The effect of 1,3-diaryl-[1H]-pyrazole-4-acetamides on glucose utilization in ob/ob mice.

This article provides evidence of a new class of compounds, 1,3-diaryl-[1H]-pyrazole-4-acetamides, initially identified from their ability to increase glucose transport in an adipocyte and muscle cell line and ultimately demonstrating dramatic glucose lowering in ob/ob mice, a diabetic animal model. The lead compound, 1, possessed some behavioral-like effects which were removed by structural variation during the course of this investigation. Specifically, 11g (R1 = meta-CF(3), Ar2 = 4'biphenyl, R3 = diethylamide) illustrated the potency of this series with ED(50) values for glucose lowering in ob/ob mice of 3.0 mg/kg/day. Concomitant with its effect on glucose lowering, 11g also caused a 50% reduction in insulin levels consistent with an agent that increases whole body insulin sensitivity. 11g showed favorable pharmacokinetic data with acceptable absorption, negligible metabolism, and good duration of action. 11g demonstrated no appreciable adipogenic effect through PPAR gamma agonism, a characteristic of the thiazolidinediones (TZD), and so represents a potentially new class of agents for the treatment of diabetes.

Effects of pioglitazone on promoting energy storage, not expenditure, in brown adipose tissue of obese fa/fa Zucker rats: comparison to CL 316,243.

Recent advances in the treatment of non-insulin-dependent diabetes mellitus (NIDDM) include the use of thiazolidinediones (TZDs), agents that enhance insulin action, in part, through an activation of adipose tissue peroxisome proliferator-activated receptor gamma. Current evidence also indicates that these agents upregulate uncoupling protein 1 (UCP1) gene expression in brown adipocytes and increase interscapular brown adipose tissue (IBAT) mass in rodents, suggestive of a thermogenic component to their mechanism of action. In the present study, the TZD pioglitazone (PIO) and the beta3-adrenoceptor agonist CL 316,243 (CL), were used to determine whether the antidiabetic effects of PIO, like those of CL, may, in part, be mediated by an increase in either IBAT thermogenesis or whole-body energy expenditure. Treatment of obese, insulin resistant fa/fa Zucker rats with PIO for 10 days resulted in a 2- to 3-fold increase in IBAT mass, due largely to an increase in adipocyte size and number, and increased fatty acid biosynthesis. However, unlike the effects of CL, the PIO-induced IBAT changes were not associated with an increase in UCP1 expression or whole-body energy expenditure. In contrast to CL, PIO substantially increased body weight gains over the 10-day treatment period by increasing feeding efficiency. These data suggest that, unlike CL, the actions of PIO in the obese Zucker rat does not include increased energy expenditure, but rather strengthens its role as an adipogenic and lipogenic agent, which promotes energy storage.

Mixed mesenchymal tumor in the kidney of a young beagle dog.

A rare spontaneous tumor was detected in the kidney of an 11-mo-old beagle dog. The tumor was a well-circumscribed cortical mass and was composed of a heterogeneous population of connective tissue cell types. While the primary cell type was a spindle cell associated with prominent collagen deposition, other areas contained bands of smooth muscle cells and poorly cellular myxomatous tissue. The presence of smooth muscle cells was confirmed by transmission electron microscopy and immunoperoxidase techniques. Based on the results, the tumor was diagnosed as a benign mixed mesenchymal tumor.

The comparative histology of porcine and guinea pig skin with respect to iontophoretic drug delivery.

The anatomy of pig skin, neonatal pig skin, and hairless guinea pig skin was investigated with respect to iontophoretic drug transport. Fixed sections of skin were stained with hematoxylin and eosin, and the morphology of the skin appendages was examined. Quantitative measurements of the hair follicle density, diameter and lumen area were obtained, and the effective surface areas available for low resistance iontophoretic transport were calculated. The clustering and density of the follicles of neonatal porcine skin and hairless guinea pig skin suggest that linear mass transport may dominate iontophoretic flux. In contrast, the morphology and density of the hair follicles of porcine skin suggests that a radial mass transport mechanism may dominate iontophoretic transdermal drug delivery.

Effect of particle size on the in vitro and in vivo degradation rates of poly(DL-lactide-co-glycolide) microcapsules.

Three different sieve size fractions of ergot-containing biodegradable microcapsules were examined both in vitro and in vivo. The sieve sizes and average particle diameter, (micron), were: less than 45-75 (mean = 30); 75-106 (mean = 79); 106-177 (mean = 130). These microcapsules contained ca. 9% drug and were produced from 50:50 poly(DL-lactide-co-glycolide). The objective was to determine the effect of particle size on in vivo and in vitro degradation rates. The microcapsules were injected into rat gastrocnemius muscle and excised and examined at various time points up to 70 days. Initially a minimal tissue response was noted which was characterized by a sharply localized acute inflammatory reaction. Following this, connective tissue and foreign body giant cells engulfed the microcapsules at 20-30 days. Only vestiges of the microcapsules were found surrounded by minimal connective tissue and foreign body giant cells after 60-70 days. The tissue reaction was a minimal, sharply localized foreign body giant cell and connective tissue process for all three size groups of microcapsules. The largest microcapsules (mean = 130 microns) exhibited a slightly greater tendency to undergo in vivo and in vitro degradation relative to the other groups. However, it can be concluded that over the microcapsule size ranges examined minimal differences in the degradation properties of the polymeric matrices and consequently those of the microcapsules were noted.

Tissue response to biodegradable injectable microcapsules.

Biodegradable microcapsules have been shown to be capable of delivering a sustained release of various medicinal agents. We have observed an initial minimal, sharply localized, acute inflammatory response to intramuscularly injected microcapsules produced from various polymers. Evaluation of later time points has shown a diminishing macrophage, foreign body giant cell, and connective tissue response along with actual microcapsule degradation. No fibrous capsule formation was seen. Complete resolution of the tissue reaction can be expected, with the time frame depending upon the polymer utilized. Published experimental results report similar minor tissue responses to a variety of injected biodegradable microcapsules.

Biodegradation of and tissue reaction to 50:50 poly(DL-lactide-co-glycolide) microcapsules.

The biodegradation of the copolymer 50:50 poly(DL-lactide-co-glycolide)-lypressin microcapsules was studied by light and electron microscopic methods and 14C release. Intramuscular injection sites of microcapsules in rats were studied by dissecting and conventional light microscopy as well as scanning (SEM) and transmission electron microscopy. A minimal localized acute myositis was seen initially at the injection sites. By Day 4, a few small foreign body giant cells were present participating in the minimal foreign body response. Later the inflammatory cells decreased and the individual microcapsules were walled off by immature fibrous connective tissue and large syncytial foreign body giant cells. By Day 35, definitive changes in some microcapsules, consisting of a granular and slightly eroded appearance of the internal matrix, were seen by SEM. By Day 42, the outer rims of the microcapsules were extensively eroded. At Day 56, the inflammatory and connective tissue reactions were almost completely resolved and biodegradation continued so that only remnant pieces of the microcapsules were present at Day 63. The morphologic picture correlated well with loss of 14C radioactivity, which could no longer be detected at the injection sites on Day 56. Phagocytosis did not seem to be an important factor in the biodegradation.

Quantitative morphological evaluation of experimentally induced atheroma.

A computerized operator-interactive system for measurement of atheroma is described. The system utilizes a 64K microcomputer, a high resolution digitizer tablet, dual floppy disc drives, and a video monitor. The method offers significant advantages over earlier systems in speed, accuracy, reproducibility and cost effectiveness.