Rapamycin Extends Life Span in ApcMin/+ Colon Cancer FAP Model.

BACKGROUND: We previously showed that lifelong rapamycin treatment of short-lived ApcMin/+ mice, a model for familial adenomatous polyposis, resulted in a normal lifespan. ApcMin/+ mice develop colon polyps with a low frequency but can be converted to a colon cancer model by dextran sodium sulfate (DSS) treatments (ApcMin/+-DSS model). MATERIALS AND METHODS: We asked, what effect would pretreatment of ApcMin/+ mice with chronic rapamycin prior to DSS exposure have on survival and colonic neoplasia? RESULTS: Forty-two ppm enteric formulation of rapamycin diet exacerbated the temporary weight loss associated with DSS treatment in both sexes. However, our survival studies showed that chronic rapamycin treatment significantly extended lifespan of ApcMin/+-DSS mice (both sexes) by reductions in colon neoplasia and prevention of anemia. Rapamycin also had prophylactic effects on colon neoplasia induced by azoxymethane and DSS in C57BL/6 males and females. Immunoblot assays showed the expected inhibition of complex 1 of mechanistic or mammalian target of rapamycin (mTORC1) and effectors (S6K→rpS6 and S6K→eEF2K→eEF2) in colon by lifelong rapamycin treatments. To address the question of cell types affected by chronic enteric rapamycin treatment, immunohistochemistry analyses demonstrated that crypt cells had a prominent reduction in rpS6 phosphorylation and increase in eEF2 phosphorylation relative controls. CONCLUSION: These data indicate that enteric rapamycin prevents or delays colon neoplasia in ApcMin/+-DSS mice through inhibition of mTORC1 in the crypt cells.

Acarbose improved survival for Apc+/Min mice.

Acarbose blocks the digestion of complex carbohydrates, and the NIA Intervention Testing Program (ITP) found that it improved survival when fed to mice. Yet, we do not know if lifespan extension was caused by its effect on metabolism with regard to the soma or cancer suppression. Cancer caused death for ~80% of ITP mice. The ITP found rapamycin, an inhibitor to the pro-growth mTORC1 (mechanistic target of rapamycin complex 1) pathway, improved survival and it suppressed tumors in Apc+/Min mice providing a plausible rationale to ask if acarbose had a similar effect. Apc+/Min is a mouse model prone to intestinal polyposis and a mimic of familial adenomatous polyposis in people. Polyp-associated anemia contributed to their death. To address this knowledge gap, we fed two doses of acarbose to Apc+/Min mice. Acarbose improved median survival at both doses. A cross-sectional analysis was performed next. At both doses, ACA fed mice exhibited reduced intestinal crypt depth, weight loss despite increased food consumption and reduced postprandial blood glucose and plasma insulin, indicative of improved insulin sensitivity. Dose-independent and dose-dependent compensatory liver responses were observed for AMPK and mTORC1 activities, respectively. Only mice fed the high dose diet exhibited reductions in tumor number with higher hematocrits. Because low-dose acarbose improved lifespan but failed to reduced tumors, its effects seem to be independent of cancer. These data implicate the importance of improved carbohydrate metabolism on survival.

Sex-dependent lifespan extension of Apc Min/+ FAP mice by chronic mTOR inhibition.

BACKGROUND: Apc Min/+ mice model familial adenomatous polyposis (FAP), a disease that causes numerous colon polyps leading to colorectal cancer. We previously showed that chronic treatment of Apc Min/+ females with the anti-aging drug, rapamycin, restored a normal lifespan through reduced polyposis and anemia prevention. Lifespan extension by chronic rapamycin in wildtype UM-HET3 mice is sex-dependent with females gaining the most benefit. Whether Apc Min/+ mice have a similar sex-dependent response to chronic mTOR inhibition is not known. METHODS: To address this knowledge gap and gain deeper insight into how chronic mTOR inhibition prevents intestinal polyposis, we compared male and female Apc Min/+ mice responses to chronic treatment with a rapamycin-containing diet. Animals were fed a diet containing either 42 ppm microencapsulate rapamycin or empty capsules, one group was used to determine lifespan and a second group with similar treatment was harvested at 16 weeks of age for cross-sectional studies. RESULTS: We found that the survival of males is greater than females in this setting (P < 0.0197). To explore the potential basis for this difference we analyzed factors affected by chronic rapamycin. Immunoblot assays showed that males and females exhibited approximately the same level of mTORC1 inhibition using phosphorylation of ribosomal protein S6 (rpS6) as an indirect measure. Immunohistochemistry assays of rpS6 phosphorylation showed that rapamycin reduction of mTORC1 activity was on the same level, with the most prominent difference being in intestinal crypt Paneth cells in both sexes. Chronic rapamycin also reduced crypt depths in both male and female Apc Min/+ mice (P < 0.0001), consistent with reduced crypt epithelial cell proliferation. Finally, chronic rapamycin prevented anemia equally in males and females. CONCLUSIONS: In males and females, these findings link rapamycin-mediated intestinal polyposis prevention with mTORC1 inhibition in Paneth cells and concomitant reduced epithelial cell proliferation.

Chromosome-Wide Evolution and Sex Determination in the Three-Sexed Nematode Auanema rhodensis.

Trioecy, a mating system in which males, females and hermaphrodites co-exist, is a useful system to investigate the origin and maintenance of alternative mating strategies. In the trioecious nematode Auanema rhodensis, males have one X chromosome (XO), whereas females and hermaphrodites have two (XX). The female vs. hermaphrodite sex determination mechanisms have remained elusive. In this study, RNA-seq analyses show a 20% difference between the L2 hermaphrodite and female gene expression profiles. RNAi experiments targeting the DM (doublesex/mab-3) domain transcription factor dmd-10/11 suggest that the hermaphrodite sexual fate requires the upregulation of this gene. The genetic linkage map (GLM) shows that there is chromosome-wide heterozygosity for the X chromosome in F2 hermaphrodite-derived lines originated from crosses between two parental inbred strains. These results confirm the lack of recombination of the X chromosome in hermaphrodites, as previously reported. We also describe conserved chromosome elements (Nigon elements), which have been mostly maintained throughout the evolution of Rhabditina nematodes. The seven-chromosome karyotype of A. rhodensis, instead of the typical six found in other rhabditine species, derives from fusion/rearrangements events involving three Nigon elements. The A. rhodensis X chromosome is the smallest and most polymorphic with the least proportion of conserved genes. This may reflect its atypical mode of father-to-son transmission and its lack of recombination in hermaphrodites and males. In conclusion, this study provides a framework for studying the evolution of chromosomes in rhabditine nematodes, as well as possible mechanisms for the sex determination in a three-sexed species.

mTOR inhibitors for treatment of low-risk prostate cancer.

Prostate cancer incidence increases with age; along with many other cancers, it could be considered a disease of aging. Prostate cancer screening has led to a significant proportion of men diagnosed with low-grade, low-stage prostate cancer who are now more likely to choose an active surveillance strategy rather than definitive treatments. Definitive treatment, such as surgery and radiation therapy, is useful for high-grade disease; however, because of the low long-term risk of progression of a low-grade disease and side effects of surgery and radiation, these treatments are less commonly used for low-grade disease. While five alpha reductase inhibitors have been shown to reduce the risk of cancer detection on subsequent biopsies for men on active surveillance, no medications have been proven to prevent progression to high-grade disease. mTOR pathways have long been known to influence prostate cancer and are targets in various prostate cancer patient populations. Low-dose mTOR inhibition with rapamycin has shown promise in pre-clinical models of prostate cancer and appear to affect cellular senescence and immunomodulation in the aging population. We hypothesize that low-dose mTOR inhibition could reduce progression of low-grade prostate cancer patients, allowing them to remain on active surveillance.

Sex- and Gamete-Specific Patterns of X Chromosome Segregation in a Trioecious Nematode.

Three key steps in meiosis allow diploid organisms to produce haploid gametes: (1) homologous chromosomes (homologs) pair and undergo crossovers; (2) homologs segregate to opposite poles; and (3) sister chromatids segregate to opposite poles. The XX/XO sex determination system found in many nematodes [1] facilitates the study of meiosis because variation is easily recognized [2-4]. Here we show that meiotic segregation of X chromosomes in the trioecious nematode Auanema rhodensis [5] varies according to sex (hermaphrodite, female, or male) and type of gametogenesis (oogenesis or spermatogenesis). In this species, XO males exclusively produce X-bearing sperm [6, 7]. The unpaired X precociously separates into sister chromatids, which co-segregate with the autosome set to generate a functional haplo-X sperm. The other set of autosomes is discarded into a residual body. Here we explore the X chromosome behavior in female and hermaphrodite meioses. Whereas X chromosomes segregate following the canonical pattern during XX female oogenesis to yield haplo-X oocytes, during XX hermaphrodite oogenesis they segregate to the first polar body to yield nullo-X oocytes. Thus, crosses between XX hermaphrodites and males yield exclusively male progeny. During hermaphrodite spermatogenesis, the sister chromatids of the X chromosomes separate during meiosis I, and homologous X chromatids segregate to the functional sperm to create diplo-X sperm. Given these intra-species, intra-individual, and intra-gametogenesis variations in the meiotic program, A. rhodensis is an ideal model for studying the plasticity of meiosis and how it can be modulated.

Adaptations to chronic rapamycin in mice.

Rapamycin inhibits mechanistic (or mammalian) target of rapamycin (mTOR) that promotes protein production in cells by facilitating ribosome biogenesis (RiBi) and eIF4E-mediated 5'cap mRNA translation. Chronic treatment with encapsulated rapamycin (eRapa) extended health and life span for wild-type and cancer-prone mice. Yet, the long-term consequences of chronic eRapa treatment are not known at the organ level. Here, we report our observations of chronic eRapa treatment on mTORC1 signaling and RiBi in mouse colon and visceral adipose. As expected, chronic eRapa treatment decreased detection of phosphorylated mTORC1/S6K substrate, ribosomal protein (rpS6) in colon and fat. However, in colon, contrary to expectations, there was an upregulation of 18S rRNA and some ribosomal protein genes (RPGs) suggesting increased RiBi. Among RPGs, eRapa increases rpl22l1 mRNA but not its paralog rpl22. Furthermore, there was an increase in the cap-binding protein, eIF4E relative to its repressor 4E-BP1 suggesting increased translation. By comparison, in fat, there was a decrease in the level of 18S rRNA (opposite to colon), while overall mRNAs encoding ribosomal protein genes appeared to increase, including rpl22, but not rpl22l1 (opposite to colon). In fat, there was a decrease in eIF4E relative to actin (opposite to colon) but also an increase in the eIF4E/4E-BP1 ratio likely due to reductions in 4E-BP1 at our lower eRapa dose (similar to colon). Thus, in contrast to predictions of decreased protein production seen in cell-based studies, we provide evidence that colon from chronically treated mice exhibited an adaptive 'pseudo-anabolic' state, which is only partially present in fat, which might relate to differing tissue levels of rapamycin, cell-type-specific responses, and/or strain differences.

Mating dynamics in a nematode with three sexes and its evolutionary implications.

Nematodes have diverse reproductive strategies, which make them ideal subjects for comparative studies to address how mating systems evolve. Here we present the sex ratios and mating dynamics of the free-living nematode Rhabditis sp. SB347, in which males, females and hermaphrodites co-exist. The three sexes are produced by both selfing and outcrossing, and females tend to appear early in a mother's progeny. Males prefer mating with females over hermaphrodites, which our results suggest is related to the female-specific production of the sex pheromones ascr#1 and ascr#9. We discuss the parallels between this system and that of parasitic nematodes that exhibit alternation between uniparental and biparental reproduction.

An introduction to worm lab: from culturing worms to mutagenesis.

This protocol describes procedures to maintain nematodes in the laboratory and how to mutagenize them using two alternative methods: ethyl methane sulfonate (EMS) and 4, 5', 8-trimethylpsoralen combined with ultraviolet light (TMP/UV). Nematodes are powerful biological systems for genetics studies because of their simple body plan and mating system, which is composed of self-fertilizing hermaphrodites and males that can generate hundreds of progeny per animal. Nematodes are maintained in agar plates containing a lawn of bacteria and can be easily transferred from one plate to another using a pick. EMS is an alkylating agent commonly used to induce point mutations and small deletions, while TMP/UV mainly induces deletions. Depending on the species of nematode being used, concentrations of EMS and TMP will have to be optimized. To isolate recessive mutations of the nematode Pristionchus pacificus, animals of the F2 generation were visually screened for phenotypes. To illustrate these methods, we mutagenized worms and looked for Uncoordinated (Unc), Dumpy (Dpy) and Transformer (Tra) mutants.

The genome of the nematode Pristionchus pacificus encodes putative homologs of RXR/Usp and EcR.

Ecdysteroid signaling is an important regulator of arthropod development and reproduction. However, the role of ecdysteroid signaling in another Ecdysozoan animal, the nematode, remains unclear. We report here the identification, cloning, and temporal expression of genes encoding putative homologs of the two nuclear receptor components of the ecdysone receptor, RXR/Usp (NR2B) and EcR (NR1H), in the nematode Pristionchus pacificus. The P. pacificus genes Ppa-pnhr-1 and Ppa-pnhr-2 encode nuclear receptors with strong sequence similarity to RXR/Usp and EcR, respectively. Maximum likelihood analysis incorporating both DNA-binding and ligand-binding domains places the two proteins in the NR2B and NR1H groups with strong bootstrap support. RT-PCR analysis reveals that both Ppa-pnhr-1 and Ppa-pnhr-2 are expressed during larval development and that Ppa-pnhr-1 expression oscillates with the molting cycle. The identification of a putative ecdysone receptor in a nematode amenable to genetic analysis provides a powerful system to investigate the function and evolution of ecdysone receptor signaling in the Nematoda.

Sex differences in acclimation of hypothalamic arcuate glucokinase gene and protein expression to repeated intermediate insulin administration.

BACKGROUND: Repeated intermediate-acting insulin administration attenuates genomic reactivity of neurons in key autonomic metabolic structures in the male, but not female rat brain - results that support a central neural component of sex-specific response desensitization. The glucokinase (GK) enzyme functions as a glucose sensor in a body-wide system of metabolic monitoring structures, including the brain, and is expressed at high levels in the hypothalamic arcuate nucleus (ARH). METHOD: Quantitative real-time RT-PCR was used to investigate the hypothesis that habituation of ARH GK gene expression to neutral protamine Hagedorn insulin (NPH) injection differs among sexes. In lieu of evidence for region-based functional heterogeneity in this structure, effects of NPH on in situ GK protein-staining patterns were evaluated at different rostrocaudal levels of the ARH by immunocytochemistry. RESULTS: Basal ARH GK mRNA levels were equivalent in sham-operated (SHAM) and orchidectomized (ORDX) male rats. SHAM males exhibited augmented GK gene profiles in response to acute NPH injection, as well as elevated numbers of GK-immunoreactive (-ir) neurons in the rostral ARH. ORDX abolished this stimulatory transcriptional response, but did not prevent increased GK labeling throughout this structure. Stimulatory effects of precedent insulin administration on baseline GK mRNA were reversed by ORDX. Serial dosing of SHAM males with NPH elicited no change in ARH GK transcription, but decreased GK-ir in the rostral ARH. Acute NPH injection had no impact on GK gene profiles in estradiol benzoate (EB)- or oil-implanted ovariectomized (OVX) female rats, but diminished GK-ir cell counts in the OVX + EB caudal ARH. Precedent NPH treatment did not modify baseline GK mRNA levels in either group of females, but resulted in decreased or elevated GK gene and protein expression during recurring injection in the presence or absence of EB, respectively. CONCLUSION: These results provide novel evidence for sex-specific patterns of acclimation of GK mRNA and protein expression within the rat ARH to serial NPH injection, and support the need to elucidate the physiological ramifications of these adaptations regarding behavioral and physiological responses to recurring intermediate insulin administration.

Effects of orchidectomy on adaptation of arcuate neuropeptide Y, proopiomelanocortin, and cocaine- and amphetamine-related transcript gene profiles to recurring insulin-induced hypoglycemia in the male rat.

Our studies show that recurring insulin-induced hypoglycemia (RIIH) diminishes neuronal activation in several key components of the central metabolic regulatory circuitry, including the hypothalamic arcuate nucleus (ARH), and that orchidectomy (ORDX) modifies this impact of RIIH on Fos protein expression in this and other select neural structures. The testicular hormone, testosterone, regulates the expression of ARH neuropeptide genes of characterized metabolic relevance, including neuropeptide Y (NPY) and proopiomelanocortin (POMC). We investigated the hypothesis that acute hypoglycemia-associated patterns of ARH NPY, POMC, and cocaine and amphetamine-related transcript (CART) gene transcription, and potential RIIH-associated adaptive modifications in these expression profiles are regulated by testes-dependent mechanisms. ARH tissue was micropunched from serial frozen brains sections obtained from sham-operated (SHAM) or bilaterally ORDX male rats after sc injection of one or four doses of neutral protamine Hagedorn insulin, over as many days, or vehicle alone, and analyzed by quantitative real-time RT-PCR. In SHAM rats, acute hypoglycemia increased ARH NPY mRNA; precedent hypoglycemia elevated baseline gene expression in this group, but suppressed transcription during RIIH. In ORDX rats, ARH NPY mRNA was decreased during acute hypoglycemia and after multiple exposures; however, gene expression was not further suppressed by RIIH. ARH POMC gene transcription was not modified by acute or recurring hypoglycemia in the SHAM group. ORDX caused a reduction in both basal and acute hypoglycemic patterns of POMC transcription, relative to the SHAM controls, but enhanced baseline and RIIH-associated patterns of gene expression. ARH CART transcripts were not altered by acute or recurring hypoglycemia in SHAM rats, whereas ORDX animals exhibited elevated CART gene expression during RIIH. These data show that acute and recurring hypoglycemia exert opposite effects on ARH NPY gene expression in testes-intact male rats, and that these transcriptional responses are abolished by ORDX. Hypoglycemia had no impact on POMC nor CART mRNA profiles in the SHAM group, but both genes were upregulated during RIIH in ORDX rats. Collectively, these results demonstrate that in the male rat, testes-dependent mechanisms underlie patterns of acclimated or unvarying reactivity to RIIH of the specific ARH metabolic neuropeptide genes evaluated here.