Gerald G. Long

Skeletal Changes in Rats Given Daily Subcutaneous Injections of Recombinant Human Parathyroid Hormone (1-34) for 2 Years and Relevance to Human Safety

Fischer 344 rats (60/sex/group) were given daily subcutaneou s injections of recombinant human parathyroi d hormone (PTH)(1-34) for 2 years at doses of 0, 5, 30, or 75 μg/kg. Treatment caused substantial increases in bone mass consistent with the known pharmacologic effects of once-daily administration. As determined by quantitative computed tomography (QCT) and histomorphometry, bone mass was markedly increased. Substantial new bone formation resulted in a large decrease in marrow space accompanied by altered bone architecture. Bone proliferative lesions were observed in all PTH(1-34)-treated groups. Osteosarcoma occurred in 3, 21, and 31 male rats and in 4, 12, and 23 female rats in the 5-, 30-, and 75- μg/kg treatment groups, respectively. Focal osteoblast hyperplasia, osteoma, and osteoblastoma were much less frequent. Although the specific cellular or molecular mechanisms responsible for the rat bone tumors have not been fully elucidated, the data suggest that these lesions resulted from the long duration of treatment and the exaggerated pharmacologic response of the rat skeleton to daily treatment with PTH(1-34). Important differences between the rat study and clinical use in adult humans suggest that the increased incidence of bone neoplasia in rats treated for 2 years is likely not predictive of an increased risk of bone cancer in skeletally mature adult humans being given PTH(1-34) for a limited period of time in the treatment of osteoporosis.

Neuronal vacuolization and necrosis induced by the noncompetitive N-methyl-D-aspartate (NMDA) antagonist MK(+)801 (dizocilpine maleate): a light and electron microscopic evaluation of the rat retrosplenial cortex.

MK(+)801 (dizocilpine maleate) is a noncompetitive antagonist at the N-methyl-D-aspartate (NMDA) receptor, the major glutamate receptor at excitatory synapses in the central nervous system. Since NMDA antagonists are neuroprotective, there is interest in their development for treatment of cerebral ischemia. Unfortunately, many of these compounds also induce vacuole formation in neurons of the rat retrosplenial cortex (Olney et al., Science 244: 1360-1362, 1989). Although vacuolization was initially reported to be reversible with MK(+)801, preliminary data later suggested that higher doses might produce neuronal necrosis. To explore this issue, young male Sprague-Dawley rats were given a single subcutaneous dose of vehicle or 1, 5, or 10 mg/kg MK(+)801. At 4 h and 1, 2, 3, 4, 7, and 14 days postdose (DPD), the retrosplenial cortex was examined by light and electron microscopy. At 4 h, vacuoles occurred in neurons of retrosplenial cortical layers 3 and 4 in all rats given MK(+)801. Mitochondria and endoplasmic reticulum contributed to vacuole formation. At 1 DPD, vacuoles or necrotic neurons were rarely observed. At all subsequent time points, necrotic neurons were readily evident in rats given 5 or 10 mg/kg MK(+)801, but only rarely evident in rats given 1 mg/kg. Necrotic neurons were associated with reactive microglial cells that contained electron-dense debris ultrastructurally. If similar dose-dependent neuronal necrosis proves to be a feature of other NMDA antagonists, such effects might raise concerns for the development and use of these compounds in human cerebrovascular diseases.

Bone neoplasms in F344 rats given teriparatide [rhPTH(1-34)] are dependent on duration of treatment and dose.

A long-term study was conducted in female F344 rats to determine the relative importance of dose, treatment duration, and age at initiation of treatment on the incidence of teriparatide [rhPTH[1-34)]-induced bone proliferative lesions. Treatment groups consisted of different combinations of dose (0, 5, or 30 μg/kg/d), treatment duration (6, 20, or 24 months) and age at initiation of treatment (2 or 6 months of age). The primary endpoints were the incidence of bone neoplasms and effects on bone mass and structure as evaluated by quantitative computed tomography and histomorphometery. Significant increases in the incidence of bone tumors (osteoma, osteoblastoma, and osteosarcoma) occurred in rats treated with 30 μg/kg for 20 or 24 months. No neoplasms were found when the 5 μg/kg treatment was initiated at 6 months of age and continued for either 6 or 20 months (up to 70% of life span). This treatment regimen defined a “no-effect” dose for neoplasm formation that nevertheless resulted in substantial increases in bone mass. These results demonstrate that treatment duration and administered dose are the most important factors in the teriparatide-induced bone tumors in rats.

Qualitative and Quantitative Analysis of Nonneoplastic Lesions in Toxicology Studies

A pathology report is written to convey information concerning the pathologic findings in a study. This type of report must be complete, accurate and communicate the relative importance of various findings in a study. The overall quality of the report is determined by three Quality Indicators: thoroughness, accuracy, and consistency. Thoroughness is the identification of every lesion present in a particular organ or tissue, including spontaneous background lesions. Experienced pathologists familiar with background lesions may disregard certain types of lesions or establish a threshold or a severity above which background lesions are diagnosed. Accuracy is the ability to make, and precisely communicate, correct diagnoses. Nomenclature of lesions is a matter of definition and experienced pathologists generally agree as to what terms are to be used. Consistency is the uniform use of a specific term to record a defined lesion and implies that the same diagnostic criteria are being followed for each type of diagnosis. The relative severity of nonneoplastic lesions can be recorded either semiquantitatively or quantitatively. Semiquantitative analysis involves the application of defined severity grades or ranges for specific lesions. Quantitative analysis (counts and measurements) can be performed manually or electronically, utilizing image analysis and stereological techniques to provide numerical values. When both qualitative and quantitative parameters are applied in preparation of a pathology report, the recorded pathology findings can be interpreted and put into perspective. The use of this approach assures a reader that the pathology report meets the highest standards.

p53 +=¡ Hemizygous Knockout Mouse: Overview of Available Data

The performance of the p53 +/- transgenic (knockout) mouse model was evaluated through review of the data from 31 short-term carcinogenicity studies with 21 compounds tested as part of the International Life Sciences Institutes (ILSI) Alternatives to Carcinogenicity Testing (ACT) project, together with data from other studies which used comparable protocols. As expected based on the hypothesis for the model, a significant number (12/16 or 75%) of the genotoxic human and/or rodent carcinogens tested were positive and the positive control, p-cresidine, gave reproducible responses across laboratories (18/19 studies positive in bladder). An immunosuppressive human carcinogen, cyclosporin A, was positive for lymphomas but produced a similar response in wild type mice. Two hormones that are human tumorigens, diethylstilbestrol and 17β-estradiol, gave positive and equivocal results, respectively, in the pituitary with p53-defi cient mice showing a greater incidence of proliferative lesions than wild type. None of the 22 nongenotoxic rodent carcinogens that have been tested produced a positive response but 2 compounds in this category, chloroform and diethylhexylphthalate, were judged equivocal based on effects in liver and kidney respectively. Four genotoxic noncarcinogens and 6 nongenotoxic, noncarcinogens were also negative. In total (excluding compounds with equivocal results), 42 of 48 compounds or 88% gave results that were concordant with expectations. The technical lessons learned from the ILSI ACT-sponsored testing in the p53+/- model are discussed.

Nonproliferative and proliferative lesions of the rat and mouse female reproductive system.

The INHAND (International Harmonization of Nomenclature and Diagnostic Criteria for Lesions in Rats and Mice) Project (www.toxpath.org/inhand.asp) is a joint initiative of the Societies of Toxicological Pathology from Europe (ESTP), Great Britain (BSTP), Japan (JSTP) and North America (STP) to develop an internationally accepted nomenclature for proliferative and nonproliferative lesions in laboratory animals. The purpose of this publication is to provide a standardized nomenclature for classifying microscopic lesions observed in the female reproductive tract of laboratory rats and mice, with color photomicrographs illustrating examples of some lesions. The standardized nomenclature presented in this document is also available electronically on the internet (http://www.goreni.org/). Sources of material included histopathology databases from government, academia, and industrial laboratories throughout the world. Content includes spontaneous and aging lesions as well as lesions induced by exposure to test materials. There is also a section on normal cyclical changes observed in the ovary, uterus, cervix and vagina to compare normal physiological changes with pathological lesions. A widely accepted and utilized international harmonization of nomenclature for female reproductive tract lesions in laboratory animals will decrease confusion among regulatory and scientific research organizations in different countries and provide a common language to increase and enrich international exchanges of information among toxicologists and pathologists.

Proliferative Lesions of Ovarian Granulosa Cells and Reversible Hormonal Changes Induced in Rats by a Selective Estrogen Receptor Modulator

This study assessed the effects of raloxifene. a selective estrogen receptor modulator (SERM), on ovarian morphology and circulating hormone levels in rats. Female Fischer-344 rats (65/group) were given dietary raloxifene for 6 months at average daily doses of 0, 15, 75, and 365 mg/kg. Morphologic evaluation of ovaries was conducted on 25 rats/group at the end of the treatment period and from 20 rats per group after 1 and 3 months withdrawal from treatment. Plasma hormone analyses were conducted on 10 rats per group at the end of the treatment period and after each withdrawal period. Treatment with raloxifene for 6 months resulted in disruption of the hypothalamic-pituitary-ovarian axis, manifested by increased plasma concentrations of luteinizing hormone (LH) and estradiol-17beta (E2), and failure of ovulation, manifested by ovarian follicular prominence (retained anovulatory follicles), lack of corpora lutea (CL), and depressed plasma progesterone (P4). Many (56% to 80%) rats in all raloxifene treated groups had focal, minimal to slight hyperplasia of granulosa cells within individual retained follicles. A few treated rats in the mid- and high-dose groups (2 of 25 and 3 of 25, respectively) had more extensive focal proliferation of granulosa cells. These foci were approximately 3 to 6 mm in overall size and were characterized by moderate papillary proliferation of large granulosa cells associated with cystic spaces, often with hemorrhage. In 4 of the 5 rats with this focal cystic granulosa cell hyperplasia, the remainder of the involved ovary and the contralateral ovary were atrophic. After 1 or 3 months of drug withdrawal, most previously treated rats examined had morphologic evidence of ovarian cyclic changes, including developing follicles, various stages of CL, and normal plasma levels of LH, E2, and P4. Continued lack of cyclic changes was limited to 4 of 20 rats from the low-dose group after 1 month of recovery and to 1 low dose rat after 3 months. Intrafollicular granulosa cell hyperplasia was not seen in rats in the reversibility phase. Areas of prior focal cystic granulosa cell hyperplasia were represented by focal sclerosis that included hemorrhage and/or hemosiderin. The foci of sclerosis were associated with cystic spaces after 1 month and were solid after 3 months. A granulosa cell tumor, approximately 12-13 mm diameter, was present in a high-dose rat in the 3-month reversibility group. This tumor effaced 1 ovary and was characterized by proliferative granulosa cells, usually in papillary formations and cords within cystic spaces. This rat had atrophy of the uninvolved ovary, excessive plasma levels of E2 and prolactin, and high P4 levels considering the absence of CL. The results of this study indicate that ovarian granulosa cells in rats are susceptible to proliferative changes when stimulated chronically with excessive trophic hormones. Most of these proliferative changes were reversible upon cessation of the hormonal stimulation. However, the proliferative lesion in one treated rat progressed to apparent autonomous (neoplastic) growth.

Incidence of Spontaneous Neoplastic and Nonneoplastic Lesions in Charles River CD-1® Mice Varies with Breeding Origin

Three separate control lifetime studies were conducted with untreated Crl: CD-1 ®(ICR)BR mice using a total of 400 mice/sex maintained to 21 mo of age. Similar husbandry practices and environmental conditions were used for all 3 studies. It was noted after study initiation that the Charles River breeding facility of origin was different for each study. The aggregate range of survival and incidence of neoplasms for the combined studies was similar to that previously reported. However, these 3 groups of mice had prominent variation in survival and in the incidence of pulmonary adenomas and systemic amyloidosis in males and females and in the incidence of hepatocellular neoplasms in males. The present studies indicate that consistent procurement of test animals is an additional variable to be considered in the establishment of a valid database within a test facility when using an outbred mouse.

Urothelial Carcinogenesis in the Urinary Bladder of Rats Treated with Naveglitazar, a γ-dominant PPAR α/γ Agonist: Lack of Evidence for Urolithiasis as an Inciting Event

Naveglitazar, a γ-dominant peroxisome proliferator-activated receptor (PPAR) α/γ dual agonist, was tested for carcinogenicity in F344 rats in a 2-year study. Changes in urine composition and urothelial morphology were characterized in a companion 18-month investigative study. A significant increase in neoplasms of the bladder occurred only in females of the high-dose group (14/60) in the carcinogenicity study. Trends toward increased cell proliferation in the urothelium were noted in both sexes at all time points evaluated in the 18-month study. Group means for urothelial mitogenesis were increased statistically significantly only in high-dose females at 12 and 18 months. Urothelial hyperplasia occurred in high-dose females at 18 months. Morphologic changes in the urothelium at earlier time points were limited to hypertrophy and decreased immunolabeling of the superficial cells for cytokeratin 20 (a marker of terminal differentiation in urothelial cells) in both males and females. No treatment-related changes in urinary parameters, including urinary sediments, were associated with the occurrence of urothelial proliferation. Urinary pH was unaffected by treatment in both males and females, but expected diurnal changes were demonstrated. Collectively, these data indicate that naveglitazar was associated with hypertrophic and proliferative effects on the urothelium, but a link with changes in urinary parameters was not demonstrated.

Alternative Mouse Models for Carcinogenicity Assessment: Industry Use and Issues With Pathology Interpretation

The Carcinogenicity Alternative Mouse Models (CAMM) Working Group of the Society of Toxicologic Pathology (STP) surveyed the membership to define current practices and opinions in industry regarding the use of alternative mouse models for carcinogenicity testing. The results of the survey indicated that CAMM are used most often to fulfill a regulatory requirement (e.g., to replace the two-year mouse bioassay) and are being accepted by regulatory agencies. Alternative models are also sometimes used for internal decision making or to address a mechanistic question. The CAMM most commonly used are the p53+/— and rasH2. The rasH2 appears to be the currently accepted model for general carcinogenicity testing. Problems with study interpretation included lack of historic background data, unexpected tumor finding, and tumor identification/characterization of early lesions. Problems with implementation or conduct of the study included extent of the pathology evaluation, numbers of animals, survival, and study duration. Recommendations were developed for, frequency and type of positive control testing, extent of histopathologic examination of test article—treated and positive control animals, current use and future development of diagnostic criteria; increased availability and use of historic data, and use of other genetically modified mice in carcinogenicity testing.