Saleela Ruwanpura

Hormonal regulation of male germ cell development

Over the past five decades, intense research using various animal models, innovative technologies notably genetically modified mice and wider use of stereological methods, unique agents to modulate hormones, genomic and proteomic techniques, have identified the cellular sites of spermatogenesis, that are regulated by FSH and testosterone. It has been established that testosterone is essential for spermatogenesis, and also FSH plays a valuable role. Therefore understanding the basic mechanisms by which hormones govern germ cell progression are important steps towards improved understating of fertility regulation in health diseases.

Tumor Cell Response to Synchrotron Microbeam Radiation Therapy Differs Markedly From Cells in Normal Tissues

PURPOSE High-dose synchrotron microbeam radiation therapy (MRT) can be effective at destroying tumors in animal models while causing very little damage to normal tissues. The aim of this study was to investigate the cellular processes behind this observation of potential clinical importance. METHODS AND MATERIALS MRT was performed using a lattice of 25 mum-wide, planar, polychromatic, kilovoltage X-ray microbeams, with 200-microm peak separation. Inoculated EMT-6.5 tumor and normal mouse skin tissues were harvested at defined intervals post-MRT. Immunohistochemical detection of gamma-H2AX allowed precise localization of irradiated cells, which were also assessed for proliferation and apoptosis. RESULTS MRT significantly reduced tumor cell proliferation by 24 h post-irradiation (p = 0.002). An unexpected finding was that within 24 h of MRT, peak and valley irradiated zones were indistinguishable in tumors because of extensive cell migration between the zones. This was not seen in MRT-treated normal skin, which appeared to undergo a coordinated repair response. MRT elicited an increase in median survival times of EMT-6.5 and 67NR tumor-inoculated mice similar to that achieved with conventional radiotherapy, while causing markedly less normal tissue damage. CONCLUSIONS This study provides evidence of a differential response at a cellular level between normal and tumor tissues after synchrotron MRT.

Interleukin-6 promotes pulmonary emphysema associated with apoptosis in mice

The IL-6 cytokine family, which signals via the shared gp130 coreceptor, is linked with the pathogenesis of emphysema. However, the definitive mechanisms by which these cytokines cause emphysema remain ill-defined. We took an in vivo genetic complementation approach to identify the specific IL-6 cytokine family members and gp130-regulated cellular processes that cause emphysema. We used gp130(F/F) mice homozygous for a subtle knock-in mutation in gp130 that deregulates intracellular signaling by the IL-6 cytokine family. The gp130(F/F) mice spontaneously develop emphysema by age 6 months. Within the IL-6 cytokine family, only IL-6 was significantly up-regulated in the lungs of gp130(F/F) mice, and the genetic targeting of IL-6 in gp130(F/F) mice (gp130(F/F):IL-6(-/-)) prevented emphysema. By contrast, the genetic ablation of receptor signaling via IL-11, which like IL-6 signals via a gp130 homodimer and uses the same signaling machinery, failed to ameliorate emphysema in gp130(F/F) mice. Among the disease-associated processes examined, emphysema strongly correlated with elevated alveolar cell apoptosis. Acute (4-day) exposure to cigarette smoke (CS) further augmented the expression of IL-6 in lungs of gp130(F/F) mice, and subchronic (6-week) exposure to CS exacerbated emphysematous and apoptotic changes in the lungs of gp130(F/F) but not gp130(F/F): IL-6(-/-) mice. IL-6 is the main causative agent of IL-6 cytokine family-induced emphysema, and operates to induce apoptosis in the lung. We propose that the discrete targeting of IL-6 signaling may provide an effective therapeutic strategy against human lung disease.

Follicle-Stimulating Hormone Affects Spermatogonial Survival by Regulating the Intrinsic Apoptotic Pathway in Adult Rats

Abstract Follicle-stimulating hormone plays a key role in spermatogonial development in adult rats via poorly understood mechanisms. We aimed to identify the role of this hormone in the regulation of germ cell apoptosis and proliferation in adult rats by suppression of FSH action following passive immunoneutralization with a rat FSH antibody for 4 and 7 days. Apoptosis and proliferation were identified by TUNEL and proliferating cell nuclear antigen labeling methods, respectively. Intrinsic and extrinsic apoptotic pathways were identified by immunohistochemistry, stereological techniques, and RT-PCR by assessing pathway-specific proteins and genes. Following FSH suppression for 4 and 7 days, we have previously reported a 30% decrease in spermatogonial number, with increased apoptosis in a stage-specific manner. The present study also shows stage-specific increases in apoptosis with no changes in proliferation. This increase in apoptosis was attributable to an increase in spermatogonial apoptosis via the intrinsic rather than extrinsic pathway, as shown by increased activated caspase 9-positive spermatogonia. The concomitant suppression of FSH and LH/testosterone showed that testosterone alone or together with FSH was more important in spermatocyte and spermatid survival by regulating both apoptotic pathways. A reduction in the level of the intrinsic pathway transcript Bcl2l2 (apoptosis suppressor gene) following FSH suppression for 4 days shows that FSH regulates some components of the intrinsic pathway. This study reveals that FSH predominantly acts as a survival factor for spermatogonia by regulating the intrinsic pathway while having no affect on germ cell proliferation in rats in vivo.

IL6 Trans-signaling Promotes KRAS-Driven Lung Carcinogenesis

Oncogenic KRAS mutations occur frequently in lung adenocarcinoma. The signaling pathways activated by IL6 promote Kras-driven lung tumorigenesis, but the basis for this cooperation is uncertain. In this study, we used the gp130(F/F) (Il6st) knock-in mouse model to examine the pathogenic contribution of hyperactivation of the STAT3 arm of IL6 signaling on KRAS-driven lung tumorigenesis. Malignant growths in the gp130(F/F):Kras(G12D) model displayed features of atypical adenomatous hyperplasia, adenocarcinoma in situ, and invasive adenocarcinoma throughout the lung, as compared with parental Kras(G12D) mice, where STAT3 was not hyperactivated. Among IL6 family cytokines, only IL6 was upregulated in the lung. Accordingly, normalization of pulmonary STAT3 activity, by genetic ablation of either Il6 or Stat3, suppressed the extent of lung cancer in the model. Mechanistic investigations revealed elevation in the lung of soluble IL6 receptor (sIL6R), the key driver of IL6 trans-signaling, and blocking this mechanism via interventions with an anti-IL6R antibody or the inhibitor sgp130Fc ameliorated lung cancer pathogenesis. Clinically, expression of IL6 and sIL6R was increased significantly in human specimens of lung adenocarcinoma or patient serum. Our results offer a preclinical rationale to clinically evaluate IL6 trans-signaling as a therapeutic target for the treatment of KRAS-driven lung adenocarcinoma.

Deregulated Stat3 signaling dissociates pulmonary inflammation from emphysema in gp130 mutant mice

Interleukin (IL)-6 is a potent immunomodulatory cytokine that is associated with emphysema, a major component of chronic obstructive pulmonary disease (COPD). IL-6 signaling via the gp130 coreceptor is coupled to multiple signaling pathways, especially the latent transcription factor signal transducer and activator of transcription (Stat)3. However, the pathological role of endogenous gp130-dependent Stat3 activation in emphysema is ill defined. To elucidate the role of the IL-6/gp130/Stat3 signaling axis in the cellular and molecular pathogenesis of emphysema, we employed a genetic complementation strategy using emphysematous gp130(F/F) mice displaying hyperactivation of endogenous Stat3 that were interbred with mice to impede Stat3 activity. Resected human lung tissue from patients with COPD and COPD-free individuals was also evaluated by immunohistochemistry. Genetic reduction of Stat3 hyperactivity in gp130(F/F):Stat3(-/+) mice prevented lung inflammation and excessive protease activity; however, emphysema still developed. In support of these findings, Stat3 activation levels in human lung tissue correlated with the extent of pulmonary inflammation but not airflow obstruction in COPD. Furthermore, COPD lung tissue displayed increased levels of IL-6 and apoptotic alveolar cells, supporting our previous observation that increased endogenous IL-6 expression in the lungs of gp130(F/F) mice contributes to emphysema by promoting alveolar cell apoptosis. Collectively, our data suggest that IL-6 promotes emphysema via upregulation of Stat3-independent apoptosis, whereas IL-6 induction of lung inflammation occurs via Stat3. We propose that while discrete targeting of Stat3 may alleviate pulmonary inflammation, global targeting of IL-6 potentially represents a therapeutically advantageous approach to combat COPD phenotypes where emphysema predominates.

Pathways involved in testicular germ cell apoptosis in immature rats after FSH suppression

FSH is a key regulator of testis function, required for the establishment of full complements of Sertoli and germ cells during postnatal testis development and for the maintenance of spermatogenesis in the adult. FSH plays an important role in germ cell survival rather than proliferation, in the window between 14 and 18 days of testicular development, which coincides with the cessation of Sertoli cell proliferation and the onset of germ cell meiosis during the first wave of spermatogenesis. This study aimed to identify the pathway(s) of apoptosis regulated by changes in FSH levels in 14 - to 18-day-old rats, using a model of in vivo FSH suppression by passive immunoneutralization with a rat anti-FSH antibody. Apoptotic pathways were identified by immunohistochemistry using pathway-specific proteins as markers of the intrinsic (activated caspase 9) and extrinsic (activated caspase 8) pathways, followed by quantification of cell numbers using stereological techniques. In addition, RT-PCR was used to assess the expression of pathway-specific genes. We previously reported a 2.5-fold increase in spermatogonial apoptosis in these samples after 4 days of FSH suppression, and now show that this increase correlates with a 9.8-fold (P<0.001) increase in the frequency of caspase 9-positive spermatogonia in the absence of caspase 8 immunoreactivity. By contrast, spermatocytes exhibited both increased caspase 9 (7.5-fold; P<0.001) and caspase 8 (5.7 fold; P<0.001) immunoreactivities after 4 days of FSH suppression. No significant change in the transcription levels of candidate genes required for either pathway was detected. This study demonstrates that, in the seminiferous tubules, FSH suppression induces spermatogonial apoptosis predominantly via the intrinsic pathway, while spermatocyte apoptosis occurs via both the intrinsic and extrinsic pathways.

IL-6/Stat3-driven pulmonary inflammation, but not emphysema, is dependent on interleukin-17A in mice.

Pulmonary emphysema is linked to T cell‐mediated autoimmune inflammation, although the pathogenic role of specific pro‐inflammatory cytokines remains unclear. The Th17 type response, characterized by the production of the cytokine interleukin (IL)‐17A, is modulated in part by the IL‐6/signal transducer and activator of transcription (Stat)3 signalling axis and is associated with numerous autoimmune diseases. We therefore evaluated a causal role for IL‐17A in the IL‐6‐driven gp130F/F mouse model for spontaneous pulmonary inflammation and emphysema.

Blockade of the IL-6 trans-signalling/STAT3 axis suppresses cachexia in Kras-induced lung adenocarcinoma

Lung cancer is the leading cause of cancer death worldwide, and is frequently associated with the devastating paraneoplastic syndrome of cachexia. The potent immunomodulatory cytokine interleukin (IL)-6 has been linked with the development of lung cancer as well as cachexia; however, the mechanisms by which IL-6 promotes muscle wasting in lung cancer cachexia are ill-defined. In this study, we report that the gp130F/F knock-in mouse model displaying hyperactivation of the latent transcription factor STAT3 via the common IL-6 cytokine family signalling receptor, gp130, develops cachexia during Kras-driven lung carcinogenesis. Specifically, exacerbated weight loss, early mortality and reduced muscle and adipose tissue mass were features of the gp130F/F:KrasG12D model, but not parental KrasG12D mice in which STAT3 was not hyperactivated. Gene expression profiling of muscle tissue in cachectic gp130F/F:KrasG12D mice revealed the upregulation of IL-6 and STAT3-target genes compared with KrasG12D muscle tissue. These cachectic features of gp130F/F:KrasG12D mice were abrogated upon the genetic normalization of STAT3 activation or ablation of IL-6 in gp130F/F:KrasG12D:Stat3−/+ or gp130F/F:KrasG12D:Il6−/− mice, respectively. Furthermore, protein levels of the soluble IL-6 receptor (sIL-6R), which is the central facilitator of IL-6 trans-signalling, were elevated in cachectic muscle from gp130F/F:KrasG12D mice, and the specific blockade of IL-6 trans-signalling, but not classical signalling, with an anti-IL-6R antibody ameliorated cachexia-related characteristics in gp130F/F:KrasG12D mice. Collectively, these preclinical findings identify trans-signalling via STAT3 as the signalling modality by which IL-6 promotes muscle wasting in lung cancer cachexia, and therefore support the clinical evaluation of the IL-6 trans-signalling/STAT3 axis as a therapeutic target in advanced lung cancer patients presenting with cachexia.

The effect of testosterone, dihydrotestosterone and oestradiol on the re-initiation of spermatogenesis in the adult photoinhibited Djungarian hamster

The roles of testosterone (T) and its metabolites on hamster spermatogenesis are poorly defined. This study assessed the effects of T, dihydrotestosterone (DHT) and oestradiol (E) on the re-initiation of spermatogenesis in the adult Djungarian hamster. Hamsters raised under long photoperiods (LD, 16 h light:8 h darkness) were exposed to short photoperiods (SD, 8 h light:16 h darkness) for 11 weeks to suppress gonadotrophins. Groups of eight animals then received T, DHT and E for 5 weeks. Cell numbers were determined using the optical disector (sic). The number of Sertoli cells was suppressed in SD controls to 48% (P<0·001) of LD control and restored either fully or partially by exogenous DHT and E (2·6- and 1·8-fold above SD levels) respectively, corresponding with a twofold elevation of serum FSH. The number of germ cells in SD animals was reduced (all P<0·001) to levels reported. The number of type A spermatogonia increased in line with the rise in Sertoli cell number, by 2·6-fold (P<0·01) and 1·8-fold (NS) above SD controls after DHT and E treatments respectively. DHT increased the number of type B spermatogonia/preleptotene spermatocytes, leptotene/zygotene and pachytene spermatocytes by 3·5-, 5·7- and 21-fold above SD (all P<0·01) respectively, compared with a 2·2-fold (P<0·01), 2·4-fold (not significant, NS) and 6-fold (NS) in E-treated animals respectively. Exogenous T had little effect on cell numbers or serum FSH compared with SD controls. Spermatids were rarely observed after steroid treatment. We believe this study suggests that steroids can regulate the re-initiation of early spermatogenic cells via a mechanism which includes FSH.