Maintenance of the synthesis of alpha B-crystallin and progressive expression of beta Bp-crystallin in human fetal lens epithelial cells in culture

We have cultured and maintained human fetal lens epithelial cells for several months in primary, secondary, and tertiary culture(s). These cells show unabated synthesis of alpha B-crystallin (alpha B), a lens epithelial cell-specific marker, and progressive expression of beta Bp-crystallin (beta Bp), a major polypeptide of the differentiated lens fiber cells in vivo. Interestingly, the expression of beta Bp was found to be dependent on subculturing of the cells and not on the age of cultures. These observations demonstrate that human fetal lens epithelial cells can be cultured in vitro without the loss of lens specific characteristics and with commitment to differentiation at the biochemical level.     

Effects of synthetic cholecystokinin analog on hormone secretion in fetal human pancreatic tissue culture]

We have investigated the effects of Pro-Met-Asp-Phe-NH2 (PMAP) on insulin and glucagon release from human fetal pancreatic microfragments in vitro. Four batches of precultured microfragments were incubated for 24 hrs in medium containing 5.5 mM glucose, 17 mM glucose, 1 microM PMAP or 1 microM PMAP plus 17 mM glucose. PMAP significantly enhanced both basal and glucose-stimulated insulin release (2.2- and 4.1-fold, respectively). Glucagon secretion was markedly inhibited by glucose (17 mM). PMAP neither affected the basal glucagon release nor potentiated the inhibitory action of glucose on glucagon release. Hence, PMAR selectively regulates insulin production in human fetal islet tissue without affecting glucagon production. Our results suggest that the substances similar or related to PMAP may prove to be of clinical value in drug correction of diabetes mellitus.     

Expression of fetal antigens by normal human skin cells grown in tissue culture.

Normal human sera are capable of causing complement-mediated lysis of normal human skin cells grown in tissue culture. This lytic reactivity can be completely removed by absorption with first trimester fetal tissue. Absorption with a variety of normal adult human tissues including lymphocytes, decidua, skin, and muscle are incapable of absorbing reactivity. Absorption of reactivity by fetal tissue is specific and not due to the introduction of anti-complementary or other nonspecific factors, as evidenced by the inability of simultaneous fetal absorption to remove reactivity from antisera with specificity for HLA antigens. Similarly, absorption of lytic sera with fetal calf serum proteins was incapable of removing reactivity against normal cells in tissue culture. It thus appears that normal human cells in tissue culture express antigens shared by the first trimester human fetus, but not present on a variety of adult human tissues. This "neoantigen" present on normal human cells when grown in tissue culture is a potential source of confusion and must be accounted for in searching for human tumor-specific antigens utilizing tissue culture cells.     

Effect of glucose on human fetal pancreatic tissue in vitro

For investigating insulin secretion in vitro human fetal pancreatic slices prepared from women with a normal carbohydrate tolerance at a mean gestational age of 12 +/- 1 weeks were incubated in the presence of various secretagogues. Glucose concentration up to 20 mmol/l failed to enhance insulin secretion, whereas an increase of glucose up to 40 mmol/l, the addition of the phosphodiesterase inhibitor IBMX or a priming period of 30 min in the presence of 20 mmol/l glucose resulted in an enhancement of hormone release, calculated per microgram dry weight. For the first time the results demonstrates an intact secretory machinery of the B-cells under controlled conditions in an early stage of gestational development.     

Maintenance of rat adipose tissue in tissue culture

• 1.1. Various systems for the maintenance of rat adipose tissue in tissue culture have been compared.
• 2.2. Optimal conditions for tissue culture were medium 199 supplemented with insulin (10 μg/ml). streptomycin (10μ/ml). penicillin (6 μg/ml) and buffered with 25 mM Hepes. pH 7.3. with a gas phase of air and a temperature of 33 C; adipose tissue was either placed on grids at the air-liquid interface or was allowed to float on the liquid, depending on the age of the rat from which it came.
• 3.3. The rates of glucose metabolism to CO₂, fatty acids and glyceride glycerol. and also palmitate esterification in adipose tissue slices changed (but not in synchrony) over 3 days in tissue culture.
• 4.4. It is concluded that the system should be of value for studying effects of hormones and other substances on adipose tissue metabolism over a period of several days.

     

人胎胰腺巢蛋白阳性细胞的分离培养及其生物学特性研究

胰腺巢蛋白（nestin)阳性细胞是近年发现的与胰腺发育密切相关的一种多能干细胞。我们对人胎胰腺中的nestin^ 细胞进行了分离和体外培养,并对其生物学特性进行了研究。结果表明：（1）胎胰nestin^ 细胞表达高水平ABCG2／BCRP1,并在形态和生长方式上均不同于导管上皮细胞;（2）Nestin^ 细胞在体外可自发形成类胰岛细胞团（ICC,islet-like cell clusters);(3)ICC中的nestin^ 细胞具有多向分化潜能,可表达多种细胞特异抗原,经体外诱导可产生少量胰岛素阳性的类β细胞。     

Use of pancreatic beta cells in culture to identify diabetogenic N-nitroso compounds

Epidemiological observations suggest that environmental factors play a role in the pathogenesis of insulin dependent diabetes mellitus (1). Several chemicals have been identified as specific beta cell toxins (2-4). We report here studies to determine the feasibility of using monolayer cultures of pancreatic beta cells from neonatal rat to screen potential diabetogenic chemicals. Cytotoxicity was monitored both by phase microscopy and the release of insulin into the culture medium. In comparative studies, cellular protein and release of 51chromium (51Cr) were measured after addition of test compounds to cultures of fibroblasts derived from pancreatic tissue. The nitrosoamides 1 methyl-l-nitrosourea (MNU), 1,3 bis (2-choroethyl) nitrosourea (BCNU), chlorozotocin (CLZ), and the beta cell toxin, streptozotocin (SZ), were examined. CLZ and SZ were more toxic to pancreatic beta cells than to fibroblasts. In contrast, MNU and BCNU damaged both beta cells and fibroblasts at identical concentrations. These results suggest that in vitro techniques can be used to identify chemicals that selectively injure beta cells. Although SZ-induced toxicity was ameliorated with addition of nicotinamide to cultures of beta cells, nicotinamide did not prevent damage caused by CLZ. This observation indicates different mechanisms of drug-induced cytotoxicity.     

A simplified method for culture of human fetal heart tissue

Human fetal heart tissue obtained consequent to suction termination of pregnancy between 6 and 12 weeks of gestation were cultured as explants and maintained in a viable state, with spontaneous contractions up to 75 days. Ultrastructural morphology of the explant revealed that the cells remained healthy up to 21 days in culture. The model can therefore be used for experimental studies during the first 3 weeks in culture.     

Beta-cell function in isolated human pancreatic islets in long-term tissue culture

Human pancreatic islets were isolated by collagenase treatment of pancreatic tissue obtained from 27 individuals aged 12 to 69 years. The islets were maintained free floating in tissue culture medium RPMI 1640 supplemented with calf or human serum. In two cases the insulin production was followed up to nearly two years. The insulin production rate of the individual islet preparations varied between 0.2 and 8 ng per islet per day. No significant correlation with donor age or sex was found. The glucose concentration in the medium influenced the insulin release in a dose dependent manner. The acute response of the cultured islets to glucose was evaluated both by batch incubation and by perifusion. Both in the acute and the chronic experiments maximal insulin release was found at 10 mM glucose. In conclusion, these experiments indicate that viable islets of Langerhans can be obtained from adult human pancreatic tissue and that their beta-cell function can be maintained for up to two years. The variation in insulin production rate could not be ascribed to age or sex and may reflect both physiological and methodological factors.     

Nerve growth factor increases L-type calcium current in pancreatic beta cells in culture

We analyzed the effect of culturing adult rat beta cells with NGF2.5 S for 5 to 7 days on macroscopic barium current (I(Ba)), and determined the role of Na and Ca channels on neurite-like process extension induced by NGF and dbcAMP, and by KCI depolarization. After five days in culture with 2.5S NGF, beta cells exhibit a 102% increase in I(Ba) density. This effect is on L-type calcium channels because most of the current is blocked by nifedipine. The application of NGF for 5 minutes to the cells deprived of the trophic factor for 24 hr further increases I(Ba) current by 91%. These results suggest that the trophic factor regulates I(Ba) by two different mechanisms, a) an increase in channel density and b) a rapid modulation of the channels already present in the membrane. Finally, we found that ion-channel activity modifies the growth of neurite-like processes. After 2 weeks in culture with high KCl, almost 14% of beta cells extend neurite-like processes and the most impressive effect is observed in the presence of KCl, NGF, and dbcAMP simultaneously, where nearly 60% of the cells extend neurite-like processes. Tetrodotoxin and nifedipine reduce the morphological changes induced by these agents.     

Insulin-producing cells generated from dedifferentiated human pancreatic beta cells expanded in vitro

Background

Expansion of beta cells from the limited number of adult human islet donors is an attractive prospect for increasing cell availability for cell therapy of diabetes. However, attempts at expanding human islet cells in tissue culture result in loss of beta-cell phenotype. Using a lineage-tracing approach we provided evidence for massive proliferation of beta-cell-derived (BCD) cells within these cultures. Expansion involves dedifferentiation resembling epithelial-mesenchymal transition (EMT). Epigenetic analyses indicate that key beta-cell genes maintain open chromatin structure in expanded BCD cells, although they are not transcribed. Here we investigated whether BCD cells can be redifferentiated into beta-like cells.

Methodology/Principal Finding

Redifferentiation conditions were screened by following activation of an insulin-DsRed2 reporter gene. Redifferentiated cells were characterized for gene expression, insulin content and secretion assays, and presence of secretory vesicles by electron microscopy. BCD cells were induced to redifferentiate by a combination of soluble factors. The redifferentiated cells expressed beta-cell genes, stored insulin in typical secretory vesicles, and released it in response to glucose. The redifferentiation process involved mesenchymal-epithelial transition, as judged by changes in gene expression. Moreover, inhibition of the EMT effector SLUG (SNAI2) using shRNA resulted in stimulation of redifferentiation. Lineage-traced cells also gave rise at a low rate to cells expressing other islet hormones, suggesting transition of BCD cells through an islet progenitor-like stage during redifferentiation.

Conclusions/Significance

These findings demonstrate for the first time that expanded dedifferentiated beta cells can be induced to redifferentiate in culture. The findings suggest that ex-vivo expansion of adult human islet cells is a promising approach for generation of insulin-producing cells for transplantation, as well as basic research, toxicology studies, and drug screening.     

Biochemically differentiated clonal human glial cells in tissue culture

A clonal line of astrocytes (designated CHB) derived from a brain tumor of human origin has been established in tissue culture. This cell line is capable of synthesizing an acid protein unique to the nervous system (S100-protein). The S100-protein synthesized by CHB cells is immunologically indistinguishable (by micro-complement fixation) from S100-protein present in human brain.     

Proliferation of human embryonic and fetal epidermal cells in organ culture

The morphology of human embryonic and fetal skin growth in organ culture at the air-medium interface was examined, and the labeling indices of the epidermal cells in such cultures were determined. The two-layered epidermis of embryonic specimens increased to five or six cell layers after 21 days in culture, and the periderm in such cultures changed from a flat cell type to one with many blebs. The organelles in the epidermal cells remained unchanged. Fetal epidermis, however, differentiated when grown in this organ culture system from three layers (basal, intermediate, and periderm) to an adult-type epidermis with basal, spinous, granular, and cornified cell layers. Keratohyalin granules, lamellar granules, and bundles of keratin filaments, organelles associated with epidermal cell differentiation, were observed in the suprabasal cells of such cultures. The periderm in these fetal cultures formed blebs early but was sloughed with the stratum corneum in older cultures. The rate of differentiation of the fetal epidermis in organ culture was related to the initial age of the specimen cultured, with the older specimens differentiating at a faster rate than the younger specimens. Labeling indices (LIs) of embryonic and fetal epidermis and periderm were determined. The LI for embryonic basal cells was 8.5% and for periderm was 8%. The fetal LIs were 7% for basal cells, 1% for intermediate cells, and 3% for periderm. The ability to maintain viable pieces of skin in organ culture affords a model for studying normal and abnormal human epidermal differentiation from fetal biopsies and for investigating proliferative diseases.     

Cytoplasmic transfer of chloramphenicol resistance in human tissue culture cells

The cytoplasmic inheritance of human chloramphenicol (cap) resistance has been demonstrated by removing the nuclei of cells of the CAP-resistant HeLa strain 296-1 (enucleation) and fusing them to a CAP-sensitive HeLa strain lacking nuclear thymidine kinase. Plating the fusion products in bromodeoxyuridine and CAP resulted in the growth of about 150 colonies/10(6) parent cells plated. Permanent cell lines (cybrids) grown from such fusions have been designated HEB. A recloned HEB cybrid (HEB7A) has also been enucleated and fused to hypoxanthine phosphoribosyl transferase (HPRT)-deficient HeLa cells (S3AG1) and HPRT-deficient lymphocytes (WAL-2A). Cybrids were selected in thioguanine and CAP. In the fusion of enucleated (en) HEB7A to S3AG1, 1,200 colonies/10(6) parents were observed. Fusion of enHEB7A to WAL-2A was done in mass culture and cybrids were obtained on three separate occasions. In every case the parental controls were negative. All isolates tested from the above fusions have the CAP-resistant characteristics, in vivo and in vitro, of the enucleated parent and the nuclear characteristics of the CAP-sensitive parent, such as chromosome number, morphology, and specific isozyme and chromosome markers. Therefore, it can be concluded that CAP resistance is coded in the cytoplasm and not in the nucleus of 296-1 cells. Furthermore, this resistance can be transferred to cells of widely different origin and differentiated state. These studies represent the first genetic evidence of cytoplasmic inheritance in human cells.