Your search keyword '"Zinc Transporters"' showing total 1,660 results

1. Cryo‐EM structures of the zinc transporters ZnT3 and ZnT4 provide insights into their transport mechanisms.

Author

Ishida, Hanako, Yo, Riri, Zhang, Zhikuan, Shimizu, Toshiyuki, and Ohto, Umeharu

Subjects

*ZINC transporters, *TRANSMEMBRANE domains, *SYNAPTIC vesicles, *MEMBRANE proteins, *PROTEIN structure

Abstract

Zinc transporters (ZnTs) act as H+/Zn2+ antiporters, crucial for zinc homeostasis. Brain‐specific ZnT3 expressed in synaptic vesicles transports Zn2+ from the cytosol into vesicles and is essential for neurotransmission, with ZnT3 dysfunction associated with neurological disorders. Ubiquitously expressed ZnT4 localized to lysosomes facilitates the Zn2+ efflux from the cytosol to lysosomes, mitigating the cell injury risk. Despite their importance, the structures and Zn2+ transport mechanisms remain unclear. We characterized the three‐dimensional structures of human ZnT3 (inward‐facing) and ZnT4 (outward‐facing) using cryo‐electron microscopy. By combining these structures, we assessed the conformational changes that could occur within the transmembrane domain during Zn2+ transport. Our results provide a structural basis for a more comprehensive understanding of the H+/Zn2+ exchange mechanisms exhibited by ZnTs. [ABSTRACT FROM AUTHOR]

Published

2024

2. Gαo1 and Gαo1/Gαo2 deletion differentially affect hippocampal mossy fiber tract anatomy and neuronal morphogenesis.

Author

Höltje, Markus, Wolkowicz, Anton, Brunk, Irene, Baron, Jens, and Ahnert‐Hilger, Gudrun

Subjects

*ZINC transporters, *DENDRITES, *IMMUNOSTAINING, *HIPPOCAMPUS (Brain), *ANATOMY

Abstract

The heterotrimeric G‐protein αo subunit is ubiquitously expressed in the CNS as two splice variants Gαo1 and Gαo2, regulating various brain functions. Here, we investigated the effect of single Gαo1, Gαo2, and double Gαo1/2 knockout on the postnatal development of the murine mossy fiber tract, a central pathway of the hippocampal connectivity circuit. The size of the hippocampal synaptic termination fields covered by mossy fiber boutons together with various fiber length parameters of the tract was analyzed by immunohistochemical staining of the vesicular Zinc transporter 3 (ZnT3) or Synaptoporin at postnatal days 2, 4, 8, 12, 16, and in the adult. Ultimately, Gαo1 knockout resulted in a reduced developmental growth of synaptic mossy fiber terminal fields by 37% in the adult Stratum lucidum and by 30% in the total mossy fiber tract size. Other morphological parameters such as projection length of the infrapyramidal bundle of the tract were increased (+52% in Gαo1−/− mice). In contrast, Gαo2 knockout had no effects on the mossy fiber tract. Moreover, by using primary heterozygous and homozygous Gαo1 knockout hippocampal cultures, we detected a strongly pronounced reduction in axon and dendrite length (−50% and −38%, respectively) as well as axon and dendrite arborization complexity (−75% and −72% branch nodes, respectively) in the homozygous knockout. Deletion of both splice variants Gαo1 and Gαo2 partially rescued the in vivo and completely reconstituted the in vitro effects, indicating an opposing functional relevance of the two Gαo splice variants for neuronal development and synaptic connectivity. [ABSTRACT FROM AUTHOR]

Published

2024

3. Zinc metalloprotease FgM35, which targets the wheat zinc-binding protein TaZnBP, contributes to the virulence of Fusarium graminearum.

Author

Wang, Xin-tong, Liu, Kou-han, Li, Ying, Ren, Yan-yan, Li, Qiang, and Wang, Bao-tong

Subjects

ZINC transporters, PLANT immunology, DISEASE resistance of plants, ASEXUAL reproduction, DISEASE susceptibility

Abstract

Metalloproteinases are ubiquitous in organisms. Most metalloproteinases secreted by pathogenic microorganisms are also called virulence factors, because they degrade proteins in the external tissues of the host, thereby reducing the host's immunity and increasing its susceptibility to disease. Zinc metalloproteinase is one of the most common metalloproteinases. In our report, we studied the biological function of zinc metalloprotease FgM35 in Fusarium graminearum and the pathogen–host interaction during infection. We found that the asexual and sexual reproduction of the deletion mutant ΔFgM35 were affected, as well as the tolerance of F. graminearum to metal stress. In addition, deletion of FgM35 reduced the virulence of F. graminearum. The wheat target TaZnBP was screened using a wheat yeast cDNA library, and the interaction between FgM35 and TaZnBP was verified by HADDOCK molecular docking, yeast two-hybrid, Bi-FC, Luc, and Co-IP assays. The contribution of TaZnBP to plant immunity was also demonstrated. In summary, our work revealed the indispensable role of FgM35 in the reproductive process and the pathogenicity of F. graminearum, and it identified the interaction between FgM35 and TaZnBP as well as the function of TaZnBP. This provides a theoretical basis for further study of the function of metalloproteinases in pathogen–host interactions. [ABSTRACT FROM AUTHOR]

Published

2024

4. Screening of Diabetes‐Associated Autoantigens and Serum Antibody Profiles Using a Phage Display System.

Author

Lin, Jun, Wang, Zhenyu, Wang, Hongtao, Li, Yuping, Liu, Yao, He, Yige, Liu, Qian, Chen, Zichuan, Ji, Yuan, and Al-Shammari, Ahmed Majeed

Subjects

*TYPE 1 diabetes, *AMYLIN, *RECOMBINANT proteins, *ZINC transporters, *DISPLAY systems

Abstract

Aims/Introduction: Phage display method is a crucial tool to find novel clinically valuable diabetes‐associated autoantigens and identify known autoantigen epitopes that are associated with diabetes and could provide scientific support and guidance for the artificial construction and synthesis of Type I diabetes mellitus (T1DM) novel biomarkers. Materials and Methods: The phage display system was used for the "biopanning" of T1DM serum. Following the sequencing of the phage DNAs, the homologous sequences of the above fusion heptapeptide were further investigated by BLAST to track the origin of the polypeptide sequences. The antibody spectrum revealed new T1DM‐associated epitopes and antibodies. Results: A total of 1200 phage DNA were sequenced and 9 conserved polypeptide sequences were collected. It was confirmed that the zinc transporter and islet amyloid protease were among them. The conserved polypeptide sequence 8 and another three distinctive polypeptide sequences derived from Proteus were discovered. Furthermore, we expressed recombinant proteins with homologous polypeptide sequences for the human islet amyloid polypeptide (IAPP) and polypeptide precursor human zinc transporter 8 (ZNT8). Through clinical sample detection for the serum from T1DM (n = 100) and T2DM (n = 200) patients, results demonstrate the importance and relevance of these polypeptides in the recognition and classification of various forms of diabetes. Conclusion: Human pancreatic and concurrent bacterial‐derived protein antigens and their epitopes were identified in this research by the phage display system, which is crucial for distinguishing different types of diabetes. [ABSTRACT FROM AUTHOR]

Published

2024

5. SENP1 mediates zinc-induced ZnT6 deSUMOylation at Lys-409 involved in the regulation of zinc metabolism in Golgi apparatus.

Author

Song, Chang-Chun, Liu, Tao, Hogstrand, Christer, Zhong, Chong-Chao, Zheng, Hua, Sun, Lv-Hui, and Luo, Zhi

Subjects

*SMALL ubiquitin-related modifier proteins, *METABOLIC regulation, *ZINC transporters, *POST-translational modification, *PROTEIN stability, *GOLGI apparatus

Abstract

Zinc (Zn) transporters contribute to the maintenance of intracellular Zn homeostasis in vertebrate, whose activity and function are modulated by post-translational modification. However, the function of small ubiquitin-like modifier (SUMOylation) in Zn metabolism remains elusive. Here, compared with low Zn group, a high-Zn diet significantly increases hepatic Zn content and upregulates the expression of metal-response element-binding transcription factor-1 (MTF-1), Zn transporter 6 (ZnT6) and deSUMOylation enzymes (SENP1, SENP2, and SENP6), but inhibits the expression of SUMO proteins and the E1, E2, and E3 enzymes. Mechanistically, Zn triggers the activation of the MTF-1/SENP1 pathway, resulting in the reduction of ZnT6 SUMOylation at Lys 409 by small ubiquitin-like modifier 1 (SUMO1), and promoting the deSUMOylation process mediated by SENP1. SUMOylation modification of ZnT6 has no influence on its localization but reduces its protein stability. Importantly, deSUMOylation of ZnT6 is crucial for controlling Zn export from the cytosols into the Golgi apparatus. In conclusion, for the first time, we elucidate a novel mechanism by which SUMO1-catalyzed SUMOylation and SENP1-mediated deSUMOylation of ZnT6 orchestrate the regulation of Zn metabolism within the Golgi apparatus. [ABSTRACT FROM AUTHOR]

Published

2024

6. Identification of Genomic Regions Conferring Enhanced Zn and Fe Concentration in Wheat Varieties and Introgression Lines Derived from Wild Relatives.

Author

Leonova, Irina N., Kiseleva, Antonina A., and Salina, Elena A.

Subjects

*GENE families, *ZINC transporters, *CHROMOSOMES, *TRACE elements, *INTROGRESSION (Genetics), *DURUM wheat

Abstract

Wild and cultivated relatives of wheat are an important source of genetic factors for improving the mineral composition of wheat. In this work, a wheat panel consisting of modern bread wheat varieties, landraces, and introgression lines with genetic material of the wheat species Triticum timopheevii, T. durum, T. dicoccum, and T. dicoccoides and the synthetic line T. kiharae was used to identify loci associated with the grain zinc (GZnC) and iron (GFeC) content. Using a BLINK model, we identified 31 and 73 marker–trait associations (MTAs) for GZnC and GFeC, respectively, of which 19 were novel. Twelve MTAs distributed on chromosomes 1B, 2A, 2B, 5A, and 5B were significantly associated with GZnC, five MTAs on 2A, 2B, and 5D chromosomes were significantly associated with GFeC, and two SNPs located on 2A and 2B were related to the grain concentration of both trace elements. Meanwhile, most of these MTAs were inherited from At and G genomes of T. timopheevii and T. kiharae and positively affected GZnC and GFeC. Eight genes related to iron or zinc transporters, representing diverse gene families, were proposed as the best candidates. Our findings provide an understanding of the genetic basis of grain Zn and Fe accumulation in species of the Timopheevi group and could help in selecting new genotypes containing valuable loci. [ABSTRACT FROM AUTHOR]

Published

2024

7. Activating transcription factor 4 plays a major role in shaping the transcriptional response to isoginkgetin in HCT116 cells.

Author

van Zyl, Erin, Stead, John D. H., Peneycad, Claire, Yauk, Carole L., and McKay, Bruce C.

Subjects

*TRANSCRIPTION factors, *UNFOLDED protein response, *ZINC transporters, *COLON cancer, *DENATURATION of proteins

Abstract

Activating transcription factor 4 (ATF4) plays a central role in the integrated stress response (ISR) and one overlapping branch of the unfolded protein response (UPR). We recently reported that the splicing inhibitor isoginkgetin (IGG) induced ATF4 protein along with several known ATF4-regulated transcripts in a response that resembled the ISR and UPR. However, the contribution of ATF4-dependent and -independent transcriptional responses to IGG exposure was not known. Here we used RNA-sequencing in HCT116 colon cancer cells and an isogenic subline lacking ATF4 to investigate the contribution of ATF4 to IGG-induced changes in gene expression. Approximately 85% of the IGG-responsive DEGs in HCT116 cells were also differentially expressed in response to the ER stressor thapsigargin (Tg) and these were enriched for genes associated with the UPR and ISR. Most of these were positively regulated by IGG with impaired responses in the ATF4-deficient cells. Nonetheless, there were DEGs that responded similarly in both cell lines. The ATF4-independent IGG-induced DEGs included several metal responsive transcripts encoding metallothionines and a zinc transporter. Taken together, the predominant IGG response was ATF4-dependent in these cells and resembled the UPR and ISR while a second less prominent response involved the ATF4-independent regulation of metal responsive mRNAs. [ABSTRACT FROM AUTHOR]

Published

2024

8. The Role of PLATZ6 in Raffinose Family Oligosaccharides Loading of Leaves via PLATZ Family Characterization in Cucumber.

Author

Wang, Peiqi, Teng, Haofeng, Qiao, Dan, Liang, Fei, Zhu, Kaikai, Miao, Minmin, and Hua, Bing

Subjects

ZINC transporters, DNA-binding proteins, PLANT proteins, ZINC-finger proteins, RAFFINOSE, CUCUMBERS

Abstract

The plant AT protein and zinc-binding protein (PLATZ) genes, a novel cluster of plant-specific zinc-finger-dependent DNA-binding proteins, play a crucial role in regulating stress response and plant development. However, there has been little study focus on the role of the cucumber PLATZ family in assimilating loading in leaves. (1) In this study, a total of 12 PLATZ genes were identified from the cucumber genome. The cucumber PLATZ genes were clustered into five groups, and unevenly distributed on five chromosomes. A single pair of cucumber PLATZ genes underwent segmental duplication. (2) The results of genome-wide expression analysis suggested that the cucumber PLATZ genes were widely expressed in a wide range of cucumber tissues, with three PLATZ (PLATZ2, PLATZ6, and PLATZ12) genes exhibiting high expression in the vascular tissues of cucumber leaves. PLATZ2, PLATZ6, and PLATZ12 proteins were primarily located in cytomembrane and nucleus. (3) In VIGS-PLATZ6 plants, the expression of Galactinol synthase 1 (GolS1) and STACHYOSE SYNTHASE (STS), two genes involved in the synthesis of raffinose family oligosaccharides (RFOs) were observed to be decreased in cucumber leaves. In conclusion, the comprehensive analysis of the cucumber PLATZ family and the preliminary functional verification of PLATZ6 lay the foundation for the molecular and physiological functions of cucumber PLATZ genes. [ABSTRACT FROM AUTHOR]

Published

2024

9. Identification and Functional Characterization of Abiotic Stress Tolerance-Related PLATZ Transcription Factor Family in Barley (Hordeum vulgare L.).

Author

Cai, Kangfeng, Song, Xiujuan, Yue, Wenhao, Liu, Lei, Ge, Fangying, and Wang, Junmei

Subjects

*TRANSCRIPTION factors, *ZINC transporters, *SINGLE nucleotide polymorphisms, *HYPOKALEMIA, *GENE families

Abstract

Plant AT-rich sequence and zinc-binding proteins (PLATZs) are a novel category of plant-specific transcription factors involved in growth, development, and abiotic stress responses. However, the PLATZ gene family has not been identified in barley. In this study, a total of 11 HvPLATZs were identified in barley, and they were unevenly distributed on five of the seven chromosomes. The phylogenetic tree, incorporating PLATZs from Arabidopsis, rice, maize, wheat, and barley, could be classified into six clusters, in which HvPLATZs are absent in Cluster VI. HvPLATZs exhibited conserved motif arrangements with a characteristic PLATZ domain. Two segmental duplication events were observed among HvPLATZs. All HvPLATZs were core genes present in 20 genotypes of the barley pan-genome. The HvPLATZ5 coding sequences were conserved among 20 barley genotypes, whereas HvPLATZ4/9/10 exhibited synonymous single nucleotide polymorphisms (SNPs); the remaining ones showed nonsynonymous variations. The expression of HvPLATZ2/3/8 was ubiquitous in various tissues, whereas HvPLATZ7 appeared transcriptionally silent; the remaining genes displayed tissue-specific expression. The expression of HvPLATZs was modulated by salt stress, potassium deficiency, and osmotic stress, with response patterns being time-, tissue-, and stress type-dependent. The heterologous expression of HvPLATZ3/5/6/8/9/10/11 in yeast enhanced tolerance to salt and osmotic stress, whereas the expression of HvPLATZ2 compromised tolerance. These results advance our comprehension and facilitate further functional characterization of HvPLATZs. [ABSTRACT FROM AUTHOR]

Published

2024

10. HcZnT2 is a highly mycorrhiza-induced zinc transporter from Hebeloma cylindrosporum in association with pine.

Author

Ho-Plágaro, Tania, Usman, Muhammad, Swinnen, Janne, Ruytinx, Joske, Gosti, Françoise, Gaillard, Isabelle, and Zimmermann, Sabine D.

Subjects

CLUSTER pine, GREEN fluorescent protein, GENETIC regulation, ZINC transporters, GENETIC transcription regulation

Abstract

Zinc (Zn) shortage is a common micronutrient deficiency affecting plants worldwide, while Zn toxicity may occur when this metal is in excess. Ectomycorrhizal (ECM) fungi are known to be able to modulate the transfer of macro- and microelements, among them Zn, to the plant. However, the underlying mechanisms are not well understood. We identified the HcZnT2 gene from the ECM fungus Hebeloma cylindrosporum, encoding a member of the Cation Diffusion Facilitator (CDF) family including Zn transporters, and analyzed its transcriptional regulation, the transport function by yeast complementation experiments, and its subcellular localization using a GFP fusion protein in yeast. HcZnT2 is highly induced during mycorrhization of Pinus pinaster, and upregulated in presence of the host plant root even without any direct contact. However, HcZnT2 is repressed by Zn excess conditions. By functional expression in yeast, our results strongly support the ability of HcZnT2 to transport Zn and, to a lesser extent, manganese. HcZnT2 localization was associated with the endoplasmic reticulum of yeast. Mycorrhizal gene activation at low external Zn suggests that the Zn transporter HcZnT2 might be important for the early establishment of the ECM symbiosis during Zn deficiency, rather than under Zn excess. HcZnT2 arises as an extremely remarkable candidate playing a key role in Zn homeostasis and regulation in ectomycorrhiza. [ABSTRACT FROM AUTHOR]

Published

2024

11. Determination of metal ion transport rate of human ZIP4 using stable zinc isotopes.

Author

Yuhan Jiang, MacRenaris, Keith, O’Halloran, Thomas V., and Jian Hu

Subjects

*TURNOVER frequency (Catalysis), *RADIOACTIVE tracers, *ZINC transporters, *ION transport (Biology), *LASER ablation, *INDUCTIVELY coupled plasma mass spectrometry

Abstract

The essential microelement zinc is absorbed in the small intestine mainly by the zinc transporter ZIP4, a representative member of the Zrt/Irt-like protein (ZIP) family. ZIP4 is reportedly upregulated in many cancers, making it a promising oncology drug target. To date, there have been no reports on the turnover number of ZIP4, which is a crucial missing piece of information needed to better understand the transport mechanism. In this work, we used a nonradioactive zinc isotope, 70Zn, and inductively coupled plasma mass spectrometry to study human ZIP4 (hZIP4) expressed in Human embryonic kidney 293 cells. Our data showed that 70Zn can replace the radioactive 65Zn as a tracer in kinetic evaluation of hZIP4 activity. This approach, combined with the quantification of the cell surface expression of hZIP4 using biotinylation or surface-bound antibody, allowed us to estimate the apparent turnover number of hZIP4 to be in the range of 0.08 to 0.2 s−1. The turnover numbers of the truncated hZIP4 variants are significantly smaller than that of the full-length hZIP4, confirming a crucial role for the extracellular domain in zinc transport. Using 64Zn and 70Zn, we measured zinc efflux during the cell-based transport assay and found that it has little effect on the zinc import analysis under these conditions. Finally, we demonstrated that use of laser ablation inductively coupled plasma-TOF-mass spectrometry on samples applied to a solid substrate significantly increased the throughput of the transport assay. We envision that the approach reported here can be applied to the studies of metal transporters beyond the ZIP family. [ABSTRACT FROM AUTHOR]

Published

2024

12. Reduced Mn uptake of pleiotropic ZIP8 SNP is caused by its loss of Mn-responsive accumulation on the cell-surface.

Author

Nishito, Yukina, Fujishiro, Hitomi, Nagamatsu, Shino, and Kambe, Taiho

Subjects

*ZINC transporters, *SINGLE nucleotide polymorphisms, *CELL membranes, *RADIOISOTOPES, *MANGANESE

Abstract

Zrt/Irt-like protein 8 (ZIP8), which is a Zn transporter, plays a pivotal role as a Mn transporter. Recent studies have shown that a ZIP8 SNP (rs13107325 C→T, A391T) is associated with multiple diseases, likely by causing systemic Mn deficiency. However, the underlying molecular mechanisms remain unclear. We attempted to address this issue in cell-based experiments using Madin-Darby canine kidney cells stably expressing ZIP8 WT or the A391T SNP mutant under the control of the Tet-regulatable promoter. We showed that the A391T mutant lost the property of Mn-responsive accumulation on the cell surface, which was observed in WT ZIP8. We also showed that the loss of Mn-responsive accumulation of A391T mutant was associated with its reduced Mn uptake, compared with WT ZIP8, in the Mn uptake assay using the radioisotope 54Mn. Our results potentially explain how the ZIP8 A391T substitution is associated with disease pathogenesis caused by Mn deficiency. [ABSTRACT FROM AUTHOR]

Published

2024

13. The role of zinc and matrix metalloproteinases in myofibrillar protein degradation in critical illness myopathy.

Author

Ribeiro, Fernando, Zhang, Xiang, Wen, Ya, Cacciani, Nicola, Hedström, Yvette, Xia, Zhidan, Schulz, Richard, and Larsson, Lars

Subjects

*MATRIX metalloproteinases, *PROTEOLYSIS, *INTENSIVE care units, *RESPIRATORY muscles, *ZINC transporters, *HOMEOSTASIS

Abstract

Due to an unexpected activation of different zinc (Zn) transporters in a recent prospective clinical study, we have revisited the role of Zn homeostasis and the activation of matrix metalloproteinases (MMPs) in skeletal muscle exposed to the intensive care unit (ICU) condition (immobilization and mechanical ventilation). ICU patients exposed to 12 days ICU condition were followed longitudinally with six repeated muscle biopsies while they showed a progressive preferential myosin loss, i.e., the hallmark of Critical Illness Myopathy (CIM), in parallel with the activation of Zn-transporters. In this study, we have revisited the expression of Zn-transporters and the activation of MMPs in clinical as well as in experimental studies using an established ICU model. MMPs are a group Zn-dependent endopeptidases which do not only target and cleave extracellular proteins but also intracellular proteins including multiple sarcomeric proteins. MMP-9 is of specific interest since the hallmark of CIM, the preferential myosin loss, has also been reported in dilated cardiomyopathy and coupled to MMP-9 activation. Transcriptional activation of Zn-transporters was observed in both clinical and experimental studies as well as the activation of MMPs, in particular MMP-9, in various limb and respiratory muscles in response to long-term exposure to the ICU condition. The activation of Zn-transporters was paralleled by increased Zn levels in skeletal muscle which in turn showed a negative linear correlation with the preferential myosin loss associated with CIM, offering a potential intervention strategy. Thus, activation of Zn-transporters, increased intramuscular Zn levels, and activation of the Zn-dependent MMPs are forwarded as a probable mechanism involved in CIM pathophysiology. These effects were confirmed in different rat strains subjected to a model of CIM and exacerbated by old age. This is of specific interest since old age and muscle wasting are the two factors most strongly associated with ICU mortality. [Display omitted] • An upregulation of Zn transporters in limb, respiratory and postural muscles in response to the ICU condition and an increased intramuscular Zn content. • An upregulation of the Zn-dependent matrix metalloproteinases (MMPs) in response to the ICU condition. • MMP-9 was upregulated in both rats and patients exposed to the ICU condition offering a potential mechanism underlying the preferential myosin loss associated with Critical Illness Myopathy (CIM) and supported by a negative linear correlation between the preferential myosin loss and intramuscular Zn levels. • Seven common genes involved in Zn ion homeostasis and activation of metalloproteinases were activated similarly in ICU patients and two different rat strains in response to immobilization and mechanical ventilation suggesting their pivotal role in CIM pathophysiology. • A robust downregulation of Pax7 in clinical and experimental studies in response to the ICU condition suggests an early impairment of myogenesis. [ABSTRACT FROM AUTHOR]

Published

2024

14. Maize zinc uptake is influenced by arbuscular mycorrhizal symbiosis under various soil phosphorus availabilities.

Author

Yu, Baogang, Zhou, Chengxiang, Wang, Zhonghua, Bucher, Marcel, Schaaf, Gabriel, Sawers, Ruairidh J. H., Chen, Xinping, Hochholdinger, Frank, Zou, Chunqin, and Yu, Peng

Subjects

*ZINC transporters, *PHOSPHORUS in soils, *RNA sequencing, *SYMBIOSIS, *CORN

Abstract

Summary: The antagonistic interplay between phosphorus (P) and zinc (Zn) in plants is well established. However, the molecular mechanisms mediating those interactions as influenced by arbuscular mycorrhizal (AM) symbiosis remain unclear.We investigated Zn concentrations, root AM symbiosis, and transcriptome profiles of maize roots grown under field conditions upon different P levels. We also validated genotype‐dependent P–Zn uptake in selected genotypes from a MAGIC population and conducted mycorrhizal inoculation experiments using mycorrhizal‐defective mutant pht1;6 to elucidate the significance of AM symbiosis in P–Zn antagonism. Finally, we assessed how P supply affects Zn transporters and Zn uptake in extraradical hyphae within a three‐compartment system.Elevated P levels led to a significant reduction in maize Zn concentration across the population, correlating with a marked decline in AM symbiosis, thus elucidating the P–Zn antagonism. We also identified ZmPht1;6 is crucial for AM symbiosis and confirmed that P–Zn antagonistic uptake is dependent on AM symbiosis. Moreover, we found that high P suppressed the expression of the fungal RiZRT1 and RiZnT1 genes, potentially impacting hyphal Zn uptake.We conclude that high P exerts systemic regulation over root and AM hyphae‐mediated Zn uptake in maize. These findings hold implications for breeding Zn deficiency‐tolerant maize varieties. [ABSTRACT FROM AUTHOR]

Published

2024

15. Changes in levels of the zinc transporter SLC39A12 in Brodmann's area 44: Effects of sex, suicide, CNS pH and schizophrenia.

Author

Dean, Brian, Hopper, Shaun, and Scarr, Elizabeth

Subjects

*SEX factors in disease, *ZINC transporters, *PEOPLE with schizophrenia, *MUSCARINIC receptors, *RNA splicing

Abstract

Disturbed CNS zinc homeostasis is suggested as part of the pathophysiology of schizophrenia. Our data, from multiple studies, suggests levels of cortical RNA for the solute carrier family 39 member 12 (SLC39A12), a putative zinc transporter, is higher in people with schizophrenia and is more perturbed in a sub-group of people with the disorder that can be separated because they have very low levels of muscarinic M1 receptors (MRDS). In this study qPCR was used to measure levels of two RNA splice variants of SLC39A12 (a and b) in Brodmann's area (BA) 44 from new cohorts of controls and people with schizophrenia. For the first time, in our study cohort as a whole, we report levels of both splice variants of SLC39A12 are lower in females compared to males and there are correlations between levels of SLC39A12 a and b and CNS pH. Levels of both splice variants were also lower in people with schizophrenia who were suicide completers compared to those who were not. Accounting for these factors, we showed levels of SLC39A12 a and b were higher in BA 44 in schizophrenia compared to controls. In further analyses, with and without our previous data on SLC39A12 a and b , we confirmed changes in levels of SLC39A1 2 RNAs were more profound in MRDS. In conclusion, our study argues there are higher levels of SLC39A12 a and b in BA 44 in schizophrenia which could be contributing to the breakdown in CNS zinc homeostasis suggested as part of the pathophysiology of schizophrenia, particularly in those with MRDS. [ABSTRACT FROM AUTHOR]

Published

2024

16. Integration of the Plant-Specific PLATZ Transcription Factors into Gene Regulatory Networks Controlling Developmental Processes.

Author

Baucher, Marie, Guérin, Claire, El Jaziri, Mondher, and Behr, Marc

Subjects

*TRANSCRIPTION factors, *ZINC transporters, *PLANT proteins, *RNA polymerases, *PHENYLPROPANOIDS

Abstract

The PLant AT-rich protein and Zinc-binding protein (PLATZ) transcription factor family is specific to photosynthetic eukaryotes. These proteins are globally defined by the presence of a PLATZ conserved region and/or two conserved zinc-binding motifs, however exceptions are frequent and other conserved motifs may be present as well. A survey of the presence of these conserved domain and motifs in several PLATZ proteins from different taxa across the evolution revealed PLATZ in rhodophytes and green algae indicating a role for these transcription factors long before terrestrialization. The number of PLATZ increases concomitantly with the apparition of traits specific to land plants, such as embryogenesis, apical growth and phenylpropanoid metabolism, which suggests determining roles of these transcription factors throughout the evolution of Viridiplantae. There are no studies related to PLATZ function in algae or in earlier land plants and the molecular processes involved in PLATZ evolution remain largely unknown. Functional investigations have been reported only in a limited number of angiosperms, for whom PLATZ were described as regulators of cell proliferation, some of which are involved in RNA polymerase III (POL III) and others in POL II machineries. Particularly, several PLATZ have been shown to be involved in the regulation of meristematic activity, in leaf and/or in seed development. [ABSTRACT FROM AUTHOR]

Published

2024

17. Pathology of "double scale" skin defect in farmed American alligators (Alligator mississippiensis) and the possible association with hepatic fibrosis.

Author

Piras, Ilaria M., Bezuidenhout, Annemarie, Díaz-Delgado, Josué, Slawski, Deirdre, and Kelly, Pamela A.

Subjects

AMERICAN alligator, ZINC transporters, HEPATIC fibrosis, VITAMIN A, CELL death, LUNGS

Abstract

"Double scale" is a poorly characterized skin defect of crocodilians that drastically reduces the economic value of crocodilian skin. This study investigated the morphology and pathogenesis of double scale in a ranching farm of American alligators (Alligator mississippiensis). We compared the histopathology of skin and selected organs (liver, lung, kidney, heart, spleen, intestine, and brain) of alligators with double scale against healthy control animals, together with serum and liver vitamin and mineral levels. Skin affected with double scale had statistically significant hyperkeratosis, epidermal atrophy, and increased basal cell degeneration compared with control alligators (P <.0001). Interestingly, all alligators with double scale had varying degrees of hepatic fibrosis. Feed analysis showed that alligators that had double scale and hepatic fibrosis had prolonged dietary exposure to high levels of vitamin A, iron, and copper. Serum analysis indicated that levels of zinc (p <.0001), copper (P <.05), and vitamin E (P <.002) were significantly lower in alligators with hepatic fibrosis and double scale compared with controls. Finally, immunohistochemical analysis of skin with double scale showed a marked reduction in immunolabeling with the zinc-binding protein metallothionein. These results suggest that zinc deficiency, in combination with other micronutrient anomalies, may play a role in the pathogenesis of double scale in alligators with liver fibrosis. [ABSTRACT FROM AUTHOR]

Published

2024

18. Dietary Zinc Supplementation in Steers Modulates Labile Zinc Concentration and Zinc Transporter Gene Expression in Circulating Immune Cells.

Author

Franco, Carlos E., Rients, Emma L., Diaz, Fabian E., Hansen, Stephanie L., and McGill, Jodi L.

Abstract

Zinc (Zn) is critical for immune function, and marginal Zn deficiency in calves can lead to suboptimal growth and increased disease susceptibility. However, in contrast to other trace minerals such as copper, tissue concentrations of Zn do not change readily in conditions of supplementation or marginal deficiency. Therefore, the evaluation of Zn status remains challenging. Zinc transporters are essential for maintaining intracellular Zn homeostasis, and their expression may indicate changes in Zn status in the animal. Here, we investigated the effects of dietary Zn supplementation on labile Zn concentration and Zn transporter gene expression in circulating immune cells isolated from feedlot steers. Eighteen Angus crossbred steers (261 ± 14 kg) were blocked by body weight and randomly assigned to two dietary treatments: a control diet (58 mg Zn/kg DM, no supplemental Zn) or control plus 150 mg Zn/kg DM (HiZn; 207 mg Zn/kg DM total). After 33 days, Zn supplementation increased labile Zn concentrations (as FluoZin-3 fluorescence) in monocytes, granulocytes, and CD4 T cells (P < 0.05) but had the opposite effect on CD8 and γδ T cells (P < 0.05). Zn transporter gene expression was analyzed on purified immune cell populations collected on days 27 or 28. ZIP11 and ZnT1 gene expression was lower (P < 0.05) in CD4 T cells from HiZn compared to controls. Expression of ZIP6 in CD8 T cells (P = 0.02) and ZnT7 in B cells (P = 0.01) was upregulated in HiZn, while ZnT9 tended (P = 0.06) to increase in B cells from HiZn. These results suggest dietary Zn concentration affects both circulating immune cell Zn concentrations and Zn transporter gene expression in healthy steers. [ABSTRACT FROM AUTHOR]

Published

2024

19. Zinc Transporter ZnT1 mRNA Expression Is Negatively Associated with Leptin Serum Concentrations but Is not Associated with Insulin Resistance or Inflammatory Markers in Visceral Adipose Tissue.

Author

Torres-Arreola, Ana Karen, García, Olga P., Estrella-Ibarra, Paulina, Campos-Maldonado, Francisco, Camacho-Barron, Mariela, del Carmen Aburto-Fernández, María, Lerma-Alvarado, Ricardo Martín, Rodriguez-Méndez, Adriana Jheny, Solís-Sáinz, Juan Carlos, and García-Solís, Pablo

Abstract

The aim of this study was to evaluate the relationship between biomarkers of chronic inflammation, insulin resistance, and zinc transporter ZnT1 expression in human visceral adipose tissue. Visceral adipose tissue obtained from 47 adults undergoing laparoscopic surgery for cholecystectomy was used to analyze ZnT1 mRNA expression by RT-qPCR. ZnT1 mRNA levels were compared between subjects with normal weight, overweight, and obesity. A significantly lower ZnT1 expression was observed in overweight and obesity compared with normal-weight subjects (p = 0.0016). Moreover, subjects with normal weight had significantly higher serum zinc concentration (97.7 ± 13.1 mg/L) than subjects with overweight (87.0 ± 12.8 mg/L) and obesity (83.1 ± 6.6 mg/L) (p = 0.002). Pearson test showed a positive correlation between serum zinc concentrations and ZnT1 mRNA expression in visceral adipose tissue (r = 0.323; p = 0.031) and a negative correlation with body mass index (r = − 0.358; p = 0.013). A linear regression model was used to analyze the associations between ZnT1 mRNA expression and serum zinc levels, insulin resistance (HOMA2-IR), serum adipokines (leptin and adiponectin), and serum inflammation biomarkers (tumor necrosis factor alpha, interleukin-6, and C-reactive protein). Interestingly, leptin concentrations were negatively associated with ZnT1 mRNA expression (p = 0.012); however, no significant associations were found for the rest of the analyzed variables. Future research is needed to analyze the causality of negative association between ZntT1 expression in visceral adipose tissue and leptin. [ABSTRACT FROM AUTHOR]

Published

2024

20. PIAS3 acts as a zinc sensor under zinc deficiency and plays an important role in myocardial ischemia/reperfusion injury.

Author

Zhao, Huanhuan, Liu, Dan, Sun, Sha, Yu, Jing, Bian, Xiyun, Cheng, Xinxin, Yang, Qing, Yu, Yonghao, and Xu, Zhelong

Subjects

*MYOCARDIAL reperfusion, *REPERFUSION injury, *MYOCARDIAL ischemia, *TRANSCRIPTION factors, *ZINC transporters, *ZINC, *CHEMORECEPTORS

Abstract

Alterations in zinc transporter expression in response to zinc loss protect cardiac cells from ischemia/reperfusion (I/R) injury. However, the underlying molecular mechanisms how cardiac cells sense zinc loss remains unclear. Here, we found that zinc deficiency induced ubiquitination and degradation of the protein inhibitor of activated STAT3 (PIAS3), which can alleviate myocardial I/R injury by activating STAT3 to promote the expression of ZIP family zinc transporter genes. The RING finger domain within PIAS3 is vital for PIAS3 degradation, as PIAS3-dRing (missing the RING domain) and PIAS3-Mut (zinc-binding site mutation) were resistant to degradation in the setting of zinc deficiency. Meanwhile, the RING finger domain within PIAS3 is critical for the inhibition of STAT3 activation. Moreover, PIAS3 knockdown increased cardiac Zn2+ levels and reduced myocardial infarction in mouse hearts subjected to I/R, whereas wild-type PIAS3 overexpression, but not PIAS3-Mut, reduced cardiac Zn2+ levels, and exacerbated myocardial infarction. These findings elucidate a unique mechanism of zinc sensing, showing that fast degradation of the zinc-binding regulatory protein PIAS3 during zinc deficiency can correct zinc dyshomeostasis and alleviate reperfusion injury. [Display omitted] • Zinc deficiency induces the activation of STAT3, which acts as a transcription factor to promote upregulation of ZIP family zinc transporter gene expression, thereby compensating for Zn2+ loss. • PIAS3 can sense intracellular Zn2+ deficiency through its ubiquitination-mediated degradation and regulate the activity of STAT3. • Ring finger domain plays a critical role in PIAS3's ubiquitination and degradation by releasing Zn2+ in response to Zn2+ deficiency. • Knockdown of PIAS3 protected mouse hearts from I/R injury, whereas overexpression of PIAS3 exacerbated injury. [ABSTRACT FROM AUTHOR]

Published

2024

21. An Overexpression of SLC30A6 Gene Contributes to Cardiomyocyte Dysfunction via Affecting Mitochondria and Inducing Activations in K-Acetylation and Epigenetic Proteins.

Author

Aktay, Irem, Billur, Deniz, Tuncay, Erkan, and Turan, Belma

Abstract

Intracellular free Zn2+ ([Zn2+]i) is less than 1-nM in cardiomyocytes and its regulation is performed with Zn2+-transporters. However, the roles of Zn2+-transporters in cardiomyocytes are not defined exactly yet. Here, we aimed to examine the role of an overexpression and subcellular localization of a ZnT6 in insulin-resistance mimic H9c2 cardiomyoblasts (IR-cells; 50-μM palmitic acid for 24-h incubation). We used both IR-cells and ZnT6-overexpressed (ZnT6OE) cells in comparison to those of H9c2 cells (CON-cells). The IR-cells have higher ZnT6-protein levels than CON-cells while this level was similar to those of ZnT6OE-cells. The [Zn2+]i in IR-cells was increased significantly and mitochondrial localization of ZnT6 was demonstrated in these cells by using confocal microscopy visualization. Furthermore, electron microscopy analysis demonstrated abnormal morphological appearance in both IR-cells and ZnT6OE-cells characterized by irregular mitochondrion cristae and condensed and dilated cisterna in the sarcoplasmic reticulum. Mitochondria were similarly depolarized in both IR-cells and ZnT6OE-cells. The protein expression level of a mitofusin protein MFN2 in the IR-cells was decreased, significantly, whereas, it was found significantly upregulated in both ZnT6-OE-cells and IR-incubated ZnT6OE-cells, which demonstrates the role of ZnT6-overexpression but not IR. Additionally, the total protein level of a mitochondrial fission protein, dynamin-related protein 1, DRP1 was found to be increased over 1.5-fold in IR-cells while this increase was found to be higher in the ZnT6OE-cells than those of IR-cells, demonstrating an additional effect on IR-increase. ZnT6-overexpression induced also significant increases in K-acetylation, trimethylation of histone H3 lysine27, and mono-methylation of histone H3 lysine36, in a similar manner to those of IR-cells. Overall, our data point out an important contribution of ZnT6-overexpression to IR-induced cellular changes, such as alteration in mitochondria function and activation of epigenetic modifications. [ABSTRACT FROM AUTHOR]

Published

2024

22. Erg251 has complex and pleiotropic effects on sterol composition, azole susceptibility, filamentation, and stress response phenotypes.

Author

Zhou, Xin, Hilk, Audrey, Solis, Norma V., Pereira De Sa, Nivea, Hogan, Bode M., Bierbaum, Tessa A., Del Poeta, Maurizio, Filler, Scott G., Burrack, Laura S., and Selmecki, Anna

Subjects

*FUNGAL membranes, *ZINC transporters, *CANDIDA albicans, *GENETIC transcription, *TREATMENT failure

Abstract

Ergosterol is essential for fungal cell membrane integrity and growth, and numerous antifungal drugs target ergosterol. Inactivation or modification of ergosterol biosynthetic genes can lead to changes in antifungal drug susceptibility, filamentation and stress response. Here, we found that the ergosterol biosynthesis gene ERG251 is a hotspot for point mutations during adaptation to antifungal drug stress within two distinct genetic backgrounds of Candida albicans. Heterozygous point mutations led to single allele dysfunction of ERG251 and resulted in azole tolerance in both genetic backgrounds. This is the first known example of point mutations causing azole tolerance in C. albicans. Importantly, single allele dysfunction of ERG251 in combination with recurrent chromosome aneuploidies resulted in bona fide azole resistance. Homozygous deletions of ERG251 caused increased fitness in low concentrations of fluconazole and decreased fitness in rich medium, especially at low initial cell density. Homozygous deletions of ERG251 resulted in accumulation of ergosterol intermediates consistent with the fitness defect in rich medium. Dysfunction of ERG251, together with FLC exposure, resulted in decreased accumulation of the toxic sterol (14-ɑ-methylergosta-8,24(28)-dien-3β,6α-diol) and increased accumulation of non-toxic alternative sterols. The altered sterol composition of the ERG251 mutants had pleiotropic effects on transcription, filamentation, and stress responses including cell membrane, osmotic and oxidative stress. Interestingly, while dysfunction of ERG251 resulted in azole tolerance, it also led to transcriptional upregulation of ZRT2, a membrane-bound Zinc transporter, in the presence of FLC, and overexpression of ZRT2 is sufficient to increase azole tolerance in wild-type C. albicans. Finally, in a murine model of systemic infection, homozygous deletion of ERG251 resulted in decreased virulence while the heterozygous deletion mutants maintain their pathogenicity. Overall, this study demonstrates that single allele dysfunction of ERG251 is a recurrent and effective mechanism of acquired azole tolerance. We propose that altered sterol composition resulting from ERG251 dysfunction mediates azole tolerance as well as pleiotropic effects on stress response, filamentation and virulence. Author summary: Invasive infections caused by the fungal pathogen Candida albicans have high mortality rates (20–60%), even with antifungal drug treatment. Numerous mechanisms contributing to drug resistance have been characterized, but treatment failure remains a problem indicating that there are many facets that are not yet understood. The azole class of antifungals target production of ergosterol, an essential component of fungal cell membranes. Here, we provide insights into how ERG251, a component of the ergosterol biosynthesis pathway, contributes to enhanced growth in azoles, along with broader impacts on stress responses, filamentation, and pathogenicity. One of the most striking results from our study is that even a single nucleotide change in one allele of ERG251 in the diploid C. albicans can lead to azole tolerance. Tolerance, a distinct phenotype from resistance, is the ability of fungal cells to grow above the minimum inhibitory concentration in a drug concentration-independent manner. Tolerance frequently goes undetected in the clinic because it is not observable in standard assays. Strikingly, azole tolerant strains lacking one allele of ERG251 remained virulent in a mouse model of infection highlighting the potential for mutations in ERG251 to arise and contribute to treatment failure in patients. [ABSTRACT FROM AUTHOR]

Published

2024

23. Estimation of Individual Positive Anti-Islet Autoantibodies from 3 Screen ICA Titer.

Author

Kawasaki, Eiji, Jinnouchi, Hideaki, Maeda, Yasutaka, Okada, Akira, and Kawai, Koichi

Subjects

*AUTOANTIBODIES, *GLUTAMATE decarboxylase, *MEDICAL screening, *TYPE 1 diabetes, *ISLANDS, *ZINC transporters

Abstract

The 3 Screen ICA ELISA is a novel assay capable of simultaneously measuring autoantibodies to glutamic acid decarboxylase (GADA), insulinoma-associated antigen-2 (IA-2A), and zinc transporter 8 (ZnT8A), making it a valuable tool for screening type 1 diabetes. Despite its advantages, it cannot specify which individual autoantibodies are positive or negative. This study aimed to estimate individual positive autoantibodies based on the 3 Screen ICA titer. Six hundred seventeen patients with type 1 diabetes, simultaneously measured for 3 Screen ICA and three individual autoantibodies, were divided into five groups based on their 3 Screen ICA titer. The sensitivities and contribution rates of the individual autoantibodies were then examined. The study had a cross-sectional design. Sixty-nine percent (424 of 617) of patients with type 1 diabetes had 3 Screen ICA titers exceeding the 99th percentile cut-off level (20 index). The prevalence of GADA ranged from 80% to 100% in patients with a 3 Screen ICA over 30 index and 97% of patients with a 3 Screen ICA ≥300 index. Furthermore, the prevalence of all individual autoantibodies being positive was 0% for ≤80 index and as high as 92% for ≥300 index. Significant associations were observed in specific titer groups: the 20–29.9 index group when all the individual autoantibodies were negative, the 30–79.9 index group when positive for GADA alone or IA-2A alone, the 30–299.9 index group when positive for ZnT8A alone, the 80–299.9 index group when positive for both IA-2A and ZnT8A, the 300–499.9 index group when positive for both GADA and ZnT8A, and the ≥300 index group when positive for all individual autoantibodies. These results suggest that the 3 Screen ICA titer may be helpful in estimating individual positive autoantibodies. [ABSTRACT FROM AUTHOR]

Published

2024

24. Trans-synaptic Association of Vesicular Zinc Transporter 3 and Shank3 Supports Synapse-Specific Dendritic Spine Structure and Function in the Mouse Auditory Cortex.

Author

Manning, Abbey, Bender, Philip T. R., Boyd-Pratt, Helen, Mendelson, Benjamin Z., Hruska, Martin, and Anderson, Charles T.

Subjects

*DENDRITIC spines, *AUDITORY cortex, *ZINC transporters, *DENDRITIC crystals, *CYTOSKELETAL proteins, *AUTISM spectrum disorders

Abstract

Shank3 is a synaptic scaffolding protein that assists in tethering and organizing structural proteins and glutamatergic receptors in the postsynaptic density of excitatory synapses. The localization of Shank3 at excitatory synapses and the formation of stable Shank3 complexes is regulated by the binding of zinc to the C-terminal sterile-alpha-motif (SAM) domain of Shank3. Mutations in the SAM domain of Shank3 result in altered synaptic function and morphology, and disruption of zinc in synapses that express Shank3 leads to a reduction of postsynaptic proteins important for synaptic structure and function. This suggests that zinc supports the localization of postsynaptic proteins via Shank3. Many regions of the brain are highly enriched with free zinc inside glutamatergic vesicles at presynaptic terminals. At these synapses, zinc transporter 3 (ZnT3) moves zinc into vesicles where it is co-released with glutamate. Alterations in ZnT3 are implicated in multiple neurodevelopmental disorders, and ZnT3 knock-out (KO) mice--which lack synaptic zinc--show behavioral deficits associated with autism spectrum disorder and schizophrenia. Here we show that male and female ZnT3 KO mice have smaller dendritic spines and miniature excitatory postsynaptic current amplitudes than wildtype (WT) mice in the auditory cortex. Additionally, spine size deficits in ZnT3 KO mice are restricted to synapses that express Shank3. In WT mice, synapses that express both Shank3 and ZnT3 have larger spines compared to synapses that express Shank3 but not ZnT3. Together these findings suggest a mechanism whereby presynaptic ZnT3-dependent zinc supports postsynaptic structure and function via Shank3 in a synapse-specific manner. [ABSTRACT FROM AUTHOR]

Published

2024

25. Comparative transcriptome analysis of acne vulgaris, rosacea, and hidradenitis suppurativa supports high‐dose dietary zinc as a therapeutic agent.

Author

Li, Li, Hajam, Irshad, McGee, Jean S., Tang, Zhengkuan, Zhang, Ye, Badey, Nikil, Mintzer, Esther, Zhang, Zhenrui, Liu, George Y., Church, George M., and Wang, Yu

Subjects

*HIDRADENITIS suppurativa, *ACNE, *ZINC transporters, *ZINC, *ROSACEA, *COMPARATIVE studies

Abstract

Acne vulgaris, rosacea, and hidradenitis suppurativa are enduring inflammatory skin conditions that frequently manifest with akin clinical attributes, posing a considerable challenge for their distinctive diagnosis. While these conditions do exhibit certain resemblances, they also demonstrate distinct underlying pathophysiological mechanisms and treatment modalities. Delving into both the molecular parallels and disparities among these three disorders can yield invaluable insights for refined diagnostics, effective management, and targeted therapeutic interventions. In this report, we present a comparative analysis of transcriptomic data across these three diseases, elucidating differentially expressed genes and enriched pathways specific to each ailment, as well as those shared among them. Specifically, we identified multiple zinc‐binding proteins (SERPINA1, S100A7, S100A8, S100A9 and KRT16) as consistently highly upregulated genes across all three diseases. Our hypothesis suggests that these proteins could bind and sequester zinc, potentially leading to localized zinc deficiency and heightened inflammation. We identified high‐dose dietary zinc as a promising therapeutic approach and confirmed its effectiveness through validation in an acne mouse model. [ABSTRACT FROM AUTHOR]

Published

2024

26. Prevalence, diagnostic utility, and clinical characteristics of ZnT8 antibody in children with type 1 diabetes in Northern Taiwan.

Author

Su, Ya-Ting, Chou, Yi-Hsuan, Chiu, Chiao-Fan, Huang, Yen-Chun, and Lo, Fu-Sung

Subjects

TYPE 1 diabetes, GLUTAMATE decarboxylase, IMMUNOGLOBULINS, AUTOANTIBODIES, ZINC transporters

Abstract

The ZnT8 autoantibody is used to independently diagnose type 1 diabetes (T1D) and as a prediction factor in high-risk populations. This is the first report in Taiwan on the prevalence, diagnostic utility, and clinical characteristics of zinc transporter 8 autoantibody (ZnT8A) in children with T1D. We performed a retrospective analysis of 268 children (130 boys, 138 girls) newly diagnosed with T1D at three hospitals in North Taiwan from February 1994 to August 2021. ZnT8A was detected in 117 patients (43.7 %). The combined diagnostic rate of the four antibodies, including glutamic acid decarboxylase autoantibody (GADA), islet antigen 2 autoantibody (IA2A), insulin autoantibody (IAA), and ZnT8A, can reach 86.19 % while that of the original three antibodies is 84.3 %. IA2A (64.9 %) showed the highest positive rate, followed by GADA (64.2 %), ZnT8A (43.7 %), and IAA (22.0 %). Of the 268 patients, five (1.9 %) were only ZnT8A+. All antibodies were positive in 19 (7.1 %) people, whereas 37 others (13.8 %) had all antibodies negative. ZnT8A has the strongest relationship with IA2A. 5 patients had ZnT8A positive only. 5/(37 + 5) (about 12 %) T1D patients were diagnosed by ZnT8A testing. ZnT8A testing can diagnose up to 12 % more patients with T1D along with three other antibodies. Furthermore, since the ZnT8A titer decreased over time, it should be tested within six months of onset in Taiwanese patients with T1D. [ABSTRACT FROM AUTHOR]

Published

2024

27. Emerging Perspectives in Zinc Transporter Research in Prostate Cancer: An Updated Review.

Author

Acevedo, Samantha, Fernanda Segovia, María, and de la Fuente-Ortega, Erwin

Abstract

Dysregulation of zinc and zinc transporters families has been associated with the genesis and progression of prostate cancer. The prostate epithelium utilizes two types of zinc transporters, the ZIP (Zrt-, Irt-related Protein) and the ZnTs (Zinc Transporter), to transport zinc from the blood plasma to the gland lumen. ZIP transporters uptake zinc from extracellular space and organelle lumen, while ZnT transporters release zinc outside the cells or to organelle lumen. In prostate cancer, a commonly observed low zinc concentration in prostate tissue has been correlated with downregulations of certain ZIPs (e.g., ZIP1, ZIP2, ZIP3, ZIP14) and upregulations of specific ZnTs (e.g., ZnT1, ZnT9, ZnT10). These alterations may enable cancer cells to adapt to toxic high zinc levels. While zinc supplementation has been suggested as a potential therapy for this type of cancer, studies have yielded inconsistent results because some trials have indicated that zinc supplementation could exacerbate cancer risk. The reason for this discrepancy remains unclear, but given the high molecular and genetic variability present in prostate tumors, it is plausible that some zinc transporters—comprising 14 ZIP and 10 ZnT members—could be dysregulated in others patterns that promote cancer. From this perspective, this review highlights novel dysregulation, such as ZIP-Up/ZnT-Down, observed in prostate cancer cell lines for ZIP4, ZIP8, ZnT2, ZnT4, ZnT5, etc. Additionally, an in silico analysis of an available microarray from mouse models of prostate cancer (Nkx3.1;Pten) predicts similar dysregulation pattern for ZIP4, ZIP8, and ZnT2, which appear in early stages of prostate cancer progression. Furthermore, similar dysregulation patterns are supported by an in silico analysis of RNA-seq data from human cancer tumors available in cBioPortal. We discuss how these dysregulations of zinc transporters could impact zinc supplementation trials, particularly focusing on how the ZIP-Up/ZnT-Down dysregulation through various mechanisms might promote prostate cancer progression [ABSTRACT FROM AUTHOR]

Published

2024

28. Placental Expression of Glucose and Zinc Transporters in Women with Gestational Diabetes.

Author

Ustianowski, Łukasz, Czerewaty, Michał, Kiełbowski, Kajetan, Bakinowska, Estera, Tarnowski, Maciej, Safranow, Krzysztof, and Pawlik, Andrzej

Subjects

*ZINC transporters, *GESTATIONAL diabetes, *GLUCOSE transporters, *PLACENTA, *BODY mass index, *HYPERGLYCEMIA

Abstract

Background/Objectives: Gestational diabetes (GDM) is a metabolic disorder with altered glucose levels diagnosed in pregnant women. The pathogenesis of GDM is not fully known, but it is thought to be caused by impaired insulin production and insulin resistance induced by diabetogenic factors. The placenta may play an important role in the development of GDM. Glucose transporters (GLUTs) are responsible for the delivery of glucose into the foetal circulation. Placental zinc transporters regulate insulin and glucagon secretion, as well as gluconeogenesis and glycolysis. The aim of this study was to investigate the placental expression of GLUT3, GLUT4, GLUT7 and SLC30A8 in women with GDM. Furthermore, we evaluated whether the expression profiles of these transporters were correlated with clinical parameters. Methods: This study included 26 patients with GDM and 28 patients with normal glucose tolerance (NGT). Results: The placental expression of GLUT3 was significantly reduced in the GDM group, while the placental expression of GLUT4, GLUT7 and SLC30A8 was significantly upregulated in the GDM group. GLUT3 expression correlated significantly with body mass index (BMI) increase during pregnancy and body mass increase during pregnancy, while GLUT4 expression correlated negatively with BMI at birth. Conclusions: These results suggest the involvement of GLUT3 and GLUT4, GLUT7 and SLC30A8 in the pathogenesis of GDM. [ABSTRACT FROM AUTHOR]

Published

2024

29. Modulation of Adverse Health Effects of Environmental Cadmium Exposure by Zinc and Its Transporters.

Author

Cirovic, Ana, Cirovic, Aleksandar, Yimthiang, Supabhorn, Vesey, David A., and Satarug, Soisungwan

Subjects

*ZINC transporters, *CARRIER proteins, *ENVIRONMENTAL health, *ENVIRONMENTAL exposure, *HEAVY metals, *CADMIUM, *ZINC

Abstract

Zinc (Zn) is the second most abundant metal in the human body and is essential for the function of 10% of all proteins. As metals cannot be synthesized or degraded, they must be assimilated from the diet by specialized transport proteins, which unfortunately also provide an entry route for the toxic metal pollutant cadmium (Cd). The intestinal absorption of Zn depends on the composition of food that is consumed, firstly the amount of Zn itself and then the quantity of other food constituents such as phytate, protein, and calcium (Ca). In cells, Zn is involved in the regulation of intermediary metabolism, gene expression, cell growth, differentiation, apoptosis, and antioxidant defense mechanisms. The cellular influx, efflux, subcellular compartmentalization, and trafficking of Zn are coordinated by transporter proteins, solute-linked carriers 30A and 39A (SLC30A and SLC39A), known as the ZnT and Zrt/Irt-like protein (ZIP). Because of its chemical similarity with Zn and Ca, Cd disrupts the physiological functions of both. The concurrent induction of a Zn efflux transporter ZnT1 (SLC30A1) and metallothionein by Cd disrupts the homeostasis and reduces the bioavailability of Zn. The present review highlights the increased mortality and the severity of various diseases among Cd-exposed persons and the roles of Zn and other transport proteins in the manifestation of Cd cytotoxicity. Special emphasis is given to Zn intake levels that may lower the risk of vision loss and bone fracture associated with Cd exposure. The difficult challenge of determining a permissible intake level of Cd is discussed in relation to the recommended dietary Zn intake levels. [ABSTRACT FROM AUTHOR]

Published

2024

30. Reduced expression of bZIP19 and bZIP23 increases zinc and cadmium accumulation in Arabidopsis halleri.

Author

Spielmann, Julien, Schloesser, Marie, and Hanikenne, Marc

Subjects

*ZINC, *ZINC transporters, *CADMIUM, *ARABIDOPSIS, *HYPERACCUMULATOR plants, *ARABIDOPSIS thaliana, *TRANSCRIPTION factors

Abstract

Zinc is an essential micronutrient for all living organisms. When challenged by zinc‐limiting conditions, Arabidopsis thaliana plants use a strategy centered on two transcription factors, bZIP19 and bZIP23, to enhance the expression of several zinc transporters to improve their zinc uptake capacity. In the zinc and cadmium hyperaccumulator plant Arabidopsis halleri, highly efficient root‐to‐shoot zinc translocation results in constitutive local zinc deficiency in roots and in constitutive high expression of zinc deficiency‐responsive ZIP genes, supposedly boosting zinc uptake and accumulation. Here, to disrupt this process and to analyze the functions of AhbZIP19, AhbZIP23 and their target genes in hyperaccumulation, the genes encoding both transcriptional factors were knocked down using artificial microRNAs (amiRNA). Although AhbZIP19, AhbZIP23, and their ZIP target genes were downregulated, amiRNA lines surprisingly accumulated more zinc and cadmium compared to control lines in both roots and shoot driving to shoot toxicity symptoms. These observations suggested the existence of a substitute metal uptake machinery in A. halleri to maintain hyperaccumulation. We propose that the iron uptake transporter AhIRT1 participates in this alternative pathway in A. halleri. Summary statement: Reduced expression of the zinc deficiency transcription factors bZIP19 and bZIP23 increases zinc and cadmium accumulation in roots and shoot, causes zinc retention in roots and results in cadmium sensitivity in the zinc and cadmium hyperaccumulator plant Arabidopsis halleri. [ABSTRACT FROM AUTHOR]

Published

2024

31. Effect of estrogen and progesterone on intracellular free zinc and zinc transporter expression in bovine oviduct epithelial cells.

Author

Pascua, Ana Malen, Barbisan, Gisela, Nikoloff, Noelia, Carranza-Martín, Ana Cristina, Fabra, Mariana Carolina, Anchordoquy, Juan Patricio, Balbi, Marianela, Giuliodori, Mauricio Javier, Furnus, Cecilia Cristina, and Anchordoquy, Juan Mateo

Subjects

*ZINC transporters, *GENE expression, *OVIDUCT, *EPITHELIAL cells, *GENITALIA, *FALLOPIAN tubes, *PROGESTERONE

Abstract

Zinc (Zn) plays essential roles in numerous cellular processes. However, there is limited understanding of Zn homeostasis within the bovine reproductive system. This study investigated the influence of estradiol (E 2) and progesterone (P 4) on Zn transporter expression and intracellular free Zn levels in bovine oviduct epithelial cells (BOEC). For this purpose, cells were harvested from slaughtered cows and cultured in vitro. Intracellular Zn concentrations were measured using FluoZin-3AM staining, while real-time polymerase chain reaction assessed Zn transporter gene expression and quantification. Overall, our results confirmed the gene expression of all the evaluated Zn transporters (ZIP6, ZIP8, ZIP14, ZnT3, ZnT7 and ZnT9), denoted and the active role of E 2 and P 4 in intracellular Zn regulation. Our findings suggest an interaction between Zn, E 2 and P 4. • Estradiol and progesterone modify Zn transporter expression in BOEC. • Estradiol and progesterone modify intracellular free Zn levels in BOEC. • Zn modify Zn transporter expression and intracellular free Zn levels in BOEC. [ABSTRACT FROM AUTHOR]

Published

2024

32. Seasonal variation in metabolic profiles and microbial communities in a subarctic ore processing plant.

Author

Bomberg, Malin, Miettinen, Hanna, and Kinnunen, Päivi

Subjects

*MICROBIAL communities, *SEASONS, *ZINC transporters, *ORES, *ATP-binding cassette transporters, *DENITRIFICATION, *WATER treatment plants, *NITROGEN cycle, *BACTERIAL communities

Abstract

The mining industry strives to reduce its water footprint by recycling water in ore processing. This leads to build‐up of ions, flotation chemicals and microbial biomass, which may affect the process. The Boliden Kevitsa mine in Northern Finland is exposed to seasonal change and recycles up to 90% of the process water. We studied the variation in size, composition and putative functions of microbial communities in summer and winter in the ore processing plant. The raw water, Cu and Ni thickener overflow waters had statistically significantly higher bacterial numbers in winter compared to summer, and specific summer and winter communities were identified. Metagenomic analysis indicated that Cu and Hg resistance genes, sulphate/thiosulphate, molybdate, iron(III) and zinc ABC transporters, nitrate reduction, denitrification, thiosulphate oxidation and methylotrophy were more common in winter than in summer. Raw water drawn from the nearby river did not affect the microbial communities in the process samples, indicating that the microbial communities and metabolic capacities develop within the process over time in response to the conditions in the processing plant, water chemistry, used chemicals, ore properties and seasonal variation. We propose that the microbial community structures are unique to the Boliden Kevitsa mine and processing plant. [ABSTRACT FROM AUTHOR]

Published

2024

33. Study the relationship between zinc transporter 8 and others parameters in atherosclerosis patients.

Author

Mahdi, Ban and Auda, Furqan Moein

Subjects

*ZINC transporters, *ATHEROSCLEROSIS, *UREA, *ZINC supplements, *GLUCOSE transporters, *INSULIN, *CORONARY arteries, *TEACHING hospitals, *URBAN hospitals

Abstract

The present study concentrated on the effect of zinc transporters and zinc on the status of coronary arteries. Sixty patients suffering from atherosclerosis (38 male and 22 female) between the ages of 45-70 years participated. Their samples were collected from the "open heart unit in Al-Sadr Teaching Hospital in Al-Najaf city". On the other hand, thirty healthy people (15 male and female) were selected as a control group. Serum Zinc transporter 8 and Insulin were evaluated using the ELISA method. Zinc, Urea, Creatinine and glucose were determined by using a spectrophotometer. The results exhibited increase in the concentration of zinc transporter and insulin in atherosclerosis patients, compared with the control group, no significant change in Zinc, Urea, Creatinine and glucose. it can conclude from the current study there is a significant increase in zinc transporter, insulin, and Glucose levels in patients with atherosclerosis as compare with the control group, thus high level of zinc transporter in patients is considered an early indicator for the detection of atherosclerosis. Irregular relation between zinc and zinc transporter. In addition, Irregular correlation between insulin and zinc in atherosclerosis patients, more samples should be used to prove the relationship between insulin and zinc. [ABSTRACT FROM AUTHOR]

Published

2024

34. Comparative transcriptome analysis between two different cadmium-accumulating genotypes of soybean (Glycine max) in response to cadmium stress.

Author

Liu, Xiaoqing, Zhang, Hongmei, Zhang, Wei, Jia, Qianru, Chen, Xin, and Chen, Huatao

Subjects

*CADMIUM, *ZINC transporters, *ATP-binding cassette transporters, *TRANSCRIPTION factors, *PLANT-pathogen relationships, *SOYBEAN

Abstract

Background: Cadmium (Cd) is extremely toxic and non-essential for plants. Different soybean varieties differ greatly in their Cd accumulation ability, but little is known about the underlying molecular mechanisms. Results: Here, we performed transcriptomic analysis using Illumina pair-end sequencing on root tissues from two soybean varieties (su8, high-Cd-accumulating (HAS) and su7, low Cd-accumulating (LAS)) grown with 0 or 50 μM CdSO4. A total of 18.76 million clean reads from the soybean root samples were obtained after quality assessment and data filtering. After Cd treatment, 739 differentially expressed genes (DEGs; 265 up and 474 down) were found in HAS; however, only 259 DEGs (88 up and 171 down) were found in LAS, and 64 genes were same between the two varieties. Pathway enrichment analysis suggested that after cadmium treatment, the DEGs between LAS and HAS were mainly enriched in glutathione metabolism and plant-pathogen interaction pathways. KEGG analysis showed that phenylalanine metabolism responding to cadmium stress in LAS, while ABC transporters responding to cadmium stress in HAS. Besides we found more differential expressed heavy metal transporters such as ABC transporters and zinc transporters in HAS than LAS, and there were more transcription factors differently expressed in HAS than LAS after cadmium treatment in two soybean varieties, eg. bHLH transcription factor, WRKY transcription factor and ZIP transcription factor. Conclusions: Findings from this study will shed new insights on the underlying molecular mechanisms behind the Cd accumulation in soybean. [ABSTRACT FROM AUTHOR]

Published

2024

35. ZIP transporters‐regulated Zn2+ homeostasis: A novel determinant of human diseases.

Author

Liu, Huimei, Li, Lanfang, and Lu, Ruirui

Subjects

*ZINC, *HOMEOSTASIS, *ZINC transporters, *CARRIER proteins, *ZINC proteins, *DNA replication, *ATP-binding cassette transporters

Abstract

As an essential trace element for organisms, zinc participates in various physiological processes, such as RNA transcription, DNA replication, cell proliferation, and cell differentiation. The destruction of zinc homeostasis is associated with various diseases. Zinc homeostasis is controlled by the cooperative action of zinc transporter proteins that are responsible for the influx and efflux of zinc. Zinc transporter proteins are mainly categorized into two families: Zrt/Irt‐like protein (SLC39A/ZIP) family and zinc transporter (SLC30A/ZNT) family. ZIP transporters contain 14 members, namely ZIP1‐14, which can be further divided into four subfamilies. Currently, ZIP transporters‐regulated zinc homeostasis is one of the research hotspots. Cumulative evidence suggests that ZIP transporters‐regulated zinc homeostasis may cause physiological dysfunction and contribute to the onset and progression of diverse diseases, such as cancers, neurological diseases, and cardiovascular diseases. In this review, we initially discuss the structure and distribution of ZIP transporters. Furthermore, we comprehensively review the latest research progress of ZIP transporters‐regulated zinc homeostasis in diseases, providing a new perspective into new therapeutic targets for treating related diseases. [ABSTRACT FROM AUTHOR]

Published

2024

36. The transcription factor OsbZIP48 governs rice responses to zinc deficiency.

Author

Hu, Shubao, Du, Binbin, Mu, Guangmao, Jiang, Zichen, Li, Hui, Song, Yuxinrui, Zhang, Baolei, Xia, Jixing, Rouached, Hatem, and Zheng, Luqing

Subjects

*TRANSCRIPTION factors, *ZINC, *RICE, *ZINC transporters

Abstract

Zinc (Zn) deficiency is the most prevalent micronutrient disorder in rice and leads to delayed development and decreased yield. Nevertheless, despite its primary importance, how rice responds to Zn deficiency remains poorly understood. This study presents genetic evidence supporting the crucial role of OsbZIP48 in regulating rice's response to Zn deficiency, consistent with earlier findings in the model plant Arabidopsis. Genetic inactivation of OsbZIP48 in rice seedlings resulted in heightened sensitivity to Zn deficiency and reduced Zn translocation from roots to shoots. Consistently, OsbZIP48 was constitutively expressed in roots, slightly induced by Zn deficiency in shoots and localized into nuclei induced by Zn deficiency. Comparative transcriptome analysis of the wild‐type plants and osbzip48 mutant grown under Zn deficiency enabled the identification of OsbZIP48 target genes, including key Zn transporter genes (OsZIP4 and OsZIP8). We demonstrated that OsbZIP48 controlled the expressions of these genes by directly binding to their promoters, specifically to the Zn deficiency response element motif. This study establishes OsbZIP48 as a critical transcription factor in rice's response to Zn deficiency, offering valuable insights for developing Zn‐biofortified rice varieties to combat global Zn limitation. Summary statement: Rice transcription factor, OsbZIP48 is required for rice in response to Zinc (Zn) deficiency and regulates the long‐distance transport of Zn by directly binding to the Zn deficiency response elements in the promoter of OsZIP4 and OsZIP8. [ABSTRACT FROM AUTHOR]

Published

2024

37. Cell-Surface ZnT8 Antibody Prevents and Reverses Autoimmune Diabetes in Mice.

Author

Kasinathan, Devi, Guo, Zheng, Sarver, Dylan C., Wong, G. William, Yun, Shumei, Michels, Aaron W., Yu, Liping, Sona, Chandan, Poy, Matthew N., Golson, Maria L., and Fu, Dax

Subjects

*AUTOIMMUNE diseases, *REGULATORY T cells, *CELL membranes, *TYPE 1 diabetes, *ZINC transporters, *ANTIGEN presentation

Abstract

Type 1 diabetes (T1D) is an autoimmune disease in which pathogenic lymphocytes target autoantigens expressed in pancreatic islets, leading to the destruction of insulin-producing β-cells. Zinc transporter 8 (ZnT8) is a major autoantigen abundantly present on the β-cell surface. This unique molecular target offers the potential to shield β-cells against autoimmune attacks in T1D. Our previous work showed that a monoclonal antibody (mAb43) against cell-surface ZnT8 could home in on pancreatic islets and prevent autoantibodies from recognizing β-cells. This study demonstrates that mAb43 binds to exocytotic sites on the β-cell surface, masking the antigenic exposure of ZnT8 and insulin after glucose-stimulated insulin secretion. In vivo administration of mAb43 to NOD mice selectively increased the proportion of regulatory T cells in the islet, resulting in complete and sustained protection against T1D onset as well as reversal of new-onset diabetes. The mAb43-induced self-tolerance was reversible after treatment cessation, and no adverse effects were exhibited during long-term monitoring. Our findings suggest that mAb43 masking of the antigenic exposure of β-cells suppresses the immunological cascade from B-cell antigen presentation to T cell–mediated β-cell destruction, providing a novel islet-targeted and antigen-specific immunotherapy to prevent and reverse clinical T1D. Article Highlights: mAb43, a zinc transporter 8 (ZnT8)–specific monoclonal antibody, provides lasting protection against autoimmune diabetes in NOD mice. The in vivo islet specificity of mAb43 enables targeted therapy to enhance safety. High-affinity binding of mAb43 to the extracellular surface of ZnT8 shields β-cells from antigenic exposure. β-Cell masking results in a localized increase in regulatory T cells in the pancreatic islet. Prolonged mAb43 treatment clears destructive insulitis, preserves β-cell mass, and reverses seroconversion of insulin autoantibodies in NOD mice. The immunological processes bridging the masking of specific cell-surface autoantigens and the broad suppression of polyspecific T-cell autoimmunity are still unclear. [ABSTRACT FROM AUTHOR]

Published

2024

38. Elevated luteinizing hormone receptor signaling or selenium treatment leads to comparable changes in adrenal cortex histology and androgen-AR/ZIP9 signaling.

Author

Wieczorek, Jaroslaw, Pawlicki, Piotr, Zarzycka, Marta, Pardyak, Laura, Niedbala, Piotr, Duliban, Michal, Yurdakok-Dikmen, Begum, and Kotula-Balak, Malgorzata

Subjects

*ADRENAL cortex, *LUTEINIZING hormone receptors, *ANDROGEN receptors, *PROLIFERATING cell nuclear antigen, *HISTOLOGY, *WNT signal transduction, *ZINC transporters

Abstract

The importance and regulation of adrenal androgen production and signaling are not completely understood and are scarcely studied. In addition, there is still a search for appropriate animal models and experimental systems for the investigation of adrenal physiology and disease. Therefore, the main objective of the study was to evaluate the effect of luteinizing hormone (LH) signaling and selenium (Se2+) exposure on androgen adrenal signaling via canonical androgen receptor (AR), and membrane androgen receptor acting as zinc transporter (zinc- and iron-like protein 9; ZIP9). For herein evaluations, adrenals isolated from transgenic mice with elevated LH receptor signaling (KiLHRD582G) and adrenals obtained from rabbits used for ex vivo adenal cortex culture and exposure to Se2+ were utilized. Tissues were assessed for morphological, morphometric, and Western blot analyses and testosterone and zinc level measurements. Comparison of adrenal cortex histology and morphometric analysis in KiLHRD582G mice and Se2+-treated rabbits revealed cell hypertrophy. No changes in the expression of proliferating cell nuclear antigen (PCNA) were found. In addition, AR expression was decreased (p < 0.001) in both KiLHRD582G mouse and Se2+-treated rabbit adrenal cortex while expression of ZIP9 showed diverse changes. Its expression was increased (P < 0.001) in KiLHRD582G mice and decreased (P < 0.001) in Se2+-treated rabbits but only at the dose 10 ug/100 mg/ tissue. Moreover, increased testosterone levels (P < 0.05) and zinc levels were detected in the adrenal cortex of KiLHRD582G mice whereas in rabbit adrenal cortex treated with Se2+, the effect was the opposite (P < 0.001). [ABSTRACT FROM AUTHOR]

Published

2024

39. Serum Calprotectin in the Evaluation of Gastrointestinal Diseases: An Ace up Your Sleeve?

Author

Saviano, Angela, Migneco, Alessio, Brigida, Mattia, Petruzziello, Carmine, Zanza, Christian, Savioli, Gabriele, Franceschi, Francesco, and Ojetti, Veronica

Subjects

GASTROINTESTINAL diseases, CALPROTECTIN, ZINC transporters, NATURAL immunity, MEDICAL screening, AUTOIMMUNE diseases

Abstract

Background: Calprotectin (CP) is a calcium- and zinc-binding protein that plays a key role in innate immunity and in the recruitment of inflammatory cells. CP can be detected both in serum and in fecal samples. Serum CP (sCP) is more specific for autoimmune diseases, while fecal CP (fCP) has been well investigated for gastrointestinal diseases. Few studies have shown the clinical effectiveness of sCP as an acute-phase biomarker for gastrointestinal diseases. Aim: The aim of this narrative review is to discuss the role of sCP as a useful alternative biomarker of the acute-phase activity of gastrointestinal diseases and as a possible tool for screening and monitoring these diseases. Material and Methods: We searched original articles, abstracts, reviews, case reports, and clinical trials on PubMed®, Up-to-Date®, and Medscape® in the last ten years. Conclusion: We found that sCP could represent a useful biomarker in the evaluation of the inflammatory stage in patients with immune-mediated gastrointestinal diseases, but more studies are needed to promote its routine use in clinical practice as a diagnostic and prognostic biomarker as a replacement for fCP. [ABSTRACT FROM AUTHOR]

Published

2024

40. Possible involvement of zinc transporter ZIP13 in myogenic differentiation.

Author

Shoji, Masaki, Ohashi, Takuto, Nagase, Saki, Yuri, Haato, Ichihashi, Kenta, Takagishi, Teruhisa, Nagata, Yuji, Nomura, Yuki, Fukunaka, Ayako, Kenjou, Sae, Miyake, Hatsuna, Hara, Takafumi, Yoshigai, Emi, Fujitani, Yoshio, Sakurai, Hidetoshi, dos Santos, Heloísa G., Fukada, Toshiyuki, and Kuzuhara, Takashi

Subjects

*ZINC transporters, *INDUCED pluripotent stem cells, *EHLERS-Danlos syndrome, *CONNECTIVE tissues, *CELL differentiation, *RECESSIVE genes

Abstract

Ehlers–Danlos syndrome spondylodysplastic type 3 (EDSSPD3, OMIM 612350) is an inherited recessive connective tissue disorder that is caused by loss of function of SLC39A13/ZIP13, a zinc transporter belonging to the Slc39a/ZIP family. We previously reported that patients with EDSSPD3 harboring a homozygous loss of function mutation (c.221G > A, p.G64D) in ZIP13 exon 2 (ZIP13G64D) suffer from impaired development of bone and connective tissues, and muscular hypotonia. However, whether ZIP13 participates in the early differentiation of these cell types remains unclear. In the present study, we investigated the role of ZIP13 in myogenic differentiation using a murine myoblast cell line (C2C12) as well as patient-derived induced pluripotent stem cells (iPSCs). We found that ZIP13 gene expression was upregulated by myogenic stimulation in C2C12 cells, and its knockdown disrupted myotubular differentiation. Myocytes differentiated from iPSCs derived from patients with EDSSPD3 (EDSSPD3-iPSCs) also exhibited incomplete myogenic differentiation. Such phenotypic abnormalities of EDSSPD3-iPSC-derived myocytes were corrected by genomic editing of the pathogenic ZIP13G64D mutation. Collectively, our findings suggest the possible involvement of ZIP13 in myogenic differentiation, and that EDSSPD3-iPSCs established herein may be a promising tool to study the molecular basis underlying the clinical features caused by loss of ZIP13 function. [ABSTRACT FROM AUTHOR]

Published

2024

41. Expression of cell surface zinc transporter LIV1 in triple negative breast cancer is an indicator of poor prognosis and therapy failure.

Author

Saravanan, Roshni, Balasubramanian, Vaishnavi, Sundaram, Sandhya, Dev, Bhawna, Vittalraj, Pavithra, Pitani, Ravi Shankar, Shanmugasundaram, Gouthaman, Rayala, Suresh Kumar, and Venkatraman, Ganesh

Subjects

*TRIPLE-negative breast cancer, *PROGESTERONE receptors, *ZINC transporters, *EPIDERMAL growth factor, *SECONDARY primary cancer, *ESTROGEN receptors

Abstract

Triple negative breast cancers (TNBC) are an aggressive molecular subtype of breast carcinoma (BC) identified by the lack of receptor expression for estrogen, progesterone, & human epidermal growth factor receptor‐2. Lack of tangible drug targets warrants further research in TNBC. LIV1, is a zinc (Zn) transporter known to be overexpressed in few cancer types including BCs. Recently, in the United States of America, FDA approved the use of a new drug targeting LIV1, antibody drug conjugate SGN‐LIV1A for treatment of TNBC patients. Though LIV1 also has a role in modulating immune cells by its differential transport of Zn, a correlation between the tumor cell expression of LIV1 and immune cell infiltrations were scantily reported. Further adequate baseline data on LIV1 expression in other populations have not been documented. Our objective was to screen a large Indian cohort of TNBC patient samples for LIV1, categorize the immune cell infiltration using CD4/CD8 expression and correlate the findings with therapy outcomes. Further, we also investigated for LIV1 expression in matched samples of primary & secondary tumors; pre & postchemotherapy in TNBC patients. Results showed an elevated expression of LIV1 in TNBC samples as compared to adjacent normal, the mean Q scores being 183.06 ± 6.39 and 120.78 ± 7.37 (p < 0.0001), respectively. Similarly, LIV1 levels were elevated in secondary tumors than primary & in patient samples postchemotherapy as compared to naïve. In the TNBC cohort, using automated method, cell morphology parameters were computed and analysis showed LIV1 levels were elevated in grade 3 TNBC samples presenting with altered cell morphology parameters namely cell size, cell perimeter, & nucleus size. Thus indicating LIV1 expressing TNBC samples portrayed an aggressive phenotype. Finally, TNBC patients with 3+ staining intensity showed poor survival (4.44 year) as compared to patients with 2+ LIV1 expression (5.47 year), emphasizing that LIV1 expression is a poor prognostic factor in TNBC. In conclusion, the study reports elevated expression of LIV1 in a large Indian TNBC cohort; high expression is a poor prognostic factor and correlated with aggressive disease and indicating the need for LIV1 targeted therapies. [ABSTRACT FROM AUTHOR]

Published

2024

42. Spatio-temporal spread and evolution of Lassa virus in West Africa.

Author

Wang, Xia, Ye, Xianwei, Li, Ruihua, Zai, Xiaodong, Hu, Mingda, Wang, Shaoyan, Ren, Hongguang, Jin, Yuan, Xu, Junjie, and Yue, Junjie

Subjects

*SPATIOTEMPORAL processes, *HEMORRHAGIC fever, *ZINC transporters, *LASSA fever, *VIRAL genomes

Abstract

Background: Lassa fever is a hemorrhagic disease caused by Lassa virus (LASV), which has been classified by the World Health Organization as one of the top infectious diseases requiring prioritized research. Previous studies have provided insights into the classification and geographic characteristics of LASV lineages. However, the factor of the distribution and evolution characteristics and phylodynamics of the virus was still limited. Methods: To enhance comprehensive understanding of LASV, we employed phylogenetic analysis, reassortment and recombination detection, and variation evaluation utilizing publicly available viral genome sequences. Results: The results showed the estimated the root of time of the most recent common ancestor (TMRCA) for large (L) segment was approximately 634 (95% HPD: [385879]), whereas the TMRCA for small (S) segment was around 1224 (95% HPD: [10301401]). LASV primarily spread from east to west in West Africa through two routes, and in route 2, the virus independently spread to surrounding countries through Liberia, resulting in a wider spread of LASV. From 1969 to 2018, the effective population size experienced two significant increased, indicating the enhanced genetic diversity of LASV. We also found the evolution rate of L segment was faster than S segment, further results showed zinc-binding protein had the fastest evolution rate. Reassortment events were detected in multiple lineages including sub-lineage IIg, while recombination events were observed within lineage V. Significant amino acid changes in the glycoprotein precursor of LASV were identified, demonstrating sequence diversity among lineages in LASV. Conclusion: This study comprehensively elucidated the transmission and evolution of LASV in West Africa, providing detailed insights into reassortment events, recombination events, and amino acid variations. [ABSTRACT FROM AUTHOR]

Published

2024

43. ASSOCIATION OF THE GENETIC POLYMORPHISM RS11640851 MT1A 80 C/A AND TYPE 2 DIABETES MELLITUS IN THE CENTRAL BALKAN POPULATION.

Author

Vujić, Stevan, Milenković, Jelena, Šmelcerović, Žaklina, Jevtović-Stoimenov, Tatjana, and Klisić, Aleksandra

Subjects

*TYPE 2 diabetes, *GENETIC polymorphisms, *SINGLE nucleotide polymorphisms, *ZINC transporters, *HYPERGLYCEMIA, *GENETIC variation, *ZINC supplements

Abstract

Type 2 diabetes mellitus (T2DM) is the most common type of diabetes and is becoming an increasingly prevalent global health issue. Polymorphisms in genes coding metallothioneins, a group of small zinc-binding proteins that participate in antioxidative protection, are believed to be involved in T2DM pathogenesis. This study aimed to investigate the potential association of the single nucleotide polymorphism (SNP) rs11640851 MT1A 80 C/A and the T2DM risk and to determine the impact of the genotype and allelic distribution on the diabetes-related biochemical parameters. The study included 298 subjects, 112 with T2DM and 186 healthy, non-diabetic controls. The participants' fasting glycemia and HbA1c levels were measured, while the SNP in the MT1A gene was determined using the PCR-RFLP method. There were no significant differences in the genetic distribution and allele frequency between control subjects and diabetic patients (p > 0.05). There was likewise no association between the SNP and diabetes-associated laboratory parameters, fasting serum glucose and HbA1c levels. However, 79.6% of allele C carriers had fasting glucose levels above 7 mmol/L, versus 53.3% of subjects homozygous for allele A (p = 0.005). Although our study did not find a direct association between the MT1A genetic variants and the occurrence of T2DM, we observed an effect of the allele C on glycemic control in the patients. Further research in a larger population is needed to expand these findings and to improve the understanding of metallothionein genes and their impact on the development of T2DM. [ABSTRACT FROM AUTHOR]

Published

2024

44. A novel, high-performance, low-volume, rapid luciferase immunoprecipitation system (LIPS) assay to detect autoantibodies to zinc transporter 8.

Author

Williams, Claire L, Marzinotto, Ilaria, Brigatti, Cristina, Gillespie, Kathleen M, Wilson, Isabel, Aitken, Rachel, Megson, Clare, Ballav, Chitrabhanu, Dutta, Atanu, Russell-Taylor, Michelle, Besser, Rachel, Bursell, James, Chandran, Shanthi, Keynes, Milton, Patel, Sejal, Smith, Anne, Kenchaiah, Manohara, Margabanthu, Gomathi, Kavvoura, Foteini, and Yaliwal, Chandan

Subjects

*ZINC transporters, *AUTOANTIBODIES, *TYPE 1 diabetes, *LIPS, *IMMUNOPRECIPITATION

Abstract

Background: Zinc transporter 8 autoantibodies (ZnT8A) are thought to appear close to type 1 diabetes (T1D) onset and can identify high-risk multiple (≥2) autoantibody positive individuals. Radiobinding assays (RBA) are widely used for ZnT8A measurement but have limited sustainability. We sought to develop a novel, high-performance, non-radioactive luciferase immunoprecipitation system (LIPS) assay to replace RBA. Methods: A custom dual C-terminal ZnT8 (aa268-369; R325/W325) heterodimeric antigen, tagged with a NanoluciferaseTM (Nluc-ZnT8) reporter, and LIPS assay was developed. Assay performance was evaluated by testing sera from new onset T1D (n = 573), healthy schoolchildren (n = 521), and selected first-degree relatives (FDRs) from the Bart's Oxford family study (n = 617; 164 progressed to diabetes). Results: In new-onset T1D, ZnT8A levels by LIPS strongly correlated with RBA (Spearman's r = 0.89; P < 0.0001), and positivity was highly concordant (94.3%). At a high specificity (95%), LIPS and RBA had comparable assay performance [LIPS pROC-AUC(95) 0.032 (95% CI: 0.029–0.036); RBA pROC-AUC(95) 0.031 (95% CI: 0.028–0.034); P = 0.376]. Overall, FDRs found positive by LIPS or RBA had a comparable 20-year diabetes risk (52.6% and 59.7%, respectively), but LIPS positivity further stratified T1D risk in FDRs positive for at least one other islet autoantibody detected by RBA (P = 0.0346). Conclusion: This novel, high-performance, cheaper, quicker, higher throughput, low blood volume Nluc-ZnT8 LIPS assay is a safe, non-radioactive alternative to RBA with enhanced sensitivity and ability to discriminate T1D progressors. This method offers an advanced approach to current strategies to screen the general population for T1D risk for immunotherapy trials and to reduce rates of diabetic ketoacidosis at diagnosis. The LIPS method for measurement of autoantibodies to zinc transporter 8 (ZnT8A) can replace the radiobinding assay. This method also offers an advanced approach to current strategies to screen the general population for type 1 diabetes risk for immunotherapy trials and to reduce rates of diabetic ketoacidosis at diagnosis. Graphical Abstract [ABSTRACT FROM AUTHOR]

Published

2024

45. Structures, Mechanisms, and Physiological Functions of Zinc Transporters in Different Biological Kingdoms.

Author

Bui, Han Ba and Inaba, Kenji

Subjects

*ZINC transporters, *BIOLOGICAL membranes, *ZINC ions, *METALLOTHIONEIN, *HISTIDINE

Abstract

Zinc transporters take up/release zinc ions (Zn2+) across biological membranes and maintain intracellular and intra-organellar Zn2+ homeostasis. Since this process requires a series of conformational changes in the transporters, detailed information about the structures of different reaction intermediates is required for a comprehensive understanding of their Zn2+ transport mechanisms. Recently, various Zn2+ transport systems have been identified in bacteria, yeasts, plants, and humans. Based on structural analyses of human ZnT7, human ZnT8, and bacterial YiiP, we propose updated models explaining their mechanisms of action to ensure efficient Zn2+ transport. We place particular focus on the mechanistic roles of the histidine-rich loop shared by several zinc transporters, which facilitates Zn2+ recruitment to the transmembrane Zn2+-binding site. This review provides an extensive overview of the structures, mechanisms, and physiological functions of zinc transporters in different biological kingdoms. [ABSTRACT FROM AUTHOR]

Published

2024

46. Elevated level of circulating calprotectin correlates with severity and high mortality in patients with COVID‐19.

Author

Zhang, Haoran, Zhang, Qingyu, Liu, Kun, Yuan, Zenong, Xu, Xiqiang, and Dong, Jun

Subjects

*COVID-19, *CALPROTECTIN, *ZINC transporters, *ODDS ratio, *CORONAVIRUSES

Abstract

Background: Patients with coronavirus disease‐2019 (COVID‐19) are characterized by hyperinflammation. Calprotectin (S100A8/S100A9) is a calcium‐ and zinc‐binding protein mainly secreted by neutrophilic granulocytes or macrophages and has been suggested to be correlated with the severity and prognosis of COVID‐19. Aim: To thoroughly evaluate the diagnostic and prognostic utility of calprotectin in patients with COVID‐19 by analyzing relevant studies. Methods: PubMed, Web of Science, and Cochrane Library were comprehensively searched from inception to August 1, 2023 to retrieve studies about the application of calprotectin in COVID‐19. Useful data such as the level of calprotectin in different groups and the diagnostic efficacy of this biomarker for severe COVID‐19 were extracted and aggregated by using Stata 16.0 software. Results: Fifteen studies were brought into this meta‐analysis. First, the pooled standardized mean differences (SMDs) were used to estimate the differences in the levels of circulating calprotectin between patients with severe and non‐severe COVID‐19. The results showed an overall estimate of 1.84 (95% confidence interval [CI]: 1.09–2.60). Diagnostic information was extracted from 11 studies, and the pooled sensitivity and specificity of calprotectin for diagnosing severe COVID‐19 were 0.75 (95% CI: 0.64–0.84) and 0.88 (95% CI: 0.79–0.94), respectively. The AUC was 0.89 and the pooled DOR was 18.44 (95% CI: 9.07–37.51). Furthermore, there was a strong correlation between elevated levels of circulating calprotectin and a higher risk of mortality outcomes in COVID‐19 patients (odds ratio: 8.60, 95% CI: 2.17–34.12; p < 0.1). Conclusion: This meta‐analysis showed that calprotectin was elevated in patients with severe COVID‐19, and this atypical inflammatory cytokine might serve as a useful biomarker to distinguish the severity of COVID‐19 and predict the prognosis. [ABSTRACT FROM AUTHOR]

Published

2024

47. Arbuscular mycorrhizal fungi-based bioremediation of mercury: insights from zinc and cadmium transporter studies.

Author

Guo, Y., Martin, K., Hrynkiewicz, K., and Rasche, F.

Subjects

ZINC transporters, VESICULAR-arbuscular mycorrhizas, BIOREMEDIATION, MERCURY, PHYTOPATHOGENIC fungi, ZINC, CADMIUM

Abstract

Phytoremediation, a sustainable approach for rehabilitating mercury (Hg)-contaminated soils, can be enhanced by arbuscular mycorrhizal (AM) fungi, which promote plant growth and metal uptake, including Hg, in contaminated soils. Hg, despite lacking a biological function in plants, can be absorbed and translocated using Zn and/or Cd transporters, as these elements belong to the same group in the periodic table (12/2B). In fact, the specific transporters of Hg in plant roots remain unknown. This study is therefore to provide fundamental insights into the prospect to remediate Hg-contaminated soils, with a focus on the role of AM fungi. The hypothesis posits that Hg uptake in plants may be facilitated by transporters responsible for Zn/Cd, affected by AM fungi. The Scopus database was used to collect studies between 2000 and 2022 with a focus on the ecological role of AM fungi in environments contaminated with Zn and Cd. Particular emphasis was laid on the molecular mechanisms involved in metal uptake and partitioning. The study revealed that AM fungi indeed regulated Zn and/or Cd transporters, influencing Zn and/or Cd uptake in plants. However, these effects vary significantly based on environmental factors, such as plant and AM fungi species and soil conditions (e.g., pH, phosphorus levels). Given the limited understanding of Hg remediation, insights gained from Zn and Cd transporter systems can guide future Hg research. In conclusion, this study underscores the importance of considering environmental factors and provides fundamental insights into the potential of Hg phytoremediation with the assistance of AM fungi. [ABSTRACT FROM AUTHOR]

Published

2024

48. Purification, Characterization, cDNA Cloning, and Bioinformatic Analysis of Zinc-Binding Protein from Magallana hongkongensis.

Author

Chen, Citing, Li, Wan, Gao, Jialong, Cao, Wenhong, Qin, Xiaoming, Zheng, Huina, Lin, Haisheng, and Chen, Zhongqin

Subjects

*ZINC transporters, *MOLECULAR cloning, *COMPLEMENTARY DNA, *CARBONIC anhydrase, *PACIFIC oysters, *ZINC-finger proteins, *ANTISENSE DNA

Abstract

Oysters contain significant amounts of the zinc element, which may also be found in their proteins. In this study, a novel zinc-binding protein was purified from the mantle of the oyster Magallana hongkongensis using two kinds of gel filtration chromatograms. Sodium dodecyl sulfate–polyacrylamide gel electrophoresis (SDS-PAGE) showed that its molecular weight was approximately 36 kDa. The protein identified by the Q-Exactive mass spectrometer shared the highest sequence identity with carbonic anhydrase derived from Crassostrea gigas concerning amino acid sequence similarity. Based on homologous cloning and RACE PCR, the full-length cDNA of carbonic anhydrase from Magallana hongkongensis (designated as MhCA) was cloned and sequenced. The cDNA of MhCA encodes a 315-amino-acid protein with 89.74% homology to carbonic anhydrase derived from Crassostrea gigas. Molecular docking revealed that the two zinc ions primarily form coordination bonds with histidine residues in the MhCA protein. These results strongly suggest that MhCA is a novel zinc-binding protein in Magallana hongkongensis. [ABSTRACT FROM AUTHOR]

Published

2024

49. Lysosome-related organelles contain an expansion compartment that mediates delivery of zinc transporters to promote homeostasis.

Author

Mendoza, Adelita D., Dietrich, Nicholas, Chieh-Hsiang Tan, Herrera, Daniel, Kasiah, Jennysue, Payne, Zachary, Cubillas, Ciro, Schneider, Daniel L., and Kornfeld, Kerry

Abstract

Zinc is an essential nutrient--it is stored during periods of excess to promote detoxification and released during periods of deficiency to sustain function. Lysosome-related organelles (LROs) are an evolutionarily conserved site of zinc storage, but mechanisms that control the directional zinc flow necessary for homeostasis are not well understood. In Caenorhabditis elegans intestinal cells, the CDF-2 transporter stores zinc in LROs during excess. Here, we identify ZIPT-2.3 as the transporter that releases zinc during deficiency; ZIPT-2.3 transports zinc, localizes to the membrane of LROs in intestinal cells, and is necessary for zinc release from LROs and survival during zinc deficiency. In zinc excess and deficiency, the expression levels of CDF-2 and ZIPT-2.3 are reciprocally regulated at the level of mRNA and protein, establishing a fundamental mechanism for directional flow to promote homeostasis. To elucidate how the ratio of CDF-2 and ZIPT-2.3 is altered, we used super-resolution microscopy to demonstrate that LROs are composed of a spherical acidified compartment and a hemispherical expansion compartment. The expansion compartment increases in volume during zinc excess and deficiency. These results identify the expansion compartment as an unexpected structural feature of LROs that facilitates rapid transitions in the composition of zinc transporters to mediate homeostasis, likely minimizing the disturbance to the acidified compartment. [ABSTRACT FROM AUTHOR]

Published

2024

50. Melanin Zinc Complex as a Biocompatible Agent for Clearing Bacteremia.

Author

Eliato, Tahmineh Rahmani, Edwards, Seth, Tian, Zhen, Andam, Cheryl P., Jeong, Kyung Jae, and Kim, Young Jo

Subjects

BACTERIAL cell membranes, MELANINS, ZINC compounds, BACTEREMIA, ZINC transporters, ENDOTOXINS, SEPSIS

Abstract

Sepsis, whole‐body inflammation caused by the contamination of blood by bacteria and endotoxins, affects millions of patients annually with high mortality rates. A recent promising approach to treat sepsis involves the removal of bacteria and endotoxins using extracorporeal blood‐cleansing devices. However, poor specificity, slow recognition of pathogens, and high costs remain the main limitations. Here, the melanin, a biologically derived pigment, is reported for the rapid binding of bacteria and endotoxins from the contaminated blood. This novel approach utilizes the specific binding between Zn2+‐loaded melanin and bacteria/endotoxins with minimal nonspecific interactions with human blood components. Melanin contains various chemical functional groups that allow reversible chelation of metallic ions such as Zn2+ via redox reactions. Zn2+ enables rapid and specific binding with bacteria/endotoxins due to the strong electrostatic interactions between Zn2+ and phosphate ions. The presence of various zinc‐binding proteins on the bacterial cell membrane further enhances the binding. The well‐known biocompatibility and low cost make melanin an ideal material to interface with human blood. Zn2+‐charged melanin can remove 90% of E. coli and 100% of endotoxin in PBS and human blood. Zn2+‐melanin also demonstrated excellent hemocompatibility shown by protein adsorption, blood coagulation, and hemolysis tests. [ABSTRACT FROM AUTHOR]

Published

2024