E. van Garderen

Canine prostate carcinoma: epidemiological evidence of an increased risk in castrated dogs.

The present retrospective study investigated the frequency of prostate carcinoma (PCA) among prostate abnormalities in dogs and determined whether castration influences the incidence of PCA in dogs. During the years 1993-1998, 15,363 male dogs were admitted to the Utrecht University Clinic of Companion Animals, and of these dogs 225 were diagnosed with prostatic disease. In addition, another 206 male dogs were diagnosed as having prostatic disease based on cytologic examination of aspiration biopsies submitted by referring veterinarians. Benign prostatic hyperplasia was diagnosed in 246 dogs (57.1%), prostatitis in 83 dogs (19.3%), and PCA in 56 dogs (13%). Dogs with PCA were significantly older (mean age=9.9 years) than dogs with other prostatic diseases (mean age=8.4 years). The Bouvier des Flandres breed had an increased risk (odds ratio (OR)=8.44; 95% CI 4.38-16.1) of having PCA. Castration (26/56) increased the risk (OR=4.34; 95% CI 2.48-7.62) of PCA. The mean age at diagnosis of PCA in castrated dogs and in intact male dogs was not significantly different. The interval between castration and onset of prostatic problems was highly variable, suggesting that castration does not initiate the development of PCA in the dog, but it does favour tumor progression.

New insights in the molecular mechanism of progestin-induced proliferation of mammary epithelium: Induction of the local biosynthesis of growth hormone (GH) in the mammary gland of dogs, cats and humans

In contrast to the protective, anti-proliferative, action of progestins on the development of endometrium cancer, progestins may have local stimulatory and inhibitory effects on the proliferation of mammary epithelium. Until now there was no final molecular explanation of this discrepancy. Prolonged treatment of dogs with depot medroxyprogesterone acetate (DPMA) or with proligestone (PROL) results in enhanced plasma concentrations of growth hormone (GH), insulin-like growth factor (IGF)-I, IGF-II and IGF-binding proteins, together with the development of benign mammary tumours. The stimulated plasma GH levels do not have the typical pulsatile secretion pattern, and are not sensitive to stimulation with GHRH or to inhibition with somatostatin. The autonomous secretion can be inhibited by the anti-progestin RUU-486. The source of progestin-induced plasma GH levels has been demonstrated to be the canine mammary gland where progestins induce the expression of the gene encoding GH. The expression of the GH gene is restricted to focal areas of hyperplastic epithelium as shown by immunohistochemistry, and is predominantly located in single positive epithelial cells with an intermediate position between luminal- and myo-epithelium. Progestin-induced fibroadenomatous changes in the mammary gland of cats are also associated with locally enhanced GH expression. In both normal, benign and malignant mammary tumours of humans GH mRNA expression has been demonstrated by RT-PCR. The presence of GH mRNA is associated with the presence of immunoreactive GH as shown by immunohistochemistry. Sequence analysis revealed 100% homology to the pituitary expressed GH gene. In malignant mammary tumours of humans and dogs GH expression is also found in specimens negative for progesterone receptors as measured by ligand binding. It is concluded that the gene encoding GH is expressed in the mammary gland of a variety of species, including man. This appears to represent a contribution to the molecular explanation of the action of progestins on proliferation of mammary epithelium. It needs, however, to be proven whether this local biosynthesis of GH in the mammary gland is the cause of the local stimulatory effect of progestins on the proliferation of mammary epithelium.

Hydranencephaly in calves following the bluetongue serotype 8 epidemic in the Netherlands

SIR, — As pathologists of the Animal Health Service (ahs) in the Netherlands, we have recently observed an increasing number of submissions of aborted and newborn calves with severe developmental defects of the brain. In most cases the lesions were confined to the cerebrum. Cerebral hemispheres

Cutaneous Malignant Melanomas in 57 Cats: Identification of (Amelanotic) Signet-ring and Balloon Cell Types and Verification of Their Origin by Immunohistochemistry, Electron Microscopy, and In Situ Hybridization

Cutancous malignant melanomas in cats, both melanotic and amelanotic, were diagnosed in 57 of 1,530 skin tumors during the period 1991-1995. All melanomas occurred in domestic shorthaircats of ages 3-19 years (

MAMMARY GROWTH HORMONE AND TUMORIGENESIS : LESSONS FROM THE DOG

X = 11.5 years). Postmortem examination was performed on 16 cats. All had metastases in the regional lymph node and several organ systems. The average time of survival after surgical removal of the tumor was 4.5 months. Histologically, five types of melanomas could be distinguished: epithelioid, spindle, mixed, signet-ring, and balloon cell. Whereas all epithelioid, spindle, and mixed epithelioid/spindle cell types showed pigmentation, signet-ring and balloon cell types were often amelanotic. Immunohistochemical examination of the melanomas revealed a positive staining for S-100, vimentin, and neuron-specific enolase. The melanomas were negative for muscle cell markers, except in some of the signet-ring cell melanomas; 13 of 21 tumors showed a weak positive staining for polyclonal desmin. Electron microscopic examination of signet-ring cell melanomas revealed an abundance of intermediate filaments, whereas in some of these tumors a few cells with melanosomes were found. Nonisotopic in situ hybridization for mRNA encoding for tyrosinase verified the melanocytic origin of the amelanotic signet-ring and balloon cell melanomas.

Immune response in hormonally-induced prostatic hyperplasia in the dog.

The discovery in the early 1990s that progestin-induced growth hormone (GH) excess in the dog originates in the mammary gland can be seen as a hallmark in the research on the pathogenesis of mammary cancer in the dog. The local biosynthesis and release of GH may provide a highly proliferative environment in the mammary gland, which contributes to the development and/or progression of mammary tumours. Before final goals such as prevention of tumour formation or inhibition of tumour promotion can be achieved it is of eminent importance to elucidate the mechanism of progesterone-induced mammary GH production and the mechanism of local autocrine/paracrine action of GH. These local GH effects may be achieved through direct growth stimulating effects of GH as well as by indirect effects mediated by the stimulation of the biosynthesis of insulin-like growth factor-I (IGF-I). The biological effects of the IGFs largely depend on the presence of IGF binding proteins (IGFBPs) which may both enhance or inhibit the activity of the IGFs. This review concentrates on recent advances in the understanding of the local mammary GH-IGF axis and the lessons which can be drawn from the dog for mammary cancer research in other species.

Ovine and Bovine Congenital Abnormalities Associated With Intrauterine Infection With Schmallenberg Virus

We induced prostatic enlargement in castrated dogs using either androgen alone or androgen combined with estrogen. In addition to previously reported hyperplastic changes, marked infiltration with immune effector cells was observed. This mononuclear cell infiltrate was phenotypically characterized using CD3 as pan T-lymphocyte marker, CD79 for B-lymphocytes, MAC378 for macrophages, and antibodies against kappa- and lambda-immunoglobulin (Ig) light chains for plasma cells. The majority of inflammatory cells (>80%) in the mononuclear infiltrates were T-lymphocytes and the numbers correlated with the degree of inflammation. The B-lymphocytes were found particularly in areas with marked follicular formation and diffuse infiltration, whereas there were only a few positive cells (<10%) in areas with a moderate or slight inflammation. Macrophages were found primarily in areas with atrophic and cystic changes with and without inflammation. The expression of lambda-Ig-positive cells depended on the degree of inflammation (5-10%), whereas immunoreactivity of kappa-Ig did not correlate with the extent of inflammatory reaction. Our present findings together with the evaluation of longitudinal biopsies of hormonally-induced BPH indicate that hyperplasia preceded cell-mediated and humoral immune response.

Comparison of the histological changes in the dog after treatment with the progestins medroxyprogesterone acetate and proligestone

In December 2011, a previously unknown congenital syndrome of arthrogryposis and hydranencephaly in sheep and cattle appeared in the Netherlands as an emerging epizootic due to Schmallenberg virus (SBV). Gross lesions in 102 lambs and 204 calves included porencephaly, hydranencephaly, cerebellar dysplasia and dysplasia of the brainstem and spinal cord, a flattened skull with brachygnathia inferior, arthrogryposis, and vertebral column malformations. Microscopic lesions in the central nervous system showed rarefaction and cavitation in the white matter, as well as degeneration, necrosis, and loss of neurons in the gray matter. Brain and spinal cord lesions were more severe in lambs than in calves. Ovine and bovine cases examined early in the outbreak showed encephalomyelitis. SBV infection was confirmed by real-time quantitative reverse transcription polymerase chain reaction (RT-qPCR) in brain samples in 46 of 102 lambs (45%) and in 32 of 204 calves (16%). Immunohistochemistry, performed on tissue samples from 18 RT-qPCR–positive lambs, confirmed the presence of bunyaviral antigen in neurons of the brain in 16 cases. SBV antibodies were detected by enzyme-linked immunosorbent assay in fetal blood in 56 of 61 sampled ovine cases (92%). In a virus neutralization test, all tested dams of affected newborns, 46 ewes and 190 cows, were seropositive. Compared with other teratogenic viral infections, the pathogenesis and lesions of SBV in sheep and cattle fetuses are similar to those of other ruminant orthobunyaviruses. However, the loss of spinal ventral motor neurons and their tracts, resulting in micromyelia, distinguishes SBV infection from other viral central nervous system lesions in newborn ruminants.

Post‐mortem findings in calves suffering from bovine leukocyte adhesion deficiency [BLAD)

Administration of progestins in the dog may result in overproduction of growth hormone, suppression of the hypothalamic-pituitary-adrenocortical axis, and insulin resistance. In this paper we present a comparison of the histological findings in control dogs and dogs treated with either medroxyprogesterone acetate (MPA) or proligestone (PROL). Depot preparations of MPA or PROL were administered (SC) at 3-week intervals in two groups of seven ovariohysterectomized beagle dogs, after which three dogs of each group were killed. After a 6-month period without hormone treatment during which recovery was studied, the remaining dogs received five additional injections at the same interval and were subsequently killed. Tissue samples of four intact female beagle dogs served as controls. Progestin treatment resulted in atrophy of the adrenal cortex. In both MPA- and PROL-treated dogs, the thickness of the combined zona fasciculata and reticularis was significantly smaller than in control animals. In the mammary glands of progestin-treated dogs there were well developed alveoli and normal ducts adjacent to foci of hyperplastic ductular epithelium. Five dogs in each treatment group had developed benign mammary tumours which varied from simple tubular and papillary adenomas to benign complex and mixed tumours, whereas no mammary tumours were observed in the control animals. In each treatment group, steroid-induced hepatopathy was observed in the liver of three dogs. Vacuolation of the cells of the islets of Langerhans and the epithelium of the intercalated ducts was present in two dogs of each treatment group and was only observed after the second series of progestin administrations. Incidental findings included chronic pyelonephritis, aspecific dermatitis, and mucinous dysplasia of the gall bladder. No abnormalities were found in sections of spleen, lung, brain, or pituitary gland. There were no significant differences in the frequencies of the various abnormalities between MPA- and PROL-treated dogs. Our findings correspond with the clinical and biochemical results after treatment of dogs with MPA and PROL. The high incidence of mammary tumours might be associated with our recent finding that in the dog progestins induce ectopic production of growth hormone in the mammary gland. The dog might be a good model for further studies on hormonally induced breast cancers.

Locally produced growth hormone in canine insulinomas.

Five female Holstein-Friesian calves were clinically suspected of suffering from Bovine Leukocyte Adhesion Deficiency (BLAD), because of multiple recurrent infections and persistent leucocytosis. The diagnosis was established by a Polymerase Chain Reaction (PCR) technique, by which a point mutation in the DNA encoding for the CD18 allele was detected. The animals either died spontaneously or were killed because of incurable life threatening infections. Gross post-mortem examination revealed severe and extensive necrotizing processes mainly located in the respiratory and digestive tract. Microscopic examination of these necrotizing lesions demonstrated a lack of extravascularly located polymorphonuclear granulocytes (PMN) although vascular leucocytosis was obvious. However, extensive catarrhal bronchopneumonia was noticed with marked infiltration of the alveoli and bronchioli by PMN. These findings are discussed in relation to the pathogenesis of BLAD.