controls as compared to deficient animals. UDP - glucuronyltransferase remained insensitive to DDT induction. The results imply that the capacity for induction of the hepatic mixed-function oxidase enzyme system is impaired in deficient animals concurrently exposed to DDT.     

Modification of Sertoli cell functions in vitamin A-deficient rats

FSH binding and cAMP responses to FSH in Sertoli cell-enriched testes were not affected by the vitamin A (retinol) status of the animals. These results indicate that changes in Sertoli cell functions during vitamin A deficiency are independent of FSH-Sertoli cell interactions. Concentrations of serum androgen binding protein (ABP) in vitamin A-deficient rats were consistently higher than those of control animals throughout the study period. The accumulation of testicular fluid after efferent duct ligation, an indication of Sertoli cell secretory function, was normal in vitamin A-deficient rats at least until 70 days of age, but declined thereafter. ABP concentrations in seminiferous tubular fluid of vitamin A-deficient rats increased transitorily during the 70-80-day age period but returned to normal by 90 days. The increment of ABP in seminiferous tubular fluid after efferent duct ligation, and ABP concentrations in interstitial fluid were consistently lower in vitamin A-deficient rats. The higher serum ABP in vitamin A-deficient rats therefore cannot be explained by an increase in the permeability of Sertoli-cell tight junctions or basement membrane.     

Crystalloid lysozyme inclusions in Paneth cells of vitamin A-deficient rats

Summary The effect of vitamin A-deficiency on jejunal Paneth cells in rats was investigated. Crystalloid particles were observed in secretion granules of Paneth cells from 6 out of 8 rats with vitamin A-deficiency. The particles were similar to those found in Paneth cells under other experimental conditions. Using an immuno-electron-microscopic technique we demonstrated a clear lysozyme immunoreactivity of these particles. In 2 vitamin A-deficient rats tubular structures have been detected in addition to the crystalloid particles. Crystalloid particles or tubular structures were not detectable in a control group of 8 vitamin A-supplemented rats. The morphological alterations of Paneth cells may be correlated to an impaired local immunity of the intestine during vitamin A-deficiency.This work represents a portion of a doctoral thesis presented by M.J. Koch in partial fullfillment for the degree of medical doctor     

Synthesis and glycosylation of fibronectin in hepatocytes from vitamin A-deficient rats

Summary Recent work from our laboratory (Kim and Wolf, J Biol Chem 262: 365–371, 1987) has shown increased uptake of labeled amino acids into fibronectin (FN), increased net synthesis of FN and increased levels of FN-mRNA in primary cultures of hepatocytes from vitamin A-deficient rats compared to controls. We now find, surprisingly, decreased uptake of labeled sugars into the oligosaccharide chains of FN from vitamin A-deficient hepatocytes. This decrease could be reversed by added retinoic acid at physiological concentration. At the same time, FN from deficient hepatocytes (–A.FN) was more susceptible to proteolytic degradation. Decreased uptake of the core sugar mannose into –A.FN was similar to that of glucosamine, yet the percent of label in sialic acid was the same as in +A.FN, suggesting a smaller number of oligosaccharide chains per molecule of –A.FN. Upon enzymatic removal of oligosaccharide and labeling with sodium borotritide, it was found that both –A.FN and +A.FN had biantennary oligosaccharide structures. Selective enzymatic removal of sialic acid showed that +A.FN had both sialic acids in an 23 linkage, whereas –A.FN apparently had one 23 and one 26-linked sialic acid. The borotritide experiments allowed us to calculate that +A.FN appeared to have 5 oligosaccharide chains per FN monomer, whereas the –A. FN showed only 4 chains. These results would account for the decreased glycosylation and increased susceptibility to proteolysis of the –A. FN. We conclude that vitamin A controls both the rate of synthesis of the polypeptide chain of FN via its mRNA, as well as the rate of its glycosylation.Abbreviations FN Fibronectin - ELISA Enzyme-linked Immunosorbent Assay - DOC Deoxycholate - TCA Trichloroacetic Acid - PMSF Phenylmethylsulfonyl Fluoride - PBS Phosphate-buffered Saline - BSA Bovine Serum Albumin - AGP Alpha-1 acid Glycoprotein - SDS-PAGE Sodium Dodecylsulfate-Polyacrylamide Gel Electrophoresis     

Liver microsomal membrane fluidity and lipid characteristics in vitamin A-deficient rats.

Rat liver microsomes (microsomal fraction) were isolated from vitamin A-deficient and -sufficient rats and analysed for membrane lipid characteristics. Membrane fluidity was found to be significantly decreased in microsomes from the vitamin A-deficient rats, but not in liposomes prepared from lipid extracts. Microsomes from vitamin A-deficient animals showed a significant decrease in C18:2, omega 6 and an increase in C22:5, omega 6 fatty acids.     

Alterations in cytokeratin expression precede histological changes in epithelia of vitamin A-deficient rats

Summary Normal epithelial cell differentiation is charactezied by the production of distinct cytokeratin proteins. It is well known that epithelia of several organs show squamous metaplasia in a vitamin A-deficient status. It is not yet known whether these histological changes are concomitant with a change in cytokeratin expression. Therefore, 3-week-old female rats (BN/BiRij) were fed a vitamin A-deficient diet for 8 weeks. The cytokcratin expression in epithelia of various organs was monitored immunohistochemically during the induction of vitamin A deficiency. Therefore, monoclonal antibodies specific for human cytokeratin 4, 5, 5+8, 7, 10, 14, 18 and 19 were used. In a normal vitamin A status, the distributional pattern for the different cytokeratins in rats was similar to that reported for human tissue. No change in cytokeratin expression was seen in trachea, skin, liver and colon at any time point studied. Squamous metaplasia in urinary bladder and salivary glands was observed after six weeks on the vitamin A-deficient diet. This was concomitant with a substitution of cytokeratins 4, 5+8, 7, 18 and 19 by cytokeratin 10. The latter cytokeratin is specific for keratinzed squamous epithelium. A change in cytokeratin expression was observed in bladder, ureter, kidney, salivary glands, uterus and conjunctiva before histological alterations appeared. In conclusion, the changes in cytokeratin expression observed under vitamin A deficiency in epithelia in vivo are in agreement with those described in other studies for epithelial cells in vitro. The changes in cytokeratin expression and the subsequent differentiation into squamous cells occurs in basal cells of the bladder but not in transitional cells. Furthermore, histological alterations are preceded by changes in cytokeratin expression indicating that vitamin A status controls cytokeratin expression in vivo.     

Enrichment of the stages of the seminiferous epithelium in vitamin A-replaced-vitamin A-deficient rats

Morphometric study revealed that, at 40 days after the start of vitamin A replacement, A1 spermatogonia and preleptotene spermatocytes appeared in more than 70% of the whole mounts of seminiferous tubules of vitamin A-deficient rats. By 42 days, the appearance of these cell types was reduced by 50%, and A2 and A3 spermatogonia were predominant. By 46 days, A1-A3 spermatogonia appeared in less than 30% of the tubular length while A4, intermediate and B spermatogonia became the major cell types in the basement compartment of seminiferous tubules. The predominance of spermatogonia noted at given times was corroborated by higher frequencies of tubular cross-sections of stages in which that particular type of spermatogonium resides. These results indicate that seminiferous tubules of vitamin A-replaced-vitamin A-deficient rats are 'enriched' for particular stages. Tracing the development of [3H]thymidine-labelled preleptotene spermatocytes revealed normal kinetics of germ cell differentiation in these animals. Furthermore, the spermatogonial proliferations in the vitamin A-replaced-vitamin A-deficient rats were quantitatively normal. We suggest that vitamin A replacement may result in temporal suppression of the differentiation of A2-B spermatogonia, leading to a stimulation or synchronization of certain groups of undifferentiating spermatogonia which undergo active proliferation simultaneously. These synchronized populations of spermatogonia continue to proliferate and differentiate, thus resulting in the stage-enrichments noted at later times.     

Neurological disorder and excessive accumulation of calcium in brain of clinically vitamin A-deficient rats

Three groups of rats were fed two types of synthetic diets for 52 d. The—A group was allowed free access to a vitamin A-deficient diet and showed classical signs of vitamin A deficiency. The brain was the only organ in our experiment where no significant weight difference was present among the three groups. In the brain, calcium concentration was significantly higher in the—A group when compared with the PF (Pair-fed; allowed restricted amount of control diet) and +A groups (allowed free access to control diet). In the tibia, calcium and magnesium concentrations were significantly lower in the—A group when compared with other two groups. Excessive accumulation of calcium in brain and apparently similar unbalance in bone, mineral concentration were observed in central nervous system (CNS) degenerative diseases. Our results suggest that abnormal metabolism of calcium and magnesium in some tissues and excessive accumulation of calcium in brain may be responsible for the development of neurological disorders in vitamin A-deficient rats.     

Tissue distribution and subcellular localization of retinol-binding protein in normal and vitamin A-deficient rats.

Levels of retinol-binding (RBP), the plasma transport protein for vitamin A, were measured by radioimmunoassay in sera and in a large number of tissues from both normal and vitamin A-deficient rats. The tissues included liver, kidney, fat, muscle, brain, eye, salivary gland, thymus, lung, heart, intestine, spleen, adrenal, testes, thyroid, and red blood cells. The RBP levels in tissues other than serum, liver, and kidneys varied from 12 mug/g of tissue for normal spleen to an undetectable level in red blood cells. Much of the RBP in the tissues with low levels may have been due to residual serum in the samples. In general, except for liver, RBP levels were lower in tissues from vitamin A-deficient rats than in those from normal rats. In normal rats, the liver, kidney, and serum levels were 30 plus or minus 4 (mean plus orminus SEM), 151 plus or minus 22, and 44 plus or minus 3 mug/g, respectively. In vitamin A-deficient rats, the liver RBP level was about three times the normal level whereas the kidney and serum levels were about one-fifth the normal values. When normal liver homogenates were fractionated by centrifugation, 67% of the RBP was recovered in the microsomal fraction and only 9% was found in the soluble 105,000 g supernate. In contrast, 76% of the RBP in homogenates of normal kidneys was in the soluble fraction. Similar results were obtained with deficient livers and kidneys. Incubation with deoxycholate released the liver RBP into the soluble fraction. RBP is produced in the liver and removed from the blood by the kidneys. The levels of RBP in normal and deficient liver, serum, and kidney appear to reflect the relative rates of RBP secretion and turnover.     

The origin of the synchronization of the seminiferous epithelium in vitamin A-deficient rats after vitamin A replacement

In seminiferous tubules of vitamin A-deficient rats, the remaining spermatogonia were A spermatogonia. These cells were topographically arranged as single and paired cells and clones of 4, 8, or more cells. The bromodeoxy-uridine-labeling index and the mitotic index of these cells were found to be 9% and 1%, respectively, indicating that these cells were slowly proliferating. Administration of vitamin A (retinol-acetate) resulted in a reinitiation of spermatogenesis in such a way that the epithelium became stage-synchronized. The rate of development of the spermatogenic cells between 7 and 21 days after vitamin A replacement was found to be similar to that in normal rats. At 24-30 h after administration of vitamin A, a 4- to 6-fold increase in the labeling index was found. In contrast, after 2 days, the labeling index was low, while the mitotic index was elevated (10%). A high labeling index was found again after 3 days. Assuming that during the first 7 days after vitamin A replacement the rate of development of the spermatogenic cells also was normal, it could be deduced that the spermatogonia labeled 24-30 h after vitamin A administration were A1 spermatogonia. These cells would then divide into A2 spermatogonia after about 2 days, which in turn would traverse their S phase after about 3 days. Hence, spermatogenesis in vitamin A-deficient rats would be arrested shortly before the S phase of the A1 spermatogonia. After administration of vitamin A, the spermatogonia synchronously start the series of six divisions leading to the formation of spermatocytes and, ultimately, they develop into mature spermatids.(ABSTRACT TRUNCATED AT 250 WORDS)     

Daily patterns of clock and cognition-related factors are modified in the hippocampus of vitamin A-deficient rats

The circadian expression of clock and clock-controlled cognition-related genes in the hippocampus would be essential to achieve an optimal daily cognitive performance. There is some evidence that retinoid nuclear receptors (RARs and RXRs) can regulate circadian gene expression in different tissues. In this study, Holtzman male rats from control and vitamin A-deficient groups were sacrificed throughout a 24-h period and hippocampus samples were isolated every 4 or 5 h. RARα and RXRβ expression level was quantified and daily expression patterns of clock BMAL1, PER1, RORα, and REVERB genes, RORα and REVERB proteins, as well as temporal expression of cognition-related RC3 and BDNF genes were determined in the hippocampus of the two groups of rats. Our results show significant daily variations of BMAL1, PER1, RORα, and REVERB genes, RORα and REVERB proteins and, consequently, daily oscillating expression of RC3 and BDNF genes in the rat hippocampus. Vitamin A deficiency reduced RXRβ mRNA level as well as the amplitude of PER1, REVERB gene, and REVERB protein rhythms, and phase-shifted the daily peaks of BMAL1 and RORα mRNA, RORα protein, and RC3 and BDNF mRNA levels. Thus, nutritional factors, such as vitamin A and its derivatives the retinoids, might modulate daily patterns of BDNF and RC3 expression in the hippocampus, and they could be essential to maintain an optimal daily performance at molecular level in this learning-and-memory-related brain area.