Readministration of adenoviral gene delivery to dopamine neurons.

An approach currently being explored as treatment for Parkinson's disease is gene therapy. An important question concerns the duration of transgene expression in dopamine neurons and the issues of vector persistence, neuronal damage and the feasibility of readministering vector to the same neuronal population. We show, using an adenoviral vector expressing the LacZ reporter gene, that transgene expression declined over time but with minimal loss of dopamine neurons or vector DNA. Readministration of vector resulted in low levels of transgene delivery to the neurons. Moreover, the neurons to which vector had already been delivered were unable to transport the retrograde tracer fluorogold. Our findings indicate that transgene expression declined in dopamine neurons despite the persistence of virus, and the capacity to readminister vector to these neurons was limited.

Failure of normal Leydig cell development in follicle-stimulating hormone (FSH) receptor-deficient mice, but not FSHbeta-deficient mice: role for constitutive FSH receptor activity.

Previous studies have suggested that FSH may be involved in regulation of Leydig cell function. We have examined this directly using two mouse models with null mutations in either the FSH beta-subunit (FSHbetaKO mice) or the FSH receptor (FSHRKO mice). Circulating LH levels were normal in adult FSHbetaKO mice, but were significantly increased in FSHRKO mice. Intratesticular testosterone levels increased normally in FSHbetaKO mice from birth to adulthood, whereas testosterone levels in FSHRKO mice failed to increase normally after puberty and were significantly reduced in adult animals. This was associated with reduced levels of mRNA encoding cytochrome P450 side-chain cleavage, 3beta-hydroxysteroid dehydrogenase type VI, and steroidogenic acute regulatory protein in FSHRKO mice. Leydig cell number was normal in FSHbetaKO mice during development, but in FSHRKO mice Leydig cell number increased slowly after puberty and was significantly reduced in the adult animal. Transfection studies showed that the FSHR exhibits constitutive activity in the absence of agonist stimulation. The results indicate, therefore, that Sertoli cells regulate the development of Leydig cell number and that constitutive activity within the FSHR is sufficient to stimulate this process. The presence of the hormone itself is not required when circulating LH levels are adequate.

Regulation of Sertoli cell number and activity by follicle-stimulating hormone and androgen during postnatal development in the mouse.

The roles of FSH and androgen in the postnatal development of Sertoli cell number and function have been investigated using mice that lack FSH (FSHbetaKO), FSH-receptors (FSHRKO), or androgen receptors (Tfm). At birth and d 5, Sertoli cell number was normal in FSHRKO and FSHbetaKO mice, but was significantly reduced on d 20 and in adulthood. In contrast, Sertoli cell number was reduced at birth in Tfm mice and remained significantly less than normal up to adulthood. Sertoli cell activity was determined through measurement of 11 different mRNA transcript levels. From birth to adulthood, the expression of most transcripts increased, with a significant rise occurring between d 5 and 10. In animals lacking FSH stimulation, mRNA expression (measured per Sertoli cell) was largely normal on d 5, but was reduced in seven transcripts on d 20 and in five transcripts at adulthood. In Tfm mice two transcripts showed reduced expression on d 5, and four were reduced on d 20, although expression in adult Tfm mice did not differ from that in normal cryptorchid controls. The results show that 1) testosterone, but not FSH, is required for Sertoli cell proliferation during fetal and early neonatal life; 2) FSH and testosterone both regulate the late stages of Sertoli cell proliferation; 3) FSH has a general trophic effect on Sertoli cell activity in the pubertal and adult mouse; and 4) androgens are required for specific transcript expression during prepubertal development. Specific effects of androgens were not seen in the adult, although these may be masked by the effects of cryptorchidism.

Th1 cytokines are upregulated by adenoviral vectors in the brains of primed mice.

A major disadvantage of first generation adenoviral vectors for gene therapy in the brain is the immune response they elicit. Human adenovirus is a common respiratory virus and earlier exposure to it has important implications for gene therapy. We show that the immune response against E1-deleted adenoviral vectors in the brain is more deleterious in animals previously exposed to the virus. Analysis of cytokine mRNA revealed enhanced and prolonged upregulation of the Th1 proinflammatory cytokines, IFN-gamma, TNF-alpha and IL-12 whereas, effects on Th2 cytokines were negligible. This was associated with reduced reporter gene expression, decreased expression of the dopamine transporter protein and demyelination. This knowledge of the molecular regulation of the immune response provides insight into targets, which could be manipulated to reduce inflammation in immunologically primed animals.

Hypogonadal mouse, a model to study the effects of the endogenous lack of gonadotropins on apoptosis.

Testicular apoptosis is involved in the regulation of germ cell numbers, allowing optimal sperm production. Apoptosis has been described to occur in response to the absence of hormonal stimulation of the testis. Here we investigate the effect of the physiological lack of gonadotropins from birth using the hypogonadal (homozygous for the mutant allele Gnrh1(hpg)) mouse as a model. We pursued a concerted strategy using microarray analysis and RT-PCR to assess transcript levels, TUNEL to quantify the incidence of apoptosis, and Western blotting to assess the respective contribution of the extrinsic and intrinsic apoptotic pathways. Our results indicate a large increase in apoptosis of both somatic and germ cell compartments in the hpg testis, affecting Sertoli cells as well as germ cells of all ages. We confirmed our observations of Sertoli cell apoptosis using anti-Mullerian inhibiting substance staining and staining for cleaved fodrin alpha. In the somatic compartment, apoptosis is primarily regulated via the membrane receptor (extrinsic) apoptotic pathway, while in the germ cell compartment, regulation occurs via both the mitochondrial (intrinsic) and membrane receptor (extrinsic) apoptotic pathways, the latter potentially in a stage-specific manner. This study is the first report of spermatogonial apoptosis in response to gonadotropin deficiency as well as the first report of Sertoli cell apoptosis in response to gonadotropin deficiency in the mouse.

Influence of mutations affecting gonadotropin production or responsiveness on expression of inhibin subunit mRNA and protein in the mouse ovary.

Measurement of inhibins A and B in the serum of normal cyclic rodents has implicated FSH in the regulation of these peptides within the ovary. To extend these observations we have used a panel of mutant mice carrying mutations which affect either the production of, or the ability to respond to, FSH and LH. As a consequence, the females are infertile and show different degrees of follicular development. The aim of this study was to measure inhibin gene transcription in the ovaries of these mutant females together with inhibin protein levels in ovaries and serum and to relate these to follicular development within the ovary. Comparison was made with a pool of normal/heterozygous females. In hpg females where lack of GnRH production results in the absence of gonadotropin synthesis, in FSHbeta knockout (FSHbetaKO) females where disruption of the gene encoding FSHbeta results in the absence of FSH production, and in FSH receptor knockout (FSHRKO) females which are unable to respond to circulating FSH, follicular development remains at the pre-antral stage in these three mutants. Only in the hpg females were common inhibin alpha subunit mRNA levels significantly lower than normal. In these three mutants, however, mRNA levels for both the betaA and betaB subunits were extremely low compared with normal mice. At the protein level, neither inhibin A nor B was detected in the serum of these three mutants; however inhibin B, albeit at very low levels, was detectable within the ovaries. These observations confirm a major role for FSH in the control of transcription of the betaA and betaB genes but suggest that the constitutive transcription of the alpha subunit is less dependent on FSH. In contrast, in LH receptor knockout (LuRKO) female mice inhibin betaA subunit mRNA levels were similar to those measured in normal/heterozygous females but levels of inhibin alpha and betaB subunit mRNAs were significantly higher than in the normal group. This was reflected in significantly higher inhibin B protein levels in ovaries and serum. An inability to respond to LH combined with high circulating levels of FSH leads to a high proportion of antral follicles in LuRKO females, with granulosa cells constituting the major cell type within the ovary. The high percentage of antral granulosa cells is likely to account for the significantly higher levels of inhibin B production in these ovaries.

Neuropathological consequences of delivering an adenoviral vector in the rat brain.

BACKGROUND: Adenoviruses have many advantages as vehicles for gene delivery to the central nervous system (CNS) and retrograde transport of vectors to axonally linked sites has been postulated as a method for targeting neurons in remote brain regions. To investigate optimisation of this we injected different doses of vector and have documented the neuropathological side effects. METHODS: Increasing doses of a first-generation adenoviral vector, expressing the lacZ gene, were inoculated in the rat striatum and beta-galactosidase expression was examined at the primary and secondary sites. Subsequently, at the highest dose of vector, transgene expression, the inflammatory response, tyrosine hydroxylase (TH) expression and the rotational behaviour of animals were studied over time. RESULTS: When a high dose of an adenoviral vector was delivered to the rat striatum, high levels of transgene expression were seen at 5 days in the injection site and in the substantia nigra. Smaller doses gave lower levels of expression with little expression detectable in the substantia nigra. At later time points, with the high dose, a marked reduction in transgene expression was detected and was accompanied by cytopathic damage, a strong inflammatory response and animal weight loss. This was associated with depletion in TH levels and abnormal motor behaviour in animals. CONCLUSIONS: Neuropathological damage in the dopaminergic system, caused by high doses of adenoviral vectors, has not previously been documented. To minimise damage and prolong transgene expression, it is important that the dose of vectors to be delivered is carefully optimised.

Reversible infertility in male mice after oral administration of alkylated imino sugars: a nonhormonal approach to male contraception.

During mammalian spermatogenesis, male germ cells undergo a dramatic transformation, which includes a change of shape, nuclear condensation, and development of specialised structures, such as an acrosome, and a flagellum with a mitochondrial sheath. We have found a previously undescribed pharmacological approach to intervene in these events. After oral administration of the alkylated imino sugar N-butyldeoxynojirimycin (NB-DNJ) to mice, epididymal spermatozoa displayed a spectrum of abnormal head shapes, and acrosomal antigens were mostly absent or displayed irregular patterns. In addition, the mitochondria of these cells often had an aberrant morphology, and were arranged in relatively short and wide mitochondrial sheaths. The motility of the affected spermatozoa was severely impaired. After 3 weeks of administration of NB-DNJ, male mice became sterile, and regained their fertility during the fourth week off drug. The NB-DNJ-induced infertility was not associated with a reduction in the serum testosterone level. Biochemically, the capacity of imino sugars to impair spermatogenesis was associated with their potential to attenuate the biosynthesis of glucosylceramide-based sphingolipids. Our study reveals that male fertility is affected by partial glycosphingolipid depletion, or, alternatively, by a distinct as yet unidentified property that is shared by alkylated imino sugars that inhibit glucosylceramide biosynthesis. These compounds therefore may be new leads in the development of a male contraceptive, especially because NB-DNJ has already been through extensive evaluation in various mammals, including man.