Your search keyword '"Franklin RB"' showing total 224 results

1. Prostatic fluid electrolyte composition for the screening of prostate cancer: a potential solution to a major problem

Author

Costello, LC and Franklin, RB

Published

2009

2. The disruption of trace element homeostasis due to aneuploidy as a unifying theme in the etiology of cancer

Author

Matthias Altmeyer, Johannes Engelken, and Franklin Rb

Subjects

Genetics, biology, DNA repair, SLC39A1, Aneuploidy, medicine.disease, medicine.disease_cause, Metastasis, Cancer cell, biology.protein, medicine, Human genome, Carcinogenesis, Cancer Etiology

Abstract

sAbstract for ScientistsWhile decades of cancer research have firmly established multiple “hallmarks of cancer”1,2, cancer’s genomic landscape remains to be fully understood. Particularly, the phenomenon of aneuploidy – gains and losses of large genomic regions, i.e. whole chromosomes or chromosome arms – and why most cancer cells are aneuploid remains enigmatic3. Another frequent observation in many different types of cancer is the deregulation of the homeostasis of the trace elements copper, zinc and iron. Concentrations of copper are markedly increased in cancer tissue and the blood plasma of cancer patients, while zinc levels are typically decreased4–9. Here we discuss the hypothesis that the disruption of trace element homeostasis and the phenomenon of aneuploidy might be linked. Our tentative analysis of genomic data from diverse tumor types mainly from The Cancer Genome Atlas (TCGA) project suggests that gains and losses of metal transporter genes occur frequently and correlate well with transporter gene expression levels. Hereby they may confer a cancer-driving selective growth advantage at early and possibly also later stages during cancer development. This idea is consistent with recent observations in yeast, which suggest that through chromosomal gains and losses cells can adapt quickly to new carbon sources10, nutrient starvation11as well as to copper toxicity12. In human cancer development, candidate driving events may include, among others, the gains of zinc transporter genesSLC39A1andSLC39A4on chromosome arms 1q and 8q, respectively, and the losses of zinc transporter genesSLC30A5,SLC39A14andSLC39A6on 5q, 8p and 18q. The recurrent gain of 3q might be associated with the iron transporter geneTFRCand the loss of 13q with the copper transporter geneATP7B. By altering cellular trace element homeostasis such events might contribute to the initiation of the malignant transformation. Intriguingly, attenuation or overexpression of several of these metal transporter genes has been shown to lead to malignant cellular behavior in vitro. Consistently, it has been shown that zinc affects a number of the observed “hallmarks of cancer” characteristics including DNA repair, inflammation and apoptosis, e.g. through its effects on NF-kappa B signaling. We term this model the “aneuploidy metal transporter cancer” (AMTC) hypothesis and find it compatible with the cancer-promoting role of point mutations and focal copy number alterations in established tumor suppressor genes and oncogenes (e.g.MYC,MYCN,TP53,PIK3CA,BRCA1,ERBB2). We suggest a number of approaches for how this hypothesis could be tested experimentally and briefly touch on possible implications for cancer etiology, metastasis, drug resistance and therapy.Abstract for KidsWe humans are made up of many very small building blocks, which are called cells. These cells can be seen with a microscope and they know how to grow and what to do from the information on the DNA of their chromosomes. Sometimes, if this information is messed up, a cell can go crazy and start to grow without control, even in places of the body where it should not. This process is called cancer, a terrible disease that makes people very sick. Scientists do not understand exactly what causes cells to go crazy, so it would be good to find out. Many years ago, scientists observed that chromosomes in these cancer cells are missing or doubled but could not find an explanation for it. More recently, scientists have detected that precious metals to our bodies, which are not gold and silver, but zinc, iron and copper, are not found in the right amounts in these crazy cancer cells. There seems to be not enough zinc and iron but too much copper, and again, scientists do not really understand why. So there are many unanswered questions about these crazy cancer cells and in this article, we describe a pretty simple idea on how chromosome numbers and the metals might be connected: we think that the missing or doubled chromosomes produce less or more transporters of zinc, iron and copper. As a result, cancer cells end up with little zinc and too much copper and these changes contribute to their out-of-control growth. If this idea were true, many people would be excited about it. But first this idea needs to be investigated more deeply in the laboratory, on the computer and in the hospitals. Therefore, we put it out on the internet so that other people can also think about and work on our idea. Now there are plenty of ways to do exciting experiments and with the results, we will hopefully understand much better why cancer cells go crazy and how doctors could improve their therapies to help patients in the future.Abstract for AdultsOne hundred years ago, it was suggested that cancer is a disease of the chromosomes, based on the observations that whole chromosomes or chromosome arms are missing or duplicated in the genomes of cells in a tumor. This phenomenon is called “aneuploidy” and is observed in most types of cancer, including breast, lung, prostate, brain and other cancers. However, it is not clear which genes could be responsible for this observation or if this phenomenon is only a side effect of cancer without importance, so it is important to find out. A second observation from basic research is that concentrations of several micronutrients, especially of the trace elements zinc, copper and iron are changed in tumor cells. In this article, we speculate that aneuploidy is the reason for these changes and that together, these two phenomena are responsible for some of the famous hallmarks or characteristics that are known from cancer cells: fast growth, escape from destruction by the immune system and poor DNA repair. This idea is new and has not been tested yet. We name it the “aneuploidymetal transportercancer” (AMTC) hypothesis. To test our idea we used a wealth of information that was shared by international projects such as the Human Genome Project or the Cancer Genome Atlas Project. Indeed, we find that many zinc, iron and copper transporter genes in the genome are affected by aneuploidy. While a healthy cell has two copies of each gene, some tumor cells have only one or three copies of these genes. Furthermore, the amounts of protein and the activities of these metal transporters seem to correlate with these gene copy numbers, at least we see that the intermediate molecules and protein precursors called messenger RNA correlate well. Hence, we found that the public data is compatible with our suggested link between metal transporters and cancer. Furthermore, we identified hundreds of studies on zinc biology, evolutionary biology, genome and cancer research that also seem compatible. For example, cancer risk increases in the elderly population as well as in obese people, it also increases after certain bacterial or viral infections and through alcohol consumption. Consistent with the AMTC hypothesis and in particular, the idea that external changes in zinc concentrations in an organ or tissue may kick off the earliest steps of tumor development, all of these risk factors have been correlated with changes in zinc or other trace elements. However, since additional experiments to test the AMTC hypothesis have not yet been performed, direct evidence for our hypothesis is still missing. We hope, however, that our idea will promote further research with the goal to better understand cancer – as a first step towards its prevention and the development of improved anti-cancer therapies in the future.

Published

2014

3. The effects of antirhino- and enteroviral vinylacetylene benzimidazoles on cytochrome P450 function and hepatic porphyrin levels in mice

Author

Spitzer Wa, Phillips Dl, George Mc, Franklin Rb, Mark Joseph Tebbe, and Jensen Cb

Subjects

Porphyrins, Rhinovirus, Cytochrome, Pharmacology, Antiviral Agents, Mice, chemistry.chemical_compound, Cytochrome P-450 Enzyme System, Pharmacokinetics, Oral administration, Virology, Cytochrome P-450 CYP1A1, medicine, Animals, Humans, Heme, Enterovirus, biology, Acetylene, Cytochrome P450, Oxidoreductases, N-Demethylating, Biological activity, Porphyrin, Liver, chemistry, biology.protein, Benzimidazoles, Benzphetamine, HeLa Cells, medicine.drug

Abstract

In an ongoing effort to identify an orally bioavailable compound for the treatment of rhino- and enteroviral infections, a series of vinylacetylene benzimidazoles was recently examined. Previous studies demonstrated the potential for these compounds to possess both good in vitro antiviral activity as well as acceptable oral plasma concentrations in mice. Optimization of these properties led to four compounds as candidates for further evaluation. In view of the recognized potential for certain acetylenic drugs both to inhibit cytochrome P450 enzymes by mechanism-based inactivation and to possibly perturb heme metabolism, information regarding drug effects on cytochromes P450 and hepatic porphyrin levels was sought. In an initial single-dose pharmacokinetic study, the four selected compounds were given orally to mice, and both plasma concentrations and porphyrin levels were determined. Two of the compounds, 4 and 5, caused a pronounced increase in liver porphyrin levels whereas compounds 6 and 7 exhibited almost no effect on porphyrin levels. Analysis of plasma concentrations showed that only 4 and 5 gave significant exposure and that 6 and 7 produced negligible levels of drug in the plasma even at the highest dose tested (500 mg/kg). A multiple dose study was then initiated in which compounds 4 and 5 were given for 1 week in daily oral doses to mice. Upon completion of dosing, liver was analyzed for cytochrome P450-dependent 7-ethoxyresorufin O -deethylase (EROD) and benzphetamine N -demethylase (BND) activities, total cytochrome P450 content, and porphyrin levels. Both vinylacetylenes showed dose–dependent inhibitory and induction effects on EROD and BND activities. In addition, these compounds caused a marked increase in hepatic porphyrin levels. Therefore, while all four selected compounds displayed potent antiviral activity and two of the compounds exhibited acceptable pharmacokinetic properties, the hepatic effects of these latter two compounds suggest the potential for drug induced porphyria with multidose therapeutic use.

Published

1999

4. Community composition and activity state of estuarine bacterioplankton assessed using differential staining and metagenomic analysis of 16S rDNA and rRNA

Author

Franklin, RB, primary, Luria, C, additional, Shozo Ozaki, L, additional, and Bukaveckas, PA, additional

Published

2013

5. SLC39A1 (solute carrier family 39 (zinc transporter), member 1)

Author

Franklin, RB, primary and Costello, LC, additional

Published

2012

6. Cytochrome C And The Role Of Zinc Ions In Electron Transport In Rat Liver Mitochondria

Author

Kukoyi, BI, primary, Guan, Z, additional, Costello, LC, additional, and Franklin, RB, additional

Published

2005

7. Citrate Synthesis from Fatty Acids and Amino Acids in Rat Ventral Prostate

Author

Toghrol F, Costello Lc, and Franklin Rb

Subjects

Male, Oxaloacetates, Transamination, Palmitates, Fatty Acids, Nonesterified, Biochemistry, chemistry.chemical_compound, Acetyl Coenzyme A, Prostate, Aspartic acid, medicine, Animals, Citrate synthase, Citrates, Amino Acids, Beta oxidation, chemistry.chemical_classification, Aspartic Acid, biology, Acetyl-CoA, Fatty acid, Rats, Amino acid, medicine.anatomical_structure, chemistry, biology.protein, Ketoglutaric Acids

Abstract

The source of the remarkably high citrate level of prostate was investigated in prostate fragments. L-Aspartate and alpha-keto-glutarate formed oxaloacetate through transamination. Neither pyruvate nor acetate was as effective as palmitate in increasing the citrate level. The result suggested that the source of citrate in rat ventral prostate is oxaloacetate from amino acid transamination and acetyl CoA from fatty acid oxidation. Furthermore, the result indicated that carbohydrates contribute little to citrate production in ventral prostate.

Published

1980

8. Comparative Metabolism of the Amphetamine Drugs of Dependence in Man and Monkeys

Author

Köster U, Williams Rt, Franklin Rb, John Caldwell, Smith Rl, and Dring Lg

Subjects

Chlorphentermine, Guinea Pigs, Phenylpropanolamine, Pharmacology, biology.animal, medicine, Animals, Humans, Phenmetrazine, Primate, Amphetamine, Study drug, General Veterinary, biology, Amphetamines, Tamarin, Haplorhini, Metabolism, biology.organism_classification, Macaca mulatta, Rats, Callitrichinae, Animal Science and Zoology, Rabbits, medicine.drug

Abstract

The use of animal models to study drug dependence and tolerance requires that the species used metabolizes the drugs like man, a condition frequently not fulfilled by non-primate species. The metabolic fate of several amphetamine drugs, namely amphetamine, norephedrine, chlorphentermine and phenmetrazine, in the rhesus monkey and the tamarin and two non-primate species has been investigated and compared to that found for man. The findings show that the two primate species metabolize these drugs in a manner similar to that in man.

Published

1977

9. Citrate uptake and oxidation by fragments of rat ventral prostate

Author

Franklin Rb, Littleton Gk, and Costello Lc

Subjects

Ventral prostate, Male, medicine.medical_specialty, Kidney, Isocitrates, Chemistry, Malates, Prostate, Biological Transport, In Vitro Techniques, Biochemistry, In vitro, Rats, Kinetics, Endocrinology, medicine.anatomical_structure, Organ Specificity, Internal medicine, medicine, Animals, Citrates, Oxidation-Reduction, Prostatic tissue

Abstract

Citrate oxidation was studied utilizing an in vitro preparation of rat ventral prostate which was very similar, with respect to citrate metabolish, to the intact prostate. The rate of citrate oxidation was very slow in comparison to kidney, although citrate entered prostatic tissue and accumulated intracellularly. Citrate was converted to isocitrate at a rate which resulted in a constant citrate/isocitrate ratio over a 10-fold variation in medium citrate concentration. The prostate oxidized significantly more alpha-ketoglutarate and malate than citrate. These results suggested that limited citrate oxidation could account for the accumulation of high prostatic citrate levels.

Published

1977

10. Histologic Diagnosis of Pancreatic Disease

Author

Skoulas A and Franklin Rb

Subjects

medicine.medical_specialty, Pancreatic disease, medicine.diagnostic_test, business.industry, General surgery, Biopsy, medicine, MEDLINE, General Medicine, medicine.disease, business

Published

1975

11. Multiple Cutaneous Lesions in a 27-Year-Old Woman.

Author

Stephany JD, Franklin RB, and Walsh AF

Published

2004

12. Drivers of Antibiotic Resistance Gene Abundance in an Urban River.

Author

Morina JC and Franklin RB

Abstract

In this study, we sought to profile the abundances and drivers of antibiotic resistance genes in an urban river impacted by combined sewage overflow (CSO) events. Water samples were collected weekly during the summer for two years; then, quantitative PCR was applied to determine the abundance of resistance genes associated with tetracycline, quinolones, and β-lactam antibiotics. In addition to sampling a CSO-impacted site near the city center, we also sampled a less urban site ~12 km upstream with no proximal sewage inputs. The tetracycline genes tetO and tetW were rarely found upstream, but were common at the CSO-impacted site, suggesting that the primary source was untreated sewage. In contrast, ampC was detected in all samples indicating a more consistent and diffuse source. The two other genes, qnrA and bla TEM , were present in only 40-50% of samples and showed more nuanced spatiotemporal patterns consistent with upstream agricultural inputs. The results of this study highlight the complex sources of ARGs in urban riverine ecosystems, and that interdisciplinary collaborations across diverse groups of stakeholders are necessary to combat the emerging threat of antibiotic resistance through anthropogenic pollution.

Published

2023

13. Persistence of wastewater-associated antibiotic resistant bacteria in river microcosms.

Author

Mahaney AP and Franklin RB

Subjects

Angiotensin-Converting Enzyme Inhibitors, Anti-Bacterial Agents pharmacology, Bacteria, Humans, Angiotensin Receptor Antagonists, Wastewater

Abstract

The spread of antibiotic-resistant bacteria (ARB) associated with wastewater is a significant environmental concern, but little is known about the persistence and proliferation of these organisms in receiving water bodies after discharge. To address this knowledge gap, we performed a series of microcosm experiments in which river water was amended with either untreated or treated wastewater, and the abundance of viable ciprofloxacin-, Bactrim-, and erythromycin-resistant bacteria was monitored for 72 h. Both types of wastewater amendments significantly increased the initial abundance of ARB compared to microcosms containing only river water (all p < 0.03). The increase was greatest with untreated wastewater, but that effect decreased steadily over time. In contrast, microcosms amended with treated wastewater saw a smaller initial increase and more complex temporal dynamics. Following a brief lag, ARB abundance bloomed for all three of the antibiotics that we considered. This suggests that ARB that survive wastewater treatment are particularly hardy and may proliferate in riverine conditions after a short recovery period. To determine how interactions with the native river microbial community impacted the persistence of wastewater-associated ARB, an additional set of microcosms was prepared using filter-sterilized river water. Peak abundance in these microcosms was significantly higher by 1-2 orders of magnitude compared to microcosms containing an intact river microbial community (all p < 0.05), which suggests that biotic interactions play a significant role in regulating the persistence and proliferation of ARB. The data presented in this paper are among the first available that specifically consider persistence of viable ARB and represent an important step toward understanding AR-related human health risks downstream from wastewater discharge points and following sewer overflow events. Additional studies that consider longer time scales and the interplay of biotic and abiotic variables are essential for modeling public health risks associated with wastewater inputs of ARB to rivers and other aquatic environments., Competing Interests: Declaration of competing interest The authors declare no conflict of interest. The funders had no role in the design of the study; in the collection, analyses, or interpretation of data; in the writing of the manuscript, or in the decision to publish the results., (Copyright © 2022 Elsevier B.V. All rights reserved.)

Published

2022

14. Online Strategies To Improve Quantitative Skills in Microbiology Laboratory Classes.

Author

Battistelli JM and Franklin RB

Abstract

Biology is an increasingly quantitative science. Thus, it is important that undergraduate biology curricula include frequent opportunities for students to practice their quantitative skills. This can create a substantial grading burden for faculty teaching online and/or large enrollment courses, but the "formula question" feature present in many learning management systems (LMS) offers a solution. Using this feature, faculty set up a basic scaffold for an algebraic word problem, and the LMS can then automatically generate and grade many different versions of the question. In this paper, we describe the use of "formula questions" in an undergraduate microbiology course and specifically focus on how the strategic use of algebraic word problems at multiple points throughout the semester can help build quantitative literacy. Key to the success of this approach is that faculty provide a review of foundational mathematical skills early in the semester, even in upper-level classes. This should include reacquainting students with formatting conventions (e.g., rounding and scientific notation), familiarizing them with any idiosyncrasies of the technology platforms, and demonstrating how to solve math problems using spreadsheets. This initial effort increases student success when more complex problems are introduced later in the semester. Though the tips summarized in this paper focus on undergraduate microbiology teaching laboratories using Canvas, the approach can easily be modified to help students develop their critical thinking and quantitative reasoning skills at other levels and in other disciplines., Competing Interests: The authors declare no conflict of interest., (Copyright © 2022 Battistelli and Franklin.)

Published

2022

15. Cooperative microbial interactions mediate community biogeochemical responses to saltwater intrusion in wetland soils.

Author

Berrier DJ, Neubauer SC, and Franklin RB

Subjects

Fresh Water, Methane metabolism, Microbial Interactions, Soil chemistry, Wetlands

Abstract

In freshwater wetlands, competitive and cooperative interactions between respiratory, fermentative and methanogenic microbes mediate the decomposition of organic matter. These interactions may be disrupted by saltwater intrusion disturbances that enhance the activity of sulfate-reducing bacteria (SRB), intensifying their competition with syntrophic bacteria and methanogens for electron donors. We simulated saltwater intrusion into wetland soil microcosms and examined biogeochemical and microbial responses, employing metabolic inhibitors to isolate the activity of various microbial functional groups. Sulfate additions increased total carbon dioxide production but decreased methane production. Butyrate degradation assays showed continued (but lower) levels of syntrophic metabolism despite strong demand by SRB for this key intermediate decomposition product and a shift in the methanogen community toward acetoclastic members. One month after removing SRB competition, total methane production recovered by only ∼50%. Similarly, butyrate assays showed an altered accumulation of products (including less methane), although overall rates of syntrophic butyrate breakdown largely recovered. These effects illustrate that changes in carbon mineralization following saltwater intrusion are driven by more than the oft-cited competition between SRB and methanogens for shared electron donors. Thus, the impacts of disturbances on wetland biogeochemistry are likely to persist until cooperative and competitive microbial metabolic interactions can recover fully., (© The Author(s) 2022. Published by Oxford University Press on behalf of FEMS.)

Published

2022

16. Phylogenetic organization in the assimilation of chemically distinct substrates by soil bacteria.

Author

Dang C, Walkup JGV, Hungate BA, Franklin RB, Schwartz E, and Morrissey EM

Subjects

Bacteria, Phylogeny, Soil Microbiology, Microbiota genetics, Soil chemistry

Abstract

Soils are among the most biodiverse habitats on earth and while the species composition of microbial communities can influence decomposition rates and pathways, the functional significance of many microbial species and phylogenetic groups remains unknown. If bacteria exhibit phylogenetic organization in their function, this could enable ecologically meaningful classification of bacterial clades. Here, we show non-random phylogenetic organization in the rates of relative carbon assimilation for both rapidly mineralized substrates (amino acids and glucose) assimilated by many microbial taxa and slowly mineralized substrates (lipids and cellulose) assimilated by relatively few microbial taxa. When mapped onto bacterial phylogeny using ancestral character estimation this phylogenetic organization enabled the identification of clades involved in the decomposition of specific soil organic matter substrates. Phylogenetic organization in substrate assimilation could provide a basis for predicting the functional attributes of uncharacterized microbial taxa and understanding the significance of microbial community composition for soil organic matter decomposition., (© 2021 Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published

2022

17. Trace Metal Availability Affects Greenhouse Gas Emissions and Microbial Functional Group Abundance in Freshwater Wetland Sediments.

Author

Giannopoulos G, Hartop KR, Brown BL, Song B, Elsgaard L, and Franklin RB

Abstract

We investigated the effects of trace metal additions on microbial nitrogen (N) and carbon (C) cycling using freshwater wetland sediment microcosms amended with micromolar concentrations of copper (Cu), molybdenum (Mo), iron (Fe), and all combinations thereof. In addition to monitoring inorganic N transformations (NO 3 - , NO 2 - , N 2 O, NH 4 + ) and carbon mineralization (CO 2 , CH 4 ), we tracked changes in functional gene abundance associated with denitrification ( nirS , nirK , nosZ ), dissimilatory nitrate reduction to ammonium (DNRA; nrfA ), and methanogenesis ( mcrA ). With regards to N cycling, greater availability of Cu led to more complete denitrification (i.e., less N 2 O accumulation) and a higher abundance of the nirK and nosZ genes, which encode for Cu-dependent reductases. In contrast, we found sparse biochemical evidence of DNRA activity and no consistent effect of the trace metal additions on nrfA gene abundance. With regards to C mineralization, CO 2 production was unaffected, but the amendments stimulated net CH 4 production and Mo additions led to increased mcrA gene abundance. These findings demonstrate that trace metal effects on sediment microbial physiology can impact community-level function. We observed direct and indirect effects on both N and C biogeochemistry that resulted in increased production of greenhouse gasses, which may have been mediated through the documented changes in microbial community composition and shifts in functional group abundance. Overall, this work supports a more nuanced consideration of metal effects on environmental microbial communities that recognizes the key role that metal limitation plays in microbial physiology., (Copyright © 2020 Giannopoulos, Hartop, Brown, Song, Elsgaard and Franklin.)

Published

2020

18. Zinc: The Wonder Drug for the Treatment of Carcinomas.

Author

Costello LC and Franklin RB

Abstract

Evidence is evolving that support the relationship that all carcinomas exhibit the following important relationships: The malignant cells exhibit a significant decreased zinc compared to the normal cells. The higher zinc levels that exist in the normal cells are cytotoxic in the malignant cells. The decrease in zinc is due to the down regulation of the ZIP-family zinc uptake transporter. These cells are as "ZIP-deficient/decreased zinc" malignancies. This provides a target for a chemotherapy that can restore the high zinc levels that will manifest cytotoxic effects in the malignant cells. In order to achieve this, a vehicle that facilitates the uptake and accumulation of zinc in the ZIP-deficient cells is required. The zinc ionophore, clioquinol, exhibits the properties that will provide these requirements. This is demonstrated by the treatment of a patient with 3% Clioquinol Cream, which successfully suppressed the progression of androgen-dependent prostate cancer. This treatment should also be efficacious for pancreatic cancer, liver cancer, breast cancer, thyroid cancer, kidney cancer, stomach cancer, gall bladder cancer, and lung cancer; which are carcinomas that exhibit decreased zinc. Thus, it is appropriate to describe that "Zinc is the wonder drug for the treatment of carcinomas".

Published

2020

19. Wood Decay Characteristics and Interspecific Interactions Control Bacterial Community Succession in Populus grandidentata (Bigtooth Aspen).

Author

Kuramae EE, Leite MFA, Suleiman AKA, Gough CM, Castillo BT, Faller L, Franklin RB, and Syring J

Abstract

Few studies have investigated bacterial community succession and the role of bacterial decomposition over a continuum of wood decay. Here, we identified how (i) the diversity and abundance of bacteria changed along a chronosequence of decay in Populus grandidentata (bigtooth aspen); (ii) bacterial community succession was dependent on the physical and chemical characteristics of the wood; (iii) interspecific bacterial interactions may mediate community structure. Four hundred and fifty-nine taxa were identified through Illumina sequencing of 16S rRNA amplicons from samples taken along a continuum of decay, representing standing dead trees, downed wood, and soil. Community diversity increased as decomposition progressed, peaking in the most decomposed trees. While a small proportion of taxa displayed a significant pattern in regards to decay status of the host log, many bacterial taxa followed a stochastic distribution. Changes in the water availability and chemical composition of standing dead and downed trees and soil were strongly coupled with shifts in bacterial communities. Nitrogen was a major driver of succession and nitrogen-fixing taxa of the order Rhizobiales were abundant early in decomposition. Recently downed logs shared 65% of their bacterial abundance with the microbiomes of standing dead trees while only sharing 16% with soil. As decay proceeds, bacterial communities appear to respond less to shifting resource availability and more to interspecific bacterial interactions - we report an increase in both the proportion (+9.3%) and the intensity (+62.3%) of interspecific interactions in later stages of decomposition, suggesting the emergence of a more complex community structure as wood decay progresses.

Published

2019

20. Androgen receptor expression reduces stemness characteristics of prostate cancer cells (PC3) by repression of CD44 and SOX2.

Author

Srinivasan D, Senbanjo L, Majumdar S, Franklin RB, and Chellaiah MA

Abstract

Studies have shown that a subgroup of tumor cells possess stemness characteristics having self-renewal capacity and the ability to form new tumors. We sought to identify the plausible stemness factor that determines the "molecular signature" of prostate cancer (PCa) cells derived from different metastases (PC3, PCa2b, LNCaP, and DU145) and whether androgen receptor (AR) influences the maintenance of stemness features. Here we show sex-determining region Y (SRY)-box 2 (SOX2) as a putative stem cell marker in PC3 PCa cells and not in DU145, PCa2b, or LNCaP cells. PCa2b and PC3 cells were derived from bone metastases. PCa2b cells which are positive for the AR failed to demonstrate the expression of either cluster of differentiation 44 (CD44) or SOX2. Knockdown (KD) of AR in these cells did not affect the expression of either CD44 or SOX2. Conversely, PC3 cells, which are negative for AR, expressed both CD44 and SOX2. However, the expression of AR downregulated the expression of both CD44 and SOX2 in PC3 cells. CD44 regulates SOX2 expression as KD of CD44 and reduces SOX2 levels considerably. SOX2 KD attenuated not only the expression of SNAIL and SLUG but also the migration and tumorsphere formation in PC3 cells. Collectively, our findings underscore a novel role of CD44 signaling in the maintenance of stemness and progression of cancer through SOX2 in AR-independent PC3 cells. SOX2 has a role in the regulation of expression of SNAIL and SLUG. SOX2 could be a potential therapeutic target to thwart the progression of SOX2-positive cancer cells or recurrence of androgen-independent PCa., (© 2018 The Authors. Journal of Cellular Biochemistry Published by Wiley Periodicals, Inc.)

Published

2019

21. Novel microbial community composition and carbon biogeochemistry emerge over time following saltwater intrusion in wetlands.

Author

Dang C, Morrissey EM, Neubauer SC, and Franklin RB

Subjects

Carbon chemistry, Fresh Water, Soil chemistry, Virginia, Carbon metabolism, Climate Change, Microbiota, Salinity, Soil Microbiology, Wetlands

Abstract

Sea level rise and changes in precipitation can cause saltwater intrusion into historically freshwater wetlands, leading to shifts in microbial metabolism that alter greenhouse gas emissions and soil carbon sequestration. Saltwater intrusion modifies soil physicochemistry and can immediately affect microbial metabolism, but further alterations to biogeochemical processing can occur over time as microbial communities adapt to the changed environmental conditions. To assess temporal changes in microbial community composition and biogeochemical activity due to saltwater intrusion, soil cores were transplanted from a tidal freshwater marsh to a downstream mesohaline marsh and periodically sampled over 1 year. This experimental saltwater intrusion produced immediate changes in carbon mineralization rates, whereas shifts in the community composition developed more gradually. Salinity affected the composition of the prokaryotic community but did not exert a strong influence on the community composition of fungi. After only 1 week of saltwater exposure, carbon dioxide production doubled and methane production decreased by three orders of magnitude. By 1 month, carbon dioxide production in the transplant was comparable to the saltwater controls. Over time, we observed a partial recovery in methane production which strongly correlated with an increase in the relative abundance of three orders of hydrogenotrophic methanogens. Taken together, our results suggest that ecosystem responses to saltwater intrusion are dynamic over time as complex interactions develop between microbial communities and the soil organic carbon pool. The gradual changes in microbial community structure we observed suggest that previously freshwater wetlands may not experience an equilibration of ecosystem function until long after initial saltwater intrusion. Our results suggest that during this transitional period, likely lasting years to decades, these ecosystems may exhibit enhanced greenhouse gas production through greater soil respiration and continued methanogenesis., (© 2018 John Wiley & Sons Ltd.)

Published

2019

22. A Novel Patient Case Report to Show the Successful Termination of Untreatable Androgen-independent Prostate Cancer: Treatment with Cabergoline (Dopamine agonist).

Author

Costello LC, Franklin RB, and Yu GW

Abstract

Introduction: Testosterone promotes the initial development of androgen-dependent prostate cancer. This is the basis for androgen ablation treatment, which attenuates, but does not terminate, the malignancy. Instead, it leads to prolactin-dependent malignancy; in which patient death generally occurs within 5 years. This report describes the novel treatment of a patient; which terminated androgen-independent prostate cancer., Results: Patient "XY" was diagnosed with prostate malignancy and metastases. He received hormonal androgen ablation treatment, chemotherapy, and radiation treatment. He developed androgen-independent prostate cancer; with expected death in 2-3 years. He was treated with cabergoline (dopamine agonist) treatment, which decreased the plasma prolactin 88%; by inhibiting the pituitary production of prolactin. The subsequent PET scan (positron emission tomography) revealed the absence of malignancy; and the CTC (circulating tumor cells) decreased from count=5.4 to count=0., Discussion: The cause of androgen-independent malignancy has been unknown, and an effective chemotherapy did not exist. The activities of normal and malignant prostate cells are regulated primarily by testosterone. When testosterone availability diminishes; prolactin regulation is manifested. This is represented when androgen ablation results in the development of prolactin-dependent malignancy. An effective chemotherapy would be targeted to eliminate the plasma prolactin-manifestation of the androgen-independent malignancy., Conclusions: This report of a novel chemotherapy for androgen-independent malignancy corroborates our understanding of the implications of prolactin in its development and treatment. There are about 165,000 cases/year with 25,000 deaths/year in the U.S.; and 1.0 million cases/year with 260,000 deaths/year worldwide. Those patients with androgen-independent prostate cancer can now employ this cabergoline treatment to prevent or terminate this deadly type of prostate cancer.

Published

2019

23. A Proposed Efficacious Treatment with Clioquinol (Zinc Ionophore) and Cabergoline (Prolactin Dopamine Agonist) for the Treatment of Terminal Androgen-independent Prostate Cancer. Why and How?

Author

Costello LC and Franklin RB

Abstract

All cases of prostate cancer exhibit the hallmark condition of marked decrease in zinc in malignancy compared to the high zinc levels in the normal and benign prostate. There exists no reported corroborated case of prostate cancer in which malignancy exhibits the high zinc levels that exist in the normal prostate acinar epithelium. The decrease in zinc is achieved by the downregulation of ZIP1 zinc transporter, which prevents the uptake and accumulation of cytotoxic zinc levels. Thus, prostate cancer is a "ZIP1-deficient" malignancy. Testosterone and prolactin are the major hormones that similarly regulate the growth, proliferation, metabolism, and functional activities of the acinar epithelial cells in the peripheral zone (the site of development and progression of malignancy). Testosterone regulation provides the basis for androgen ablation treatment of advanced prostate cancer, which leads to the development of terminal androgen-independent malignancy. Androgen-independent malignancy progresses under the influence of prolactin. These relationships provide the basis for the prevention and treatment of advanced prostate cancer. Clioquinol (zinc ionophore; 5-chloro-7-iodoquinolin-8-ol) is employed to facilitate zinc transport and accumulation in the ZIP1-deficient malignant cells and induce cytotoxic effects. Cabergoline (dopamine agonist) is employed to decrease prolactin production and its role in the progression of androgen-independent malignancy. We propose a clioquinol/cabergoline treatment regimen that will be efficacious for aborting terminal advanced prostate cancer. FDA policies permit this treatment regimen to be employed for these patients.

Published

2019

24. Energy Dispersive X-Ray Fluorescence Zn/Fe Ratiometric Determination of Zinc Levels in Expressed Prostatic Fluid: A Direct, Non-Invasive and Highly Accurate Screening for Prostate Cancer.

Author

Costello LC and Franklin RB

Abstract

Prostate specific antigen (PSA) does not provide the reliability that is required for the accurate urology screening of prostate cancer (PCa). Consequently, there has been a major focus and search for a simple, rapid, direct, preferably non-invasive, and highly accurate biomarker and procedure for the urology screening for prostate cancer. Virtually all PCa cases exhibit a marked decrease in zinc in prostate tissue and in prostatic fluid. This is a hallmark "signature" clinical characteristic for all prostate cancers, which provides the clinical basis for zinc screening of PCa. Energy dispersive x-ray fluorescence (EDXRF) of zinc levels in expressed prostatic fluid (EPF) provides > 90% accuracy for the identification of prostate cancer vs normal/benign prostate. An energy dispersive x-ray fluorescence (EDXRF) Zn/Fe ratiometric analysis of expressed prostatic fluid (EPF) can provide > 90% accuracy for the identification of prostate cancer vs normal/benign prostate. This will be achieved by direct EDXRF analysis of a "drop" of EPF directly deposited on a filter paper disc during the urology digital rectal examination of the subject. Interfering and confounding conditions that besiege PSA do not exist in the EDXRF Zn/Fe radiometric analyses. This report reviews the basis for zinc analysis for PCA, provides the supporting evidence that EDXRF Zn/Fe ratiometric analysis of EPF will provide a simple, rapid, direct, non-invasive, and highly accurate biomarker and procedure for the urology screening for prostate cancer.

Published

2018

25. Testosterone, prolactin, and oncogenic regulation of the prostate gland. A new concept: Testosterone-independent malignancy is the development of prolactin-dependent malignancy!

Author

Costello LC and Franklin RB

Abstract

Hormone-independent malignancy is a major issue of morbidity and deaths that confronts prostate cancer. Despite decades of research, the oncogenic and hormonal implications in the development and progression of prostate malignancy remain mostly speculative. This is largely due to the absence and/or lack of consideration by contemporary clinicians and biomedical investigators regarding the established implications of the co-regulation of testosterone and prolactin in the development, maintenance, metabolism and functions of the prostate gland. Especially relevant is the major metabolic function of production of high levels of citrate by the peripheral zone acinar epithelial cells. Citrate production, along with growth and proliferation by these cells, is regulated by co-existing testosterone and prolactin signaling pathways; and by the oncogenic down-regulation of ZIP1 transporter/zinc/citrate in the development of malignancy. These relationships had not been considered in the issues of hormonedependent malignancy. This review provides the relevant background that has established the dual role of testosterone and prolactin regulation of the prostate gland; which is essential to address the implications in the oncogenic development and progression of hormone-dependent malignancy. The oncogenic factor along with testosterone-dependent and prolactin-dependent relationships leads to the plausible concept that androgen ablation for the treatment of testosteronedependent malignancy results in the development of prolactindependent malignancy; which is testosterone-independent malignancy. Consequently, both testosterone ablation and prolactin ablation are required to prevent and/or abort terminal hormonedependent prostate cancer., Competing Interests: Conflict of interest: the authors declare that there is no potential conflict of interest.

Published

2018

26. The Important Role and Implications of Citrate in the Composition, Structure, and Function of Oral/Periodontal/Craniofacial Tissues.

Author

Costello LC, Franklin RB, and Reynolds MA

Abstract

High citrate concentration is a major component in the structure of craniofacial bone, teeth and periodontal tissues of humans and other osteovertebrates. It is now established that citrate incorporation into the apatite/collagen complex of bone is essential for the manifestation of the important biomechanical properties of bone; such as stability, strength, and resistance to fracture. The osteoblasts are specialized citrate-producing cells that provide the citrate incorporated in bone during osteogenic stem cell differentiation for production of new bone; "citration" that occurs in concert with mineralization. Dentin and cementum contain high citrate levels; as contrasted with low citrate in enamel. There exists no information regarding the status and source of incorporated citrate in dentin or in cementum. These are important issues relating to oral, periodontal, craniofacial structures. For example, repair of defects should include new tissue that exhibits the composition, structure, and biomechanical properties of the "normal" tissue; which cannot be achieved in the absence of citrate incorporation in the new tissues. Unfortunately, the presence and role of citrate in these tissues have been largely ignored and unrecognized over the past about 40 years by the dental and medical community. The intent of this review is to re-establish the interest and research regarding the important citrate relationships and issues; with focus on related interests in dentistry.

Published

2018

27. The implications of the hypocitricemic response to surgery and the role of liver function and hepatocyte metabolism: An important, but neglected, clinical relationship.

Author

Costello LC and Franklin RB

Abstract

Reported studies more than forty years ago established that all surgery patients exhibit a marked postoperative hypocitricemia within one day following surgery and persists for seven days and longer. Animals also exhibit the postoperative hypocitricemia. The hypocitricemia results from increased liver clearance of plasma citrate, in which the hepatocytes become capable of transporting and utilizing citrate from plasma. This represents a physiologic/metabolic response during the patient recovery from surgery. The extensive hypocitricemia in response to surgery is not manifested by known citricemic hormones, but is initiated via an unidentified putative endocrine hypocitricemic hormone. In addition to the importance relating to surgery patients, the surgical hypocitricemic effects, along with the liver and hepatic cell effects, will impact virtually all human and animal clinical and experimental studies that include surgical intervention; including the conclusions and translational clinical implications. Unfortunately, the hypocitricemic response to surgery has been ignored for the past forty years, and most contemporary clinicians and biomedical investigators are not aware of this clinical relationship. The intent of this review is to inform members of the medical community of the established hypocitricemic response to surgery and the important role of liver clearance and hepatocyte metabolism of plasma citrate; which, hopefully, will generate interest and research that should be integrated into contemporary issues that involve surgical intervention., Competing Interests: Conflict of interest Author declares that there is no conflict of interest.

Published

2018

28. MinION™ nanopore sequencing of environmental metagenomes: a synthetic approach.

Author

Brown BL, Watson M, Minot SS, Rivera MC, and Franklin RB

Subjects

Bacteria classification, Bacteria genetics, DNA, Bacterial chemistry, DNA, Bacterial genetics, Genomic Library, RNA, Ribosomal, 16S genetics, Reproducibility of Results, Species Specificity, Whole Genome Sequencing methods, High-Throughput Nucleotide Sequencing methods, Metagenome genetics, Metagenomics methods, Nanopores

Abstract

Environmental metagenomic analysis is typically accomplished by assigning taxonomy and/or function from whole genome sequencing or 16S amplicon sequences. Both of these approaches are limited, however, by read length, among other technical and biological factors. A nanopore-based sequencing platform, MinION™, produces reads that are ≥1 × 104 bp in length, potentially providing for more precise assignment, thereby alleviating some of the limitations inherent in determining metagenome composition from short reads. We tested the ability of sequence data produced by MinION (R7.3 flow cells) to correctly assign taxonomy in single bacterial species runs and in three types of low-complexity synthetic communities: a mixture of DNA using equal mass from four species, a community with one relatively rare (1%) and three abundant (33% each) components, and a mixture of genomic DNA from 20 bacterial strains of staggered representation. Taxonomic composition of the low-complexity communities was assessed by analyzing the MinION sequence data with three different bioinformatic approaches: Kraken, MG-RAST, and One Codex. Results: Long read sequences generated from libraries prepared from single strains using the version 5 kit and chemistry, run on the original MinION device, yielded as few as 224 to as many as 3497 bidirectional high-quality (2D) reads with an average overall study length of 6000 bp. For the single-strain analyses, assignment of reads to the correct genus by different methods ranged from 53.1% to 99.5%, assignment to the correct species ranged from 23.9% to 99.5%, and the majority of misassigned reads were to closely related organisms. A synthetic metagenome sequenced with the same setup yielded 714 high quality 2D reads of approximately 5500 bp that were up to 98% correctly assigned to the species level. Synthetic metagenome MinION libraries generated using version 6 kit and chemistry yielded from 899 to 3497 2D reads with lengths averaging 5700 bp with up to 98% assignment accuracy at the species level. The observed community proportions for “equal” and “rare” synthetic libraries were close to the known proportions, deviating from 0.1% to 10% across all tests. For a 20-species mock community with staggered contributions, a sequencing run detected all but 3 species (each included at <0.05% of DNA in the total mixture), 91% of reads were assigned to the correct species, 93% of reads were assigned to the correct genus, and >99% of reads were assigned to the correct family. Conclusions: At the current level of output and sequence quality (just under 4 × 103 2D reads for a synthetic metagenome), MinION sequencing followed by Kraken or One Codex analysis has the potential to provide rapid and accurate metagenomic analysis where the consortium is comprised of a limited number of taxa. Important considerations noted in this study included: high sensitivity of the MinION platform to the quality of input DNA, high variability of sequencing results across libraries and flow cells, and relatively small numbers of 2D reads per analysis limit. Together, these limited detection of very rare components of the microbial consortia, and would likely limit the utility of MinION for the sequencing of high-complexity metagenomic communities where thousands of taxa are expected. Furthermore, the limitations of the currently available data analysis tools suggest there is considerable room for improvement in the analytical approaches for the characterization of microbial communities using long reads. Nevertheless, the fact that the accurate taxonomic assignment of high-quality reads generated by MinION is approaching 99.5% and, in most cases, the inferred community structure mirrors the known proportions of a synthetic mixture warrants further exploration of practical application to environmental metagenomics as the platform continues to develop and improve. With further improvement in sequence throughput and error rate reduction, this platform shows great promise for precise real-time analysis of the composition and structure of more complex microbial communities., (© The Author 2017. Published by Oxford University Press.)

Published

2017

29. Decreased zinc in the development and progression of malignancy: an important common relationship and potential for prevention and treatment of carcinomas.

Author

Costello LC and Franklin RB

Subjects

Animals, Bias, Disease Progression, Down-Regulation, Humans, Liver Neoplasms pathology, Liver Neoplasms prevention & control, Male, Pancreatic Neoplasms pathology, Pancreatic Neoplasms prevention & control, Prostatic Neoplasms pathology, Prostatic Neoplasms prevention & control, Repressor Proteins genetics, Research Support as Topic, Zinc metabolism, Liver Neoplasms drug therapy, Pancreatic Neoplasms drug therapy, Prostatic Neoplasms drug therapy, Zinc administration & dosage

Abstract

Introduction: Efficacious chemotherapy does not exist for treatment or prevention of prostate, liver, and pancreatic carcinomas, and some other cancers that exhibit decreased zinc in malignancy. Zinc treatment offers a potential solution; but its support has been deterred by adverse bias. Areas covered: 1. The clinical and experimental evidence for the common ZIP transporter/Zn down regulation in these cancers. 2. The evidence for a zinc approach to prevent and/or treat these carcinomas. 3. The issues that introduce bias against support for the zinc approach. Expert opinion: ZIP/Zn downregulation is a clinically established common event in prostate, hepatocellular and pancreatic cancers. 2. Compelling evidence supports the plausibility that a zinc treatment regimen will prevent development of malignancy and termination of progressing malignancy in these cancers; and likely other carcinomas that exhibit decreased zinc. 3. Scientifically-unfounded issues that oppose this ZIP/Zn relationship have introduced bias against support for research and funding of a zinc treatment approach. 4. The clinically-established and supporting experimental evidence provide the scientific credibility that should dictate the support for research and funding of a zinc approach for the treatment and possible prevention of these cancers. 5. This is in the best interest of the medical community and the public-at-large., Competing Interests: Declaration of interest The authors have no relevant affiliations or financial involvement with any organization or entity with a financial interest in or financial conflict with the subject matter or materials discussed in the manuscript.

Published

2017

30. A comprehensive review of the role of zinc in normal prostate function and metabolism; and its implications in prostate cancer.

Author

Costello LC and Franklin RB

Subjects

Aconitate Hydratase metabolism, Animals, Biological Transport, Cation Transport Proteins metabolism, Citrates chemistry, Disease Progression, Epithelial Cells metabolism, Humans, Ligands, Male, Mitochondria metabolism, Prolactin metabolism, Testosterone metabolism, Prostate physiology, Prostatic Neoplasms metabolism, Zinc physiology

Abstract

The human prostate gland contains extremely high zinc levels; which is due to the specialized zinc-accumulating acinar epithelial of the peripheral zone. These cells evolved for their unique capability to produce and secrete extremely levels of citrate, which is achieved by the high cellular zinc level effects on the cell metabolism. This review highlights the specific functional and metabolic alterations that result from the accumulation of the high zinc levels, especially its effects on mitochondrial citrate metabolism and terminal oxidation. The implications of zinc in the development and progression of prostate cancer are described, which is the most consistent hallmark characteristic of prostate cancer. The requirement for decreased zinc resulting from down regulation of ZIP1 to prevent zinc cytotoxicity in the malignant cells is described as an essential early event in prostate oncogenesis. This provides the basis for the concept that an agent (such as the zinc ionophore, clioquinol) that facilitates zinc uptake and accumulation in ZIP1-deficient prostate tumors cells will markedly inhibit tumor growth. In the current absence of an efficacious chemotherapy for advanced prostate cancer, and for prevention of early development of malignancy; a zinc treatment regimen is a plausible approach that should be pursued., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2016

31. In situ clinical evidence that zinc levels are decreased in breast invasive ductal carcinoma.

Author

Costello LC, Zou J, and Franklin RB

Subjects

Case-Control Studies, Chelating Agents, Dithizone, Female, Humans, Breast metabolism, Breast Neoplasms metabolism, Carcinoma, Ductal, Breast metabolism, Zinc metabolism

Abstract

Purpose: Altered zinc levels in malignant cells versus their normal cells have important implications in the development and progression of several cancers. Prostate, pancreatic, and hepatocellular carcinomas exhibit consistent marked zinc decrease in situ in the malignant cells, and other cancers (such as kidney, lung, and thyroid) also exhibit decreased tissue zinc levels. However, zinc levels are increased in breast cancer tissue compared to breast normal tissue, and the contemporary dominant view is that zinc is increased in invasive ductal carcinoma. This has important implications regarding the role and effects of zinc in breast malignancy compared to other cancers, which caused us to initiate this study to either confirm or challenge the contemporary view of an increased zinc level in the invasive ductal malignant cells., Methods: We employed dithizone staining of breast tissue sections and tissue cores to determine the relative in situ cellular zinc levels specifically in the invasive ductal malignant cells as compared to normal ductal epithelium. This approach had not been employed in any of the reported breast studies., Results: The results revealed that the zinc levels are consistently and markedly decreased in the ductal malignant cells as compared with higher prominent zinc levels in the normal ductal epithelium. Decreased zinc is evident in Grade 1 well-differentiated malignancy and in Grade 2 and Grade 3 carcinomas. Among the twenty-five cancer cases in this study, none exhibited increased zinc in the invasive ductal carcinoma compared to the zinc level in the normal ductal epithelium., Conclusions: The decreased zinc levels in breast invasive ductal carcinoma is consistent with prostate, pancreatic, and liver carcinomas in which the decrease in zinc is a required event in the development of malignancy to prevent cytotoxicity that would result from the higher zinc levels in the normal cells. This new understanding requires a redirection in elucidating the mechanisms and factors regarding the regulation of zinc in breast cancer, its potential translational applications as possible biomarkers, and for treatment of breast invasive ductal carcinoma.

Published

2016

32. Plasma Citrate Homeostasis: How It Is Regulated; And Its Physiological and Clinical Implications. An Important, But Neglected, Relationship in Medicine.

Author

Costello LC and Franklin RB

Abstract

The homeostatic maintenance of a normal plasma citrate concentration is an important factor in humans and in animals; and is required for many normal physiological activities. Dysregulation of normal plasma citrate presents pathophysiological hypocitricemic or hypercitricemic conditions. This can lead to clinical consequences in many areas of medicine; such as impaired blood clotting, altered acid/base status, impaired neuromuscular/cardiac activities, hypocitraturia and stone formation, bone disorders with loss of bone strength and increased fractures, hypocitricemia of surgical stress. These important implications of citrate relationships have been largely ignored by the contemporary clinical and biomedical community; to the extent that it is not even described in most current textbooks and review papers. This review describes the physiological, endocrine, and metabolic relationships in the normal regulation and maintenance of plasma citrate; and presents some important clinical consequences of its dysfunctional maintenance. The importance of bone, kidney and liver activities in the maintenance of normal plasma citrate is described along with the citricemic roles of parathyroid hormone, calcitonin and vitamin D. These factors and relationships are presented as the contemporary understanding of the integrated regulation of plasma citrate as the basis for its clinical importance in medicine. The exclusion of these citrate relationships leads to misunderstanding and misrepresentation of physiological and clinical conditions in many issues in medicine and paramedicine areas. The intent of this review is to revive the interest and support for research to address the many unknown and speculative issues of plasma citrate regulation and its important clinical implications. This is in the best interest of the medical community and the public-at-large.

Published

2016

33. Zinc Ionophore (Clioquinol) Inhibition of Human ZIP1-Deficient Prostate Tumor Growth in the Mouse Ectopic Xenograft Model: A Zinc Approach for the Efficacious Treatment of Prostate Cancer.

Author

Franklin RB, Zou J, Zheng Y, Naslund MJ, and Costello LC

Abstract

Prostate cancer remains the second leading cause of cancer deaths in males. This is mainly due to the absence of an available efficacious chemotherapy despite decades of research in pursuit of effective treatment approaches. A plausible target for the treatment is the established clinical relationship that the zinc levels in the malignant cells are markedly decreased compared to the normal epithelium in virtually all cases of prostate cancer, and at all stages malignancy. The decrease in zinc results from the downregulation of the functional zinc uptake transporter, ZIP1; which occurs during early development of prostate malignancy. This is an essential requirement for the development of malignancy to prevent the cytotoxic/tumor-suppressor effects of increased zinc on the premalignant and malignant cells. Thus prostate cancer is a ZIP1-deficient malignancy. This relationship provides the basis for a treatment regimen that will facilitate the uptake and accumulation of zinc into the premalignant and malignant cells. In this report we employed a zinc ionophore (clioquinol) approach in the treatment of mice with human ZIP1-deficient prostate tumors (ectopic xenograft model). Clioquinol treatment resulted in 85%inhibition of tumor growth due to the cytotoxic effects of zinc. Coupled with additional results from earlier studies, the compelling evidence provides a plausible approach for the effective treatment of human prostate cancer; including primary site malignancy, hormone-resistant cancer, and metastasis. Additionally, this approach might be effective in preventing the development of malignancy in individuals suspected of presenting with early development of malignancy. Clinical trials are now required in leading to the potential for an efficacious zinc-treatment approach, which is urgently needed for the treatment of prostate cancer.

Published

2016

34. Evolutionary history influences the salinity preference of bacterial taxa in wetland soils.

Author

Morrissey EM and Franklin RB

Abstract

Salinity is a major driver of bacterial community composition across the globe. Despite growing recognition that different bacterial species are present or active at different salinities, the mechanisms by which salinity structures community composition remain unclear. We tested the hypothesis that these patterns reflect ecological coherence in the salinity preferences of phylogenetic groups using a reciprocal transplant experiment of fresh- and saltwater wetland soils. The salinity of both the origin and host environments affected community composition (16S rRNA gene sequences) and activity (CO2 and CH4 production, and extracellular enzyme activity). These changes in community composition and activity rates were strongly correlated, which suggests the effect of environment on function could be mediated, at least in part, by microbial community composition. Based on their distribution across treatments, each phylotype was categorized as having a salinity preference (freshwater, saltwater, or none) and phylogenetic analyses revealed a significant influence of evolutionary history on these groupings. This finding was corroborated by examining the salinity preferences of high-level taxonomic groups. For instance, we found that the majority of α- and γ-proteobacteria in these wetland soils preferred saltwater, while many β-proteobacteria prefer freshwater. Overall, our results indicate the effect of salinity on bacterial community composition results from phylogenetically-clustered salinity preferences.

Published

2015

35. Metagenomic analysis of planktonic microbial consortia from a non-tidal urban-impacted segment of James River.

Author

Brown BL, LePrell RV, Franklin RB, Rivera MC, Cabral FM, Eaves HL, Gardiakos V, Keegan KP, and King TL

Abstract

Knowledge of the diversity and ecological function of the microbial consortia of James River in Virginia, USA, is essential to developing a more complete understanding of the ecology of this model river system. Metagenomic analysis of James River's planktonic microbial community was performed for the first time using an unamplified genomic library and a 16S rDNA amplicon library prepared and sequenced by Ion PGM and MiSeq, respectively. From the 0.46-Gb WGS library (GenBank:SRR1146621; MG-RAST:4532156.3), 4 × 10(6) reads revealed >3 × 10(6) genes, 240 families of prokaryotes, and 155 families of eukaryotes. From the 0.68-Gb 16S library (GenBank:SRR2124995; MG-RAST:4631271.3; EMB:2184), 4 × 10(6) reads revealed 259 families of eubacteria. Results of the WGS and 16S analyses were highly consistent and indicated that more than half of the bacterial sequences were Proteobacteria, predominantly Comamonadaceae. The most numerous genera in this group were Acidovorax (including iron oxidizers, nitrotolulene degraders, and plant pathogens), which accounted for 10 % of assigned bacterial reads. Polaromonas were another 6 % of all bacterial reads, with many assignments to groups capable of degrading polycyclic aromatic hydrocarbons. Albidiferax (iron reducers) and Variovorax (biodegraders of a variety of natural biogenic compounds as well as anthropogenic contaminants such as polycyclic aromatic hydrocarbons and endocrine disruptors) each accounted for an additional 3 % of bacterial reads. Comparison of these data to other publically-available aquatic metagenomes revealed that this stretch of James River is highly similar to the upper Mississippi River, and that these river systems are more similar to aquaculture and sludge ecosystems than they are to lakes or to a pristine section of the upper Amazon River. Taken together, these analyses exposed previously unknown aspects of microbial biodiversity, documented the ecological responses of microbes to urban effects, and revealed the noteworthy presence of 22 human-pathogenic bacterial genera (e.g., Enterobacteriaceae, pathogenic Pseudomonadaceae, and 'Vibrionales') and 6 pathogenic eukaryotic genera (e.g., Trypanosomatidae and Vahlkampfiidae). This information about pathogen diversity may be used to promote human epidemiological studies, enhance existing water quality monitoring efforts, and increase awareness of the possible health risks associated with recreational use of James River.

Published

2015

36. Persistent low expression of hZip1 in mucinous carcinomas of the ovary, colon, stomach and lung.

Author

Desouki MM, Franklin RB, Costello LC, and Fadare O

Subjects

Adenocarcinoma, Mucinous pathology, Adult, Aged, Biomarkers, Tumor genetics, Cation Transport Proteins genetics, Colon metabolism, Colon pathology, Colonic Neoplasms genetics, Colonic Neoplasms pathology, Female, Gastric Mucosa metabolism, Gene Expression Regulation, Neoplastic, Humans, Lung Neoplasms genetics, Lung Neoplasms pathology, Male, Middle Aged, Ovarian Neoplasms pathology, Ovary metabolism, Ovary pathology, Stomach pathology, Stomach Neoplasms genetics, Stomach Neoplasms pathology, Adenocarcinoma, Mucinous genetics, Biomarkers, Tumor biosynthesis, Cation Transport Proteins biosynthesis, Ovarian Neoplasms genetics

Abstract

Background: Mucinous carcinomas from different organs are morphologically similar and might share similarities at the molecular and biochemical levels that may illuminate their pathogenesis and influence management. The factors involved in the pathogenesis of mucinous carcinomas remain unknown; which is likely one contributor to the current dearth of biomarkers for detection. Because zinc changes are implicated in some cancers e.g., prostate; we assessed the possibility of a similar role in mucinous carcinomas., Methods: The goal of the current work is to study the expression of hZip1 by immunohistochemistry in mucinous carcinomas as compared with non-neoplastic epithelia and conventional carcinomas. Tissue microarray slides containing mucinous carcinomas of the ovary (n = 35), colon (n = 51), stomach (n = 32) and lung (n = 21) were used., Results: hZip1 showed persistent low expression in mucinous compared to ovarian serous carcinomas and normal tissue (P < 0.05), colonic adenocarcinoma and normal mucosa (P < 0.001), and gastric adenocarcinoma and normal epithelium (P < 0.05). hZip1 also showed low expression in pulmonary mucinous carcinomas., Conclusions: hZip1 is consistently decreased in mucinous carcinomas from a variety of organs. Despite the fact that these preliminary findings are unlikely to be of much diagnostic significance, these findings suggest that hZip1 plays a fundamental role in the carcinogenesis of mucinous tumors.

Published

2015

37. Evidence that Human Prostate Cancer is a ZIP1-Deficient Malignancy that could be Effectively Treated with a Zinc Ionophore (Clioquinol) Approach.

Author

Costello LC, Franklin RB, Zou J, and Naslund MJ

Abstract

Despite decades of research, no efficacious chemotherapy exists for the treatment of prostate cancer. Malignant prostate zinc levels are markedly decreased in all cases of prostate cancer compared to normal/benign prostate. ZIP1 zinc transporter down regulation decreases zinc to prevent its cytotoxic effects. Thus, prostate cancer is a "ZIP1-deficient" malignancy. A zinc ionophore (e.g. Clioquinol) treatment to increase malignant zinc levels is a plausible treatment of prostate cancer. However, skepticism within the clinical/biomedical research community impedes significant progress leading to such a zinc treatment. This report reviews the clinical and experimental background, and presents new experimental data showing Clioquinol suppression of prostate malignancy; which provides strong support for a zinc ionophore treatment for prostate cancer. Evaluation of often-raised opposing issues is presented. These considerations lead to the conclusion that the compelling evidence dictates that a zinc-treatment approach for prostate cancer should be pursued with additional research leading to clinical trials.

Published

2015

38. Resource effects on denitrification are mediated by community composition in tidal freshwater wetlands soils.

Author

Morrissey EM and Franklin RB

Subjects

Biota, Ecological and Environmental Phenomena, Fertilizers, Fresh Water, Plants genetics, Polymorphism, Restriction Fragment Length, Soil Microbiology, Denitrification physiology, Nitrates metabolism, Plant Physiological Phenomena, Soil chemistry, Wetlands

Abstract

Accurate prediction of denitrification rates remains difficult, potentially owing to complex uncharacterized interactions between resource conditions and denitrifier communities. To better understand how the availability of organic matter (OM) and nitrate (NO3 (-) ), two of the resources most fundamental to denitrifiers, affect these populations and their activity, we performed an in situ resource manipulation in tidal freshwater wetland soils. Soils were augmented with OM to double ambient concentrations, using either compost or plant litter, and fertilized with KNO3 at two levels (low: ∼ 5 mg l(-1)  NO3 (-) -N and high: ∼ 50 mg l(-1)  NO3 (-) -N) in a full factorial design. Community composition of nirS-denitrifers (assessed using terminal restriction fragment length polymorphism) was interactively regulated by both NO3 (-) concentration and OM type, and the associated shifts in community composition were relatively consistent across sampling dates (6, 9 and 12 months of incubation). Denitrification potential (pDNF) rates were also strongly affected by NO3 (-) fertilization and increased by ∼ 10-100-fold. Path analysis revealed that the influence of resource availability on pDNF rates was largely mediated through changes in nirS-denitrifier community composition. These results suggest that a greater understanding of denitrifier community ecology may enable more accurate prediction of denitrification rates., (© 2014 Society for Applied Microbiology and John Wiley & Sons Ltd.)

Published

2015

39. In vitro BMP2 stimulation of osteoblast citrate production in concert with mineralized bone nodule formation.

Author

Costello LC, Chellaiah MA, Zou J, Reynolds MA, and Franklin RB

Abstract

Background: That citrate is a major indispensible component of bone in humans and in all osteovertebrates has been known for about seventy-five years. Yet, its role and importance in the structure and function of bone and bone formation have remained unknown. However, recent studies have identified that citrate is a major and essential component of the apatite/collagen structure of bone; and that the biomechanical properties of bone (e.g., stability, strength, resistance to fracture) depend on the appropriate incorporation of citrate in the structure of bone. The osteoblasts have recently been identified as citrate-producing cells that provide the citrate that is incorporated in the apatite/collagen structure during osteogenesis. Little is known regarding the factors and mechanisms involved in the regulation of citrate that is incorporated along with mineralization during the process of bone formation. Because of the importance of BMP2 in the initiation of osteogenesis and the development of the osteoblasts, it is essential to determine its possible implication in the development of the citrate-producing capability of the osteoblasts (i.e., "citration") during the formation of mineralized bone nodules., Methods: The goal of this study was to determine if BMP2 promotes the development of citrate-producing osteoblasts for increased citrate incorporation in the formation of mineralized bone nodules. The study employed MC3T3 mesenchyme stem cell osteogenic differentiation in the presence and absence of BMP2., Results: The results showed that BMP2 treatment increased the osteogenic development of mineralized bone nodules. In addition, BMP2 increased osteoblast citrate production and incorporation in the mineralized bone nodule. This was accompanied by increased ZIP1 transporter, which is an essential genetic/metabolic event for citrate-producing cells., Conclusions: The results demonstrate, for the first time, that BMP2 facilitates the osteoblast "citration" process in concert with mineralization during bone formation; and provide confirmation of the important role of osteoblasts as specialized citrate-producing cells in the process of bone formation. However, it is essential to determine if these in vitro effects will occur in vivo in BMP2-implant induction of bone formation. "Citration" is essential for osteoinductive bone to represent the chemical, structural, and biomechanical properties of "normal" bone.

Published

2015

40. The cytotoxic role of RREB1, ZIP3 zinc transporter, and zinc in human pancreatic adenocarcinoma.

Author

Franklin RB, Zou J, and Costello LC

Subjects

Adenocarcinoma pathology, Cation Transport Proteins genetics, Cell Line, Tumor, Cell Proliferation, DNA-Binding Proteins genetics, Humans, Pancreatic Neoplasms pathology, Transcription Factors genetics, Adenocarcinoma metabolism, Cation Transport Proteins metabolism, DNA-Binding Proteins metabolism, Pancreatic Neoplasms metabolism, Transcription Factors metabolism, Zinc metabolism

Abstract

Pancreatic cancer (ductal adenocarcinoma) remains a deadly cancer with ~85% mortality, and a 5-year survival rate of ~6% or less for the past 30 years. The factors and events associated with the development of pancreatic cancer are poorly identified. As such, effective biomarkers for early detection of malignancy are lacking. Efficacious chemotherapy once the cancer is identified does not exist. Recent clinical studies have revealed that the zinc levels are consistently and markedly decreased in adenocarcinoma as compared with normal/benign pancreatic tissue. The decreased zinc is exhibited in well-differentiated malignancy and in progressing malignancy, and also exists throughout the development of PanIN. Concurrent with the decrease in zinc, RREB1 transcription factor and ZIP3 zinc uptake transporter are downregulated. Thus, a RREB1/ZIP3/Zinc transformation appears to be an early event in the development of pancreatic cancer. We propose that this transformation is necessary to prevent the accumulation of high cellular zinc levels, which result in cytotoxic effects on the developing malignant cells. This report now demonstrates that exposure of Panc1 cells to physiological concentrations of zinc that result in increased zinc uptake and accumulation also inhibits cell proliferation. The study further shows that ZIP3 is the important transporter required for the accumulation of zinc and its inhibition of proliferation. RREB1 is identified as the positive regulator of ZIP3 expression. Therefore, the pathway of RREB1/ZIP3/Zinc and its downregulation during oncogenesis exist to prevent the accumulation of cytotoxic levels of zinc during the development and progression of the malignant cells in pancreatic adenocarcinoma.

Published

2014

41. Exposure to the cyanotoxin microcystin arising from interspecific differences in feeding habits among fish and shellfish in the James River Estuary, Virginia.

Author

Wood JD, Franklin RB, Garman G, McIninch S, Porter AJ, and Bukaveckas PA

Subjects

Animals, Estuaries, Mollusca physiology, Rivers, Species Specificity, Virginia, Environmental Exposure, Feeding Behavior drug effects, Fishes physiology, Microcystins toxicity, Mollusca drug effects

Abstract

The cyanotoxin, microcystin (MC), is known to accumulate in the tissues of diverse aquatic biota although factors influencing exposure, such as feeding habits and seasonal patterns in toxin production, are poorly known. We analyzed seasonal variation in the MC content of primary and secondary consumers, and used dietary analysis (gut contents and stable isotopes) to improve understanding of cyanotoxin transport in food webs. Periods of elevated toxin concentration were associated with peaks in the abundance of genes specific to Microcystis and MC toxin production (mcyD). Peak toxin levels in consumer tissues coincided with peak MC concentrations in seston. However, toxins in tissues persisted in overwintering populations suggesting that potential health impacts may not be limited to bloom periods. Interspecific differences in tissue MC concentrations were related to feeding habits and organic matter sources as pelagic fishes ingested a greater proportion of algae in their diet, which resulted in greater MC content in liver and muscle tissues. Sediments contained a greater proportion of allochthonous (terrestrial) organic matter and lower concentrations of MC, resulting in lower toxin concentrations among benthic detritivores. Among shellfish, the benthic suspension feeder Rangia cuneata (wedge clam) showed seasonal avoidance of toxin ingestion due to low feeding rates during periods of elevated MC. Among predators, adult Blue Catfish had low MC concentrations, whereas Blue Crabs exhibited high levels of MC in both muscle and viscera.

Published

2014

42. The status of zinc in the development of hepatocellular cancer: an important, but neglected, clinically established relationship.

Author

Costello LC and Franklin RB

Subjects

Animals, Antineoplastic Agents therapeutic use, Biomarkers, Tumor metabolism, Cation Transport Proteins metabolism, Humans, Liver Cirrhosis metabolism, Liver Cirrhosis pathology, Liver Neoplasms drug therapy, Liver Neoplasms pathology, Zinc Compounds therapeutic use, Liver Neoplasms metabolism, Zinc metabolism

Abstract

Liver cancer (hepatocellular carcinoma, HCC) is increasing worldwide. About 75% of HCC cases result in death generally within one year. The factors responsible for the initiation and progression of HCC remain largely unknown and speculative, thereby impeding advancements in the development of effective therapeutic agents and biomarkers for early detection of HCC. A consistent marked decrease in zinc in HCC tumors compared with normal liver is an established clinical relationship, which occurs in virtually all cases of HCC. However, this relationship has been largely ignored by the contemporary clinical and research community. Consequently, the factors and mechanisms involved in this relationship have not been addressed. Thus, the opportunity and potential for its employment as biomarkers for early identification of malignancy, and for development of a chemotherapeutic approach have been lacking. This presentation includes a review of the literature and the description of important recent and new data, which provide the basis for a concept of the role of zinc in the development of HCC. The basis is presented for characterizing HCC malignancy as ZIP14-deficient tumors, and its requirement to prevent zinc cytotoxic effects on the malignant cells. The potential for an efficacious zinc treatment approach for HCC is described. The involvement of zinc in the predisposition for HCC by chronic liver disease/cirrhosis is presented. Hopefully, this presentation will raise the awareness, interest, and support for the much needed research in the implications of zinc in the development and progression of HCC.

Published

2014

43. Salinity affects microbial activity and soil organic matter content in tidal wetlands.

Author

Morrissey EM, Gillespie JL, Morina JC, and Franklin RB

Subjects

Bays, Ecosystem, Salinity, Seawater, Virginia, Soil chemistry, Soil Microbiology, Wetlands

Abstract

Climate change-associated sea level rise is expected to cause saltwater intrusion into many historically freshwater ecosystems. Of particular concern are tidal freshwater wetlands, which perform several important ecological functions including carbon sequestration. To predict the impact of saltwater intrusion in these environments, we must first gain a better understanding of how salinity regulates decomposition in natural systems. This study sampled eight tidal wetlands ranging from freshwater to oligohaline (0-2 ppt) in four rivers near the Chesapeake Bay (Virginia). To help isolate salinity effects, sites were selected to be highly similar in terms of plant community composition and tidal influence. Overall, salinity was found to be strongly negatively correlated with soil organic matter content (OM%) and C : N, but unrelated to the other studied environmental parameters (pH, redox, and above- and below-ground plant biomass). Partial correlation analysis, controlling for these environmental covariates, supported direct effects of salinity on the activity of carbon-degrading extracellular enzymes (β-1, 4-glucosidase, 1, 4-β-cellobiosidase, β-D-xylosidase, and phenol oxidase) as well as alkaline phosphatase, using a per unit OM basis. As enzyme activity is the putative rate-limiting step in decomposition, enhanced activity due to salinity increases could dramatically affect soil OM accumulation. Salinity was also found to be positively related to bacterial abundance (qPCR of the 16S rRNA gene) and tightly linked with community composition (T-RFLP). Furthermore, strong relationships were found between bacterial abundance and/or composition with the activity of specific enzymes (1, 4-β-cellobiosidase, arylsulfatase, alkaline phosphatase, and phenol oxidase) suggesting salinity's impact on decomposition could be due, at least in part, to its effect on the bacterial community. Together, these results indicate that salinity increases microbial decomposition rates in low salinity wetlands, and suggests that these ecosystems may experience decreased soil OM accumulation, accretion, and carbon sequestration rates even with modest levels of saltwater intrusion., (© 2013 John Wiley & Sons Ltd.)

Published

2014

44. Evidence that Osteoblasts are Specialized Citrate-producing Cells that Provide the Citrate for Incorporation into the Structure of Bone.

Author

Franklin RB, Chellaiah M, Zou J, Reynolds MA, and Costello LC

Abstract

Citrate is a major component of bone in all vertebrates, but its implications in bone have remained largely unknown. Recent studies identified that citrate is incorporated into the structure of the hydroxyapatite nanocrystal/collagen complex; and is essential for the important biomechanical properties of bone. This raises the important question, "What is the source of citrate for incorporation into bone?"; A question that heretofore had remained unresolved. Studies in this report were designed to determine the plausibility of our concept that the osteoblasts are specialized citrate-producing cells, which provide the citrate that is incorporated into the structure of bone; and that osteogenic differentiation of mesenchyme cells leads to the development of the citrate-producing osteoblasts. The results demonstrated that primary human osteoblasts exhibit the capability of citrate-production. Undifferentiated mesenchyme cells do not exhibit the capability of citrate production; and osteogenic differentiation results in citrate-producing osteoblasts. The up-regulation of zinc uptake transporter ZIP1 is essential for the manifestation of the citrate-producing capability of the osteoblasts. We determined that osteoblast transport of citrate from plasma is not a likely source of citrate in bone. Thus, this study establishes for the first time that the osteoblasts are specialized citrate-producing cells that provide the citrate for incorporation into the structure of bone; and that mesenchyme cell osteogenesis leads to differentiated citrate-producing osteoblasts. This is a new understanding; which must include the osteogenic development of citrate-producing osteoblasts, and the process of "citration" in concert with mineralization during bone formation. It also provides a new understanding of the role of bone in the homeostatic maintenance of plasma citrate concentration.

Published

2014

45. The status of citrate in the hydroxyapatite/collagen complex of bone; and Its role in bone formation.

Author

Costello LC, Chellaiah M, Zou J, Franklin RB, and Reynolds MA

Abstract

Background: It has been known for more than 70 years that citrate is a major component of bone; comprising 1-2% weight of bone, and a concentration that is ~5-25-fold greater than the citrate concentration of most other tissues. This relationship exists in humans and in all vertebrates; which reveals that it is an indispensible and essential structural/functional component of bone. However, its implications relating to the structure and properties of bone, to the process of bone formation and regeneration, to bone disorders, and other issues have remained largely unknown and unaddressed. Recent studies have identified citrate as a structural component of the apatite nanocrystal/collagen complex, which is essential for imparting the bone properties of stability, strength, and resistance to fracture. This raises the issues of the status of citrate, and its source in normal bone formation., Methods: The present report investigated the association of citrate with the hydroxyapatite (mineral) component and with the collagen component of human cortical bone preparations. The bone preparations were subjected to demineralization procedures to extract the mineral component; followed by extraction of the collagen component in the residual demineralized bone. The extracts were assayed for citrate, calcium, and collagen., Results: The results reveal, for the first time, the existence of two major pools of citrate in bone. One pool comprising ~65-80% of the total citrate is associated with the hydroxyapatite component; and another pool comprising ~20-35% of the total citrate is tightly bound to the collagen component of the apatite nanocrystal/collagen complex., Conclusions: Citrate is an indispensible chemical and structural component of the apatite nanocrystal/collagen complex; and is required for manifestation of the biomechanical properties of bone. These results lead to a new concept of bone formation in which citrate incorporation ("citration") in concert with mineralization must be included in the process of bone formation. Along with this relationship, osteoblast citrate production has recently been identified as the likely source of citrate. It is now evident that the role of citrate in normal bone formation and its implications in bone disorders and defects, and in bone repair and regeneration, now requires renewed attention and support for much needed research.

Published

2014

46. A review of the important central role of altered citrate metabolism during the process of stem cell differentiation.

Author

Costello LC and Franklin RB

Abstract

Stem cells are highly proliferating cells that have the potential for differentiation leading to the development of specialized functional cell types. The process of stem cell differentiation requires an increase in the recruitment and population of the undifferentiated stem cells, which are then differentiated to specific functional cell types. Genetic/metabolic transformations in the cellular intermediary energy metabolism are required to provide the bioenergetic, synthetic, and catabolic requirements of the stem cells during this process. However, the identification of the intermediary energy metabolism pathways and their alterations during the proliferation and differentiation of stem cells remain largely unknown; mainly due to the lack of attention and/or required research that focuses on this relationship. In the absence of such information, a full understanding of the factors and conditions required to promote stem cell differentiation leading to development of normal functional metabolic specialized cells cannot be achieved. The purpose of this review is to provide the background and bring attention to the essential relationship of altered cellular intermediary metabolism in the context of the process of stem cell proliferation and differentiation. Citrate metabolism is central to the genetic and metabolic transformation leading to the development of the specialized functional cells. This review identifies the involvement of altered citrate metabolism and the associated genetic alterations of key pathways, enzymes, and transporters; as well as the bioenergetic implications. The importance is emphasized for identification and employment of required conditions to insure that the process of experimental stem cell differentiation results in the development of specialized cells that represent the functional metabolic characteristics and capabilities of their native specialized cells. This is an essential requirement for the successful application of stem cell therapy and regenerative medicine for many pathological conditions.

Published

2013

47. A Review of the Current Status and Concept of the Emerging Implications of Zinc and Zinc Transporters in the Development of Pancreatic Cancer.

Author

Costello LC and Franklin RB

Abstract

Pancreatic cancer (adenocarcinoma) remains a deadly untreatable cancer with no effective early detection procedure. Little is known concerning the factors involved in the development of pancreatic malignancy, which impedes advancements in its treatment and detection. Altered cellular zinc has been implicated in several cancers. Recent studies provide evidence that zinc and zinc transporters are important factors in pancreatic cancer. This review discusses the current information relating to the status of zinc and zinc transporters in human pancreatic adenocarcinoma. Relationships of the physiology and biochemistry of zinc in mammalian cells are presented, which should be applied to the conduct, interpretation, and translational application of human studies and experimental models. Evidence from human pancreatic tissue studies supports a new concept of the role of zinc in the development of pancreatic adenocarcinoma. The zinc level of the normal ductal and acinar epithelium is markedly decreased in the development of the malignant cells and the premalignant PanIN cells. ZIP3 is identified as the likely zinc uptake transporter, which is down regulated concurrently with the loss of zinc. Ras responsive binding protein (RREB1) is identified as the possible transcription factor involved in the silencing of ZIP3 expression. The evidence supports the current views of transdifferentiation of PanIN epithelium to ductal adenocarcinoma, and the possibility that acinar epithelial dedifferentiation might be a source of premalignant cells. These zinc-associated events occur early in oncogenesis to protect the malignant cells from the cytotoxic effects of zinc levels that exist in the normal cells. Hopefully, this presentation will stimulate interest in and support for much needed research into the implications of zinc and zinc transporters as important events in pancreatic carcinogenesis. The potential exists for the RREB1-ZIP3-zinc concept and/or other implications of zinc as new approaches for the development of effective treatment and for diagnostic biomarkers for pancreatic cancer.

Published

2013

48. Evidence for changes in RREB-1, ZIP3, and Zinc in the early development of pancreatic adenocarcinoma.

Author

Costello LC, Zou J, Desouki MM, and Franklin RB

Subjects

Biomarkers, Tumor analysis, Blotting, Western, Carcinoma in Situ metabolism, Cation Transport Proteins analysis, DNA-Binding Proteins analysis, Down-Regulation, Humans, Immunohistochemistry, Precancerous Conditions metabolism, Tissue Array Analysis, Transcription Factors analysis, Carcinoma, Pancreatic Ductal metabolism, Cation Transport Proteins biosynthesis, DNA-Binding Proteins biosynthesis, Pancreatic Neoplasms metabolism, Transcription Factors biosynthesis, Zinc analysis

Abstract

Purpose: Pancreatic adenocarcinoma is an untreatable cancer with a 5-year survival rate of about 6 % or less for the past 35 years. This lack of significant progress is largely due to the lack of elucidation and understanding of the factors involved in the development of this cancer. Recent studies identified and implicated zinc in the development and progression of pancreatic cancer. This study was conducted to establish the changes in zinc, ZIP3 zinc transporter, and Ras-responsive element-binding protein 1 (RREB-1) transcription factor as early events in the development of malignancy., Methods: In situ relative zinc determination and immunohistochemical analysis of ZIP3 and RREB-1 were performed on archived human pancreatic tissue sections and tissue microarrays. Normal/benign versus adenocarcinoma pancreas was compared. Panc1 cells were employed to determine the influence of RREB-1 on ZIP3 expression., Results: Zinc levels of normal ductal and acinar epithelium were markedly and consistently decreased in adenocarcinoma. Pancreatic intraepithelial neoplasia (PanIN) lesions also exhibited a loss of zinc. ZIP3 and RREB-1 were also markedly downregulated. Initial results indicate that RREB-1 regulates ZIP3 expression., Conclusions: These results corroborate the earlier report that zinc, ZIP3, and RREB-1 are markedly decreased in early stage adenocarcinoma. Additionally and most importantly, these changes occur in PanIN, which are thought to be precancerous lesions leading to ductal adenocarcinoma. These results support a concept that downregulation of RREB-1 causes downregulation of ZIP3, which results in decreased zinc in premalignant and carcinoma cells. The decrease in zinc is essential to remove its cytotoxic effects on malignant cells. This relationship constitutes a new concept of early genetic/metabolic events in the progressive transformation of normal cells to premalignant cells to malignant cells in the development of pancreatic cancer.

Published

2012

49. ZIP14 zinc transporter downregulation and zinc depletion in the development and progression of hepatocellular cancer.

Author

Franklin RB, Levy BA, Zou J, Hanna N, Desouki MM, Bagasra O, Johnson LA, and Costello LC

Subjects

Disease Progression, Down-Regulation, Humans, Immunohistochemistry, Tissue Array Analysis, Carcinoma, Hepatocellular metabolism, Cation Transport Proteins metabolism, Liver Neoplasms metabolism, Zinc metabolism

Abstract

Purpose: Hepatocellular cancer (HCC) is a deadly and most rapidly increasing cancer in the USA and worldwide. The etiology and factors involved in development of HCC remain largely unknown. A marked decrease in zinc occurs in HCC. Its role and involvement in HCC has not been identified. We investigated the relationship of cellular zinc changes to the development of malignancy, and the identification of potential zinc transporters associated with the inability of hepatoma cells to accumulate zinc., Methods: The detection of relative zinc levels in situ in normal hepatic cells vs. hepatoma was performed on normal and HCC tissue sections. ZIP1, 2, 3, and 14 transporters were identified by immunohistochemistry., Results: Intracellular zinc levels are markedly decreased in HCC hepatoma cells vs. normal hepatic cells in early stage and advanced stage malignancy. ZIP14 transporter is localized at the plasma membrane in normal hepatocytes, demonstrating its functioning for uptake and accumulation of zinc. The transporter is absent in the hepatoma cells and its gene expression is downregulated. The change in ZIP14 is concurrent with the decrease in zinc. ZIP1, 2, 3 are not associated with normal hepatocyte uptake of zinc, and HCC zinc depletion. HepG2 cells exhibit ZIP14 transporter. Zinc treatment inhibits their growth., Conclusions: ZIP14 downregulation is likely involved in the depletion of zinc in the hepatoma cells in HCC. These events occur early in the development of malignancy possibly to protect the malignant cells from tumor suppressor effects of zinc. This provides new insight into important factors associated with HCC carcinogenesis.

Published

2012

50. The genetic/metabolic transformation concept of carcinogenesis.

Author

Costello LC and Franklin RB

Subjects

Humans, Male, Prostatic Neoplasms genetics, Prostatic Neoplasms metabolism, Proteome, Tumor Microenvironment, Cell Transformation, Neoplastic genetics, Cell Transformation, Neoplastic metabolism

Abstract

The carcinogenesis process is poorly understood and subject to varying concepts and views. A rejuvenated interest has arisen regarding the role of altered cellular intermediary metabolism in the development and progression of cancer. As a result, differing views of the implications of altered metabolism in the development of cancer exist. None of the concepts recognize and incorporate the principles of cell metabolism to cell activity, which are applicable to all cells including the carcinogenesis process. This presentation incorporates a novel concept of carcinogenesis that includes a "genetic/metabolic" transformation that encompasses these principles of cell metabolism to cell activity. The intermediary metabolism transformation is essential to provide the bioenergetic/synthetic, growth/proliferation, and migration/invasive events of malignancy. The concept invokes an "oncogenetic transformation" for the development of neoplastic cells from their precursor normal cells; and a required "genetic/metabolic" transformation for facilitation of the development of the neoplastic cells to malignant cells with the manifestation of the malignant process. Such a concept reveals stages and events of carcinogenesis that provide approaches for the identification of biomarkers and for development of therapeutic agents. The presentation discusses the contemporary application of genetics and proteomics to altered cellular metabolism in cancer; and underscores the importance of proper integration of genetics and proteomics with biochemical and metabolic studies, and the consequences of inappropriate studies.

Published

2012