Cartilage Derived from Bone Marrow Mesenchymal Stem Cells Expresses Lubricin In Vitro and In Vivo

Objective

Lubricin expression in the superficial cartilage will be a crucial factor in the success of cartilage regeneration. Mesenchymal stem cells (MSCs) are an attractive cell source and the use of aggregates of MSCs has some advantages in terms of chondrogenic potential and efficiency of cell adhesion. Lubricin expression in transplanted MSCs has not been fully elucidated so far. Our goals were to determine (1) whether cartilage pellets of human MSCs expressed lubricin in vitro chondrogenesis, (2) whether aggregates of human MSCs promoted lubricin expression, and (3) whether aggregates of MSCs expressed lubricin in the superficial cartilage after transplantation into osteochondral defects in rats.

Methods

For in vitro analysis, human bone marrow (BM) MSCs were differentiated into cartilage by pellet culture, and also aggregated using the hanging drop technique. For an animal study, aggregates of BM MSCs derived from GFP transgenic rats were transplanted to the osteochondral defect in the trochlear groove of wild type rat knee joints. Lubricin expression was mainly evaluated in differentiated and regenerated cartilages.

Results

In in vitro analysis, lubricin was detected in the superficial zone of the pellets and conditioned medium. mRNA expression of Proteoglycan4 (Prg4), which encodes lubricin, in pellets was significantly higher than that of undifferentiated MSCs. Aggregates showed different morphological features between the superficial and deep zone, and the Prg4 mRNA expression increased after aggregate formation. Lubricin was also found in the aggregate. In a rat study, articular cartilage regeneration was significantly better in the MSC group than in the control group as shown by macroscopical and histological analysis. The transmission electron microscope showed that morphology of the superficial cartilage in the MSC group was closer to that of the intact cartilage than in the control group. GFP positive cells remained in the repaired tissue and expressed lubricin in the superficial cartilage.

Conclusion

Cartilage derived from MSCs expressed lubricin protein both in vitro and in vivo. Aggregation promoted lubricin expression of MSCs in vitro and transplantation of aggregates of MSCs regenerated cartilage including the superficial zone in a rat osteochondral defect model. Our results indicate that aggregated MSCs could be clinically relevant for therapeutic approaches to articular cartilage regeneration with an appropriate superficial zone in the future.     

Visceral Fat Accumulation,Insulin Resistance,and Elevated Depressive Symptoms in Middle-Aged Japanese Men

Objective

To investigate visceral fat accumulation and markers of insulin resistance in relation to elevated depressive symptoms (EDS).

Methods

Participants were 4,333 male employees (mean age, 49.3 years) who underwent abdominal computed tomography scanning, measured fasting insulin, and did not self-report diabetes and mental disorders under treatment and history of cancer, myocardial infarction, and stroke. Multivariable logistic regression was used to assess the association of EDS with abdominal fat deposition and markers of insulin resistance.

Results

Visceral fat area (VFA) and fasting insulin were significantly, positively associated with EDS. Multivariable-adjusted odds ratios (95% confidence interval) of high VFA for the lowest through highest quartile of depression score were 1 (reference), 1.18 (0.97–1.42), 1.25 (1.02–1.54), 1.23 (1.01–1.51), respectively, and corresponding figures for high fasting insulin were 1 (reference), 0.98 (0.80–1.19), 1.12 (0.91–1.38), and 1.29 (1.06–1.57), respectively. Subcutaneous fat area was not associated with EDS.

Conclusions

Results suggest that EDS is related to visceral, but not subcutaneous, fat accumulation and insulin resistance in middle-aged Japanese men.     

Diabetic state-induced modification of Ca, Mg, Fe and Zn content of skeletal, cardiac and smooth muscles

The metal content of diaphragm, gastrocnemius, ventricle, and bladder muscles in genetically obese diabetic KK-CAy and alloxan-diabetic ddY mice was compared with that in prediabetic KK-CAy and normal ddY mice, because the muscles of the diabetic KK-CAy mice had morphological abnormalities, such as atrophy, disappearance of Z-band, disturbed myofibrils and swollen sarcoplasmic reticulum. The amounts of calcium (Ca) in gastrocnemius, ventricle and bladder muscles from the prediabetic KK-CAy mice were significantly 7.7, 98.3, and 36.9% greater, respectively, than those in normal ddY mice. In contrast, the magnesium (Mg) content of the diaphragm, the gastrocnemius, and the ventricle in the prediabetic mice was 8.6, 7.4, and 4.3% lower, respectively, than in the ddY mice. The iron (Fe) content of the diaphragm, gastrocnemius, and ventricle muscles in the prediabetic mice was 29.2, 43.6, and 44.6% greater, respectively, than in the ddY mice. The Ca content in the gastrocnemius muscles of the diabetic KK-CAy mice and the alloxan-diabetic mice was 19.8 and 11.7% higher, respectively, than in the prediabetic and normal mice. The Ca content of the ventricle muscle was increased only in the alloxan-mice. The gastrocnemius Mg was also 9.0 and 5.5% greater in the KK-CAy and the alloxan-mice. The Fe content of the diaphragm and the gastrocnemius muscles from the KK-CAy mice was 27.3 and 23.2% greater, respectively, than in the prediabetic mice. The zinc (Zn) content of the gastrocnemius and the bladder was 16.4 and 18.0% higher, but the ventricle Zn was 13.4% lower, respectively, than in the prediabetic control. The changes in metal content induced by the diabetic state may be related to the morphological abnormalities.     

Characteristics of Glucose Transport in Neuronal Cells and Astrocytes from Rat Brain in Primary Culture

Glucose transport systems in cultured neuronal cells and astrocytes of rats were characterized by measuring the uptake of 2-deoxy-D-[3H]glucose ([3H]2-DG) into the cells. Various sugars inhibited 2-DG uptake by neuronal cells and astrocytes similarly, a finding indicating that the substrate specificities of the transporters in the two types of cells were almost the same. However, the Km values for 2-DG of neuronal cells and astrocytes were 1.7 and 0.36 mM, respectively. The uptake of 2-DG was strongly inhibited by cytochalasin B. Nucleosides, such as adenosine, inosine, and uridine, inhibited 2-DG uptake competitively in both neuronal cells and astrocytes. The uptake by both types of cells were also inhibited by forskolin, but not by cyclic AMP, an observation suggesting that forskolin bound directly to the transporters to cause inhibition. Its inhibition was competitive in astrocytes and noncompetitive in neuronal cells. Astrocytes contained a glucose transporter with a subunit molecular weight of 45K, as estimated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis after photoaffinity labeling using [3H]cytochalasin B as a probe.     

Activity budget and diet of patas monkeys in Kala Maloue National Park,Cameroon: A preliminary report

A preliminary study was carried out on the feeding ecology of patas monkeys in the rainy season in Cameroon. Their daily activity rhythm revealed two active peaks. The proportion of time spent on feeding with respect to waking time was 30%. Patas monkeys largely depended on the flowers and buds of herbaceous plants and the larvae of insects for their diet as they ranged widely. Patas monkeys spent more time in feeding and travelled for a longer distance per day than the sympatric primate species, the tantalus monkey. It is considered that these findings reflected the large amount of food requirement due to the large body size, as well as the low density and high degree of dispersal of their food.     

Radioimmunoassay of Gibberellins A5 and A20

Polyclonal anti-GA₅-antiseruin and anti-GA₂₀-antiserum wereprepared by immunizing rabbits with conjugates of N-GA₅-ß-alanylBSA and N-GA₂₀-ß-alanyl BSA. By radioimmunoassay usingthese antisera, GA₅ and GA₂₀ in developing fruits of Pharbitisnil Chois were analyzed after several purification steps andthe results were compared with those obtained by GC-MS to examinethe reliability of the analysis by radioimmunoassay. The analyticalresults by radioimmunoassay did not agree with those by GC-MSuntil two-step purifications by HPLC, indicating that samplesmust be suitably purified prior to radioimmunoassay to obtainreliable results. (Received November 13, 1986; Accepted April 17, 1987)     

Kinetic and stereochemical studies on reaction mechanism of mouse liver 17 beta-hydroxysteroid dehydrogenases

The kinetic mechanism of two major monomeric 17 beta-hydroxysteroid dehydrogenases from mouse liver cytosol was studied at pH 7 in both directions with NADP(H) and three steroid substrates: testosterone, 5 beta-androstane-3 alpha, 17 17 beta-diol, and estradiol-17 beta. In each case the reaction mechanism of the two enzymes was sequential, and inhibition patterns by-products and dead-end inhibitors were consisted with an ordered bi bi mechanism with the coenzyme binding to the free enzyme, although there was difference in affinity and maximum velocity for the steroidal substrates between the two enzymes. Binding studies of the coenzyme and substrate indicate the binding of coenzyme to the free enzyme, in which 1 mol of NADPH binds to 1 mol of each monomeric enzyme. The 4-pro-R-hydrogen atom of NADPH was transferred to the alpha-face of the steroid molecule by the two enzymes.     

Sequential synergistic effect of interleukin 2 and interferon-gamma on the differentiation of a Tac-antigen-positive B cell line

The presence of Tac-antigen (Tac-Ag) on human B lymphocytes and its functional significance with regard to the ability of interleukin 2 (IL 2) to modulate B cell differentiation is currently an area of high interest. An Epstein-Barr virus-transformed B cell line (CB) that secretes IgG was 30 to 40% Tac-Ag+ and was used as a model for examining the role of Tac-Ag and IL 2 in B cell differentiation. Recombinant IL 2 alone was found to have a modest but significant effect on CB in enhancing IgG secretion, increasing the plaque-forming cell response from 637 to 1734 at high concentrations (1000 U/ml IL 2) and to 888 at lower concentrations (100 U/ml). In contrast, recombinant interferon-gamma (IFN-gamma) alone had no effect on the differentiation of CB. However, both factors together showed marked synergy in increasing the number of plaque-forming cells to over 3000 by using only 10 U/ml of IFN-gamma and 100 U/ml of IL 2. These two factors were shown to act sequentially in that IL 2 was needed initially, while IFN-gamma was required for the next differentiation step into IgG-secreting cells. The effect of IL 2 on stimulating differentiation was blocked by anti-Tac, indicating that the action of IL 2 is mediated through its Tac-Ag receptor. CB cells were also sorted into Tac+ and Tac- populations and were cultured separately. In 2 wk, both populations reverted to the pattern of the original cell line. Moreover, cell cycle analysis when using double staining procedures indicated that Tac-Ag on the cell surface of CB appears and disappears according to the stage of the cell cycle, and that Tac is most strongly expressed in the S and G2 + M phases. Thus, the present study suggests that certain B cells are capable of responding to sequential stimulation by IL 2 and IFN-gamma with terminal differentiation into Ig-secreting cells, and that the amount of Tac-Ag expression is cell cycle dependent.     

Different metabolic rates for arachidonoyl molecular species of ethanolamine glycerophospholipids in rat brain

The ethanolamine glycerophospholipids (EGP) contain most of the arachidonate (20:4, n-6) and adrenate (22:4, n-6), potential precursors of biologically potent prostaglandins and related compounds. Much better methods utilizing high performance liquid chromatography (HPLC) techniques are now available for the study of the molecular species of all three classes, namely diacyl, alkenylacyl (plasmalogen), and alkylacyl. Different molecular species may have different functions. This possibility was studied by examining the rates of incorporation of [3H]arachidonic acid into the three major molecular species of each of the three classes of ethanolamine glycerophospholipids. After the intracerebral injection of [3H]20:4 into rat brain, it was rapidly converted to 22:4(n-6). Of the total radioactivity, 10-20% was located in 22:4 in alkenylacyl and diacyl-GPE. In the alkylacyl-GPE, labeled 22:4 was preferentially incorporated and accounted for 50-60% of the total radioactivity. The primary arachidonoyl molecular species of alkenylacyl, alkylacyl, and diacyl-GPE were the 18:1-20:4, 16:0-20:4, and 18:0-20:4 species. The alkylacyl class contained almost equal proportions of these three molecular species. On the other hand, the 20:4 in alkenylacyl and diacyl classes was combined largely with 18:0 groups at the sn-1 position. In particular, the 18:0-20:4 species comprised about 80% of arachidonoyl molecular species of the diacyl class. In all three classes, the highest specific radioactivities were found in the 18:1-20:4 species, whereas the 18:0-20:4 species had the lowest specific radioactivity. Over the period 60 min-24 hr, the diacyl 18:0-20:4 and all three arachidonoyl molecular species of the alkenylacyl class increased in specific radioactivity more rapidly than the other arachidonoyl molecular species.