Your search keyword '"Diphtheria Toxin"' showing total 8,966 results

1. Compromising the immunogenicity of diphtheria toxin-based immunotoxins through epitope engineering: An in silico approach

Author

Golichenari, Behrouz, Heiat, Mohammad, Rezaei, Ehsan, Ramshini, Amirreza, Sahebkar, Amirhossein, and Gholipour, Nazila

Published

2025

2. Fibrocyte enrichment and myofibroblastic adaptation causes nucleus pulposus fibrosis and associates with disc degeneration severity.

Author

Sun, Yi, Peng, Yan, Su, Zezhuo, So, Kyle, K. H., Lu, Qiuji, Lyu, Maojiang, Zuo, Jianwei, Huang, Yongcan, Guan, Zhiping, Cheung, Kenneth M. C., Zheng, Zhaomin, Zhang, Xintao, and Leung, Victor Y. L.

Subjects

NUCLEUS pulposus, MEDICAL sciences, DIPHTHERIA toxin, LUMBAR pain, INTERVERTEBRAL disk

Abstract

Fibrotic remodeling of nucleus pulposus (NP) leads to structural and mechanical anomalies of intervertebral discs that prone to degeneration, leading to low back pain incidence and disability. Emergence of fibroblastic cells in disc degeneration has been reported, yet their nature and origin remain elusive. In this study, we performed an integrative analysis of multiple single-cell RNA sequencing datasets to interrogate the cellular heterogeneity and fibroblast-like entities in degenerative human NP specimens. We found that disc degeneration severity is associated with an enrichment of fibrocyte phenotype, characterized by CD45 and collagen I dual positivity, and expression of myofibroblast marker α-smooth muscle actin. Refined clustering and classification distinguished the fibrocyte-like populations as subtypes in the NP cells - and immunocytes-clusters, expressing disc degeneration markers HTRA1 and ANGPTL4 and genes related to response to TGF-β. In injury-induced mouse disc degeneration model, fibrocytes were found recruited into the NP undergoing fibrosis and adopted a myofibroblast phenotype. Depleting the fibrocytes in CD11b-DTR mice in which myeloid-derived lineages were ablated by diphtheria toxin could markedly attenuate fibrous modeling and myofibroblast formation in the NP of the degenerative discs, and prevent disc height loss and histomorphological abnormalities. Marker analysis supports that disc degeneration progression is dependent on a function of CD45+COL1A1+ and αSMA+ cells. Our findings reveal that myeloid-derived fibrocytes play a pivotal role in NP fibrosis and may therefore be a target for modifying disc degeneration and promoting its repair. [ABSTRACT FROM AUTHOR]

Published

2025

3. Inhibition of aortic CX3CR1+ macrophages mitigates thoracic aortic aneurysm progression in Marfan syndrome in mice.

Author

Jiaqi Huang, Hao Liu, Zhujiang Liu, Zhenting Wang, Hanshi Xu, Zhuofan Li, Shan Huang, Xueyuan Yang, Yicong Shen, Fang Yu, Yulin Li, Junming Zhu, Wei Li, Li Wang, Wei Kong, and Yi Fu

Subjects

*THORACIC aneurysms, *VASCULAR smooth muscle, *DIPHTHERIA toxin, *MUSCLE cells, *MARFAN syndrome

Abstract

The pathogenesis of thoracic aortic aneurysm (TAA) in Marfan syndrome (MFS) is generally attributed to vascular smooth muscle cell (VSMC) pathologies. However, the role of immune cell-mediated inflammation remains elusive. Single-cell RNA sequencing identified a subset of CX3CR1+ macrophages mainly located in the intima in the aortic roots and ascending aortas of Fbn1C1041G/+ mice, further validated in MFS patients. Specific elimination of CX3CR1+ cells by diphtheria toxin in Cx3cr1-CreERT2iDTRF/+Fbn1C1041G/+ mice efficiently ameliorated TAA progression. Administering the monoclonal antibodies to respectively neutralize TNF-α and IGF1 produced by CX3CR1+ cells from MFS patients greatly suppressed the cocultured MFS patient-specific induced pluripotent stem cell-derived VSMC inflammation. BM transplantation and parabiosis revealed that CX3CR1+ macrophages are mainly originated from BM-derived monocytes. Targeting TNF-a and IGF1 in CX3CR1+ macrophages via shRNA lentivirus transduction in BM cells efficiently suppressed TAA development in BM-transplanted Fbn1C1041G/+ mice. Application of the CCR2 antagonist RS504393 to inhibit monocyte infiltration markedly reduced the accumulation of CX3CR1+ macrophages and subsequently alleviated TAA progression in Fbn1C1041G/+ mice. In summary, CX3CR1+ macrophages mainly located in aortic intima mediate TAA formation by paracrinally causing VSMC inflammation, and targeting them offers a potential antiinflammatory therapeutic strategy for MFS-related TAA. [ABSTRACT FROM AUTHOR]

Published

2025

4. X‐Ray Fluoroscopy‐Based Kinematic Analysis of Quadrupedal Locomotion in Slow and Fast Fatigue‐Resistant Motor Neuron‐Deleted Mice.

Author

Ono, Ayumu, Inomata, Daijiro, Ohgaki, Lisa, Koyama, Tenkei, Maeno, Akiteru, Misawa, Hidemi, and Ogihara, Naomichi

Subjects

*QUADRUPEDALISM, *DIPHTHERIA toxin, *MUSCULAR atrophy, *NEURAL physiology, *MOTOR neurons

Abstract

ABSTRACT Introduction/ Methods Results Discussion VAChT‐Cre is a transgenic mouse line targeting slow‐twitch fatigue‐resistant and fast‐twitch fatigue‐resistant motor neurons that innervate oxidative type I and type IIa muscle fibers. To ablate these neurons, VAChT‐Cre mice were crossbred with NSE‐DTA mice, leading to the expression of diphtheria toxin A after Cre‐mediated excision. The resulting VAChT‐Cre;NSE‐DTA mice exhibited motor deficits, abnormal locomotion, muscular atrophy, and tremor, making them a useful model for studying motor neuron physiology and pathology. In this study, we conducted a kinematic analysis to examine their abnormal locomotor phenotype.The quadrupedal walking of VAChT‐Cre;NSE‐DTA and control mice along a 500 mm acrylic tunnel was analyzed using an X‐ray fluoroscopic system. Stride duration, stride length, footfall patterns, and limb and trunk kinematics were quantified and compared between the two groups.Our results demonstrated that VAChT‐Cre;NSE‐DTA mice walked more slowly than control mice (99.2 ± 43.5 mm/s vs. 120.5 ± 27.0 mm/s) and had a longer cycle duration (0.54 ± 0.19 s vs. 0.41 ± 0.09 s). In addition, the hindlimb was comparatively more flexed during the stance phase, the trunk was more rounded and humpbacked, and the cervix was lower in VAChT‐Cre;NSE‐DTA mice than in the control mice during locomotion.These characteristic differences in the gait kinematics might be attributed to a malfunctioning of the motor units with slow‐twitch fatigue‐resistant and fast‐twitch fatigue‐resistant types in VAChT‐Cre;NSE‐DTA mice. The basic description of the locomotor characteristics of this transgenic mouse line may serve as a basis for future comparative analyses. [ABSTRACT FROM AUTHOR]

Published

2024

5. Hsp90 and cochaperones have two genetically distinct roles in regulating eEF2 function.

Author

Fulton, Melody D., Yama, Danielle J., Dahl, Ella, and Johnson, Jill L.

Subjects

*ELONGATION factors (Biochemistry), *DIPHTHERIA toxin, *POST-translational modification, *PROTEIN folding, *HEAT shock proteins, *GENETIC translation

Abstract

Protein homeostasis relies on the accurate translation and folding of newly synthesized proteins. Eukaryotic elongation factor 2 (eEF2) promotes GTP-dependent translocation of the ribosome during translation. eEF2 folding was recently shown to be dependent on Hsp90 as well as the cochaperones Hgh1, Cns1, and Cpr7. We examined the requirement for Hsp90 and cochaperones more closely and found that Hsp90 and cochaperones have two distinct roles in regulating eEF2 function. Yeast expressing one group of Hsp90 mutations or one group of cochaperone mutations had reduced steady-state levels of eEF2. The growth of Hsp90 mutants that affected eEF2 accumulation was also negatively affected by deletion of the gene encoding Hgh1. Further, mutations in yeast eEF2 that mimic disease-associated mutations in human eEF2 were negatively impacted by loss of Hgh1 and growth of one mutant was partially rescued by overexpression of Hgh1. In contrast, yeast expressing different groups of Hsp90 mutations or a different cochaperone mutation had altered sensitivity to diphtheria toxin, which is dictated by a unique posttranslational modification on eEF2. Our results provide further evidence that Hsp90 contributes to proteostasis not just by assisting protein folding, but also by enabling accurate translation of newly synthesized proteins. In addition, these results provide further evidence that yeast Hsp90 mutants have distinct in vivo effects that correlate with defects in subsets of cochaperones. Author summary: The Hsp90 molecular chaperone and its associated cochaperones are required for the folding of approximately 20% of the yeast proteome. Using a series of yeast Hsp90 mutants defective at distinct steps in the Hsp90 folding pathway, we analyzed the role for Hsp90 and cochaperones in maturation of eukaryotic elongation factor 2, which is required for ribosome translocation. Our results suggest that Hsp90 and cochaperones have two genetically distinct roles in mediating eEF2 function. The folding of eEF2 is highly dependent on the Hgh1, Cpr7, and Cns1 cochaperones and most sensitive to the Hsp90 mutants that disrupt one step in the pathway. In contrast, sensitivity to diphtheria toxin was affected by deletion of the Sti1 cochaperone and mutations that disrupt other steps in the pathway. Thus, it appears that even for a single client, Hsp90 may use different mechanisms to promote different aspects of client maturation. Our results also provide further evidence that Hsp90 contributes to proteostasis, both by assisting protein folding and by supporting folding of proteins required for accurate translation. [ABSTRACT FROM AUTHOR]

Published

2024

6. Rational Design of an Epidermal Growth Factor Receptor Vaccine: Immunogenicity and Antitumor Research.

Author

Liu, Yifei, Liu, Zehui, and Zheng, Zhongliang

Subjects

*VACCINE immunogenicity, *DIPHTHERIA toxin, *CANCER vaccines, *VACCINE effectiveness, *VACCINE development

Abstract

The epidermal growth factor receptor (EGFR) is frequently overexpressed in a variety of human epithelial tumors, and its aberrant activation plays a pivotal role in promoting tumor growth, invasion, and metastasis. The clinically approved passive EGFR-related therapies have numerous limitations. Seven EGFR-ECD epitope peptides (EG1-7) were selected through bioinformatics epitope prediction tools including NetMHCpan-4.1, NetMHCIIpan-3.2, and IEDB Consensus (v2.18 and v2.22) and fused to the translocation domain of diphtheria toxin (DTT). The A549 tumor model was successfully established in a murine mouse model. The vaccine was formulated by combining the adjuvants Alum and CpG and subsequently assessed for its immunogenicity and anti-tumor efficacy. DTT-EG (3;5;6;7) vaccines elicited specific humoral and cellular immune responses and effectively suppressed tumor growth in both prophylactic and therapeutic mouse tumor models. The selected epitopes EG3 (HGAVRFSNNPALCNV145-159), EG5 (KDSLSINATNIKHFK346-360), EG6 (VKEITGFLLIQAWPE398-412), and EG7 (LCYANTINWKKLFGT469-483) were incorporated into vaccines for active immunization, representing a promising strategy for the treatment of tumors with overexpressed epidermal growth factor receptor (EGFR). The vaccine design and fusion method employed in this study demonstrate a viable approach toward the development of cancer vaccines. [ABSTRACT FROM AUTHOR]

Published

2024

7. Genomic Analysis of Novel Bacterial Species Corynebacterium ramonii ST344 Clone Strains Isolated from Human Skin Ulcer and Rescued Cats in Japan.

Author

Shitada, Chie, Moriguchi, Mikoto, Hayashi, Hideyuki, Matsumoto, Kazutoshi, Mori, Misato, Tokuoka, Eisuke, Yahiro, Shunsuke, Gejima, Shouichirou, Horiba, Kazuhiro, Yamamoto, Takatoshi, Takahashi, Motohide, and Kuroda, Makoto

Subjects

DIPHTHERIA toxin, ZOONOSES, SKIN ulcers, GENOMICS, PETS

Abstract

Simple Summary: Corynebacterium ramonii, which is linked to zoonotic diseases, was isolated from a human ulcer (ST344) and oral cavity of a cat (ST337/ST344) in Japan. The close genetic ties between human and cat strains suggest endemicity. The number of ST344 cases may increase, warranting ongoing genomic surveillance for infection control. Some Corynebacterium strains produce toxins that are similar to those produced by Corynebacterium diphtheriae, leading to human infections that are often transmitted through zoonotic diseases. A novel species, which is formerly classified as Corynebacterium ulcerans lineage II, was recently re-evaluated and renamed "Corynebacterium ramonii sp. nov.". We isolated C. ramonii from a human skin ulcer in Japan in 2023 (KCU0303-001) and identified it as ST344 using a genomic analysis. In addition, C. ramonii KPHES-18084 (ST344) and six strains of C. ulcerans (ST337/ST1011) were isolated from the oral cavities of 7/208 rescued cats (3.4%). The human ulcer strain KCU0303-001 and the rescued cat strain KPHES-18084 were found to be ST344 and closely related clones by core-genome and pan-genome analyses, suggesting that ST344 may be endemic to both clinical and companion animals in Japan. In support of this finding, another clinical isolate of ST344 (TSU-28 strain) was reported in Japan in 2019. Although ST337 is the most common C. ulcerans infection, the second most recent clinical isolate of C. ramonii, ST344, might be increasing; therefore, further genomic surveillance is required to monitor C. ramonii and C. ulcerans infections. [ABSTRACT FROM AUTHOR]

Published

2024

8. Genomic Analysis of Novel Bacterial Species Corynebacterium ramonii ST344 Clone Strains Isolated from Human Skin Ulcer and Rescued Cats in Japan

Author

Chie Shitada, Mikoto Moriguchi, Hideyuki Hayashi, Kazutoshi Matsumoto, Misato Mori, Eisuke Tokuoka, Shunsuke Yahiro, Shouichirou Gejima, Kazuhiro Horiba, Takatoshi Yamamoto, Motohide Takahashi, and Makoto Kuroda

Subjects

Corynebacterium ramonii, ST344, Corynebacterium ulcerans, ulcer, zoonotic diseases, diphtheria toxin, Animal biochemistry, QP501-801, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

Some Corynebacterium strains produce toxins that are similar to those produced by Corynebacterium diphtheriae, leading to human infections that are often transmitted through zoonotic diseases. A novel species, which is formerly classified as Corynebacterium ulcerans lineage II, was recently re-evaluated and renamed “Corynebacterium ramonii sp. nov.”. We isolated C. ramonii from a human skin ulcer in Japan in 2023 (KCU0303-001) and identified it as ST344 using a genomic analysis. In addition, C. ramonii KPHES-18084 (ST344) and six strains of C. ulcerans (ST337/ST1011) were isolated from the oral cavities of 7/208 rescued cats (3.4%). The human ulcer strain KCU0303-001 and the rescued cat strain KPHES-18084 were found to be ST344 and closely related clones by core-genome and pan-genome analyses, suggesting that ST344 may be endemic to both clinical and companion animals in Japan. In support of this finding, another clinical isolate of ST344 (TSU-28 strain) was reported in Japan in 2019. Although ST337 is the most common C. ulcerans infection, the second most recent clinical isolate of C. ramonii, ST344, might be increasing; therefore, further genomic surveillance is required to monitor C. ramonii and C. ulcerans infections.

Published

2024

9. Alpha-1 antitrypsin inhibits Clostridium botulinum C2 toxin, Corynebacterium diphtheriae diphtheria toxin and B. anthracis fusion toxin

Author

Stefanie Lietz, Lena-Marie Sokolowski, Holger Barth, and Katharina Ernst

Subjects

α1-Antitrypsin, Toxin inhibitor, Clostridium botulinum C2 toxin, Diphtheria toxin, Anthrax toxin, Drug repurposing, Medicine, Science

Abstract

Abstract The bacterium Clostridium botulinum, well-known for producing botulinum neurotoxins, which cause the severe paralytic illness known as botulism, produces C2 toxin, a binary AB-toxin with ADP-ribosyltranferase activity. C2 toxin possesses two separate protein components, an enzymatically active A-component C2I and the binding and translocation B-component C2II. After proteolytic activation of C2II to C2IIa, the heptameric structure binds C2I and is taken up via receptor-mediated endocytosis into the target cells. Due to acidification of endosomes, the C2IIa/C2I complex undergoes conformational changes and consequently C2IIa forms a pore into the endosomal membrane and C2I can translocate into the cytoplasm, where it ADP-ribosylates G-actin, a key component of the cytoskeleton. This modification disrupts the actin cytoskeleton, resulting in the collapse of cytoskeleton and ultimately cell death. Here, we show that the serine-protease inhibitor α1-antitrypsin (α1AT) which we identified previously from a hemofiltrate library screen for PT from Bordetella pertussis is a multitoxin inhibitor. α1AT inhibits intoxication of cells with C2 toxin via inhibition of binding to cells and inhibition of enzyme activity of C2I. Moreover, diphtheria toxin and an anthrax fusion toxin are inhibited by α1AT. Since α1AT is commercially available as a drug for treatment of the α1AT deficiency, it could be repurposed for treatment of toxin-mediated diseases.

Published

2024

10. Ablation of CCL17‐positive hippocampal neurons induces inflammation‐dependent epilepsy.

Author

Eberhard, Judith, Henning, Lukas, Fülle, Lorenz, Knöpper, Konrad, Böhringer, Jana, Graelmann, Frederike J., Hänschke, Lea, Kenzler, Julia, Brosseron, Frederic, Heneka, Michael T., Domingos, Ana I., Eyerich, Stefanie, Lochner, Matthias, Weighardt, Heike, Bedner, Peter, Steinhäuser, Christian, and Förster, Irmgard

Subjects

*GRANULE cells, *HIPPOCAMPAL sclerosis, *DIPHTHERIA toxin, *PYRAMIDAL neurons, *CELL death

Abstract

Objective Methods Results Significance Neuronal cell death and neuroinflammation are characteristic features of epilepsy, but it remains unclear whether neuronal cell death as such is causative for the development of epileptic seizures. To test this hypothesis, we established a novel mouse line permitting inducible ablation of pyramidal neurons by inserting simian diphtheria toxin (DT) receptor (DTR) cDNA into the Ccl17 locus. The chemokine CCL17 is expressed in pyramidal CA1 neurons in adult mice controlling microglial quiescence.Seizure activity in CCL17‐DTR mice was analyzed by electroencephalographic recordings following treatment with DT for 3 consecutive days. Neuroinflammation and neuronal cell death were evaluated by (immuno)histochemistry. Pharmacological inhibition of TNFR1 signaling was achieved by treatment with XPro1595, a dominant‐negative inhibitor of soluble tumor necrosis factor.Neuronal cell death was detectable 7 days (d7) after the first DT injection in heterozygous CCL17‐DTR mice. Spontaneous epileptic seizures were observed in the vast majority of mice, often with an initial peak at d6–9, followed by a period of reduced activity and a gradual increase during the 1‐month observation period. Microglial reactivity was overt from d5 after DT administration not only in the CA1 region but also in the CA2/CA3 area, shortly followed by astrogliosis. Reactive microgliosis and astrogliosis persisted until d30 and, together with neuronal loss and stratum radiatum shrinkage, reflected important features of human hippocampal sclerosis. Granule cell dispersion was detectable only 3 months after DT treatment. Application of XPro1595 significantly reduced chronic seizure burden without affecting the development of hippocampal sclerosis.In conclusion, our data demonstrate that sterile pyramidal neuronal death is sufficient to cause epilepsy in the absence of other pathological processes. The CCL17‐DTR mouse line may thus be a valuable model for further mechanistic studies on epilepsy and assessment of antiseizure medication. [ABSTRACT FROM AUTHOR]

Published

2024

11. Targeting resident astrocytes attenuates neuropathic pain after spinal cord injury.

Author

Qing Zhao, Yanjing Zhu, Yilong Ren, Lijuan Zhao, Jingwei Zhao, Shuai Yin, Haofei Ni, Rongrong Zhu, Liming Cheng, and Ning Xie

Subjects

*DIPHTHERIA toxin, *NEURALGIA, *SPINAL cord injuries, *TRANSGENIC mice, *ADENO-associated virus

Abstract

Astrocytes derive from different lineages and play a critical role in neuropathic pain after spinal cord injury (SCI). Whether selectively eliminating these main origins of astrocytes in lumbar enlargement could attenuate SCI-induced neuropathic pain remains unclear. Through transgenic mice injected with an adeno-associated virus vector and diphtheria toxin, astrocytes in lumbar enlargement were lineage traced, targeted, and selectively eliminated. Pain-related behaviors were measured with an electronic von Frey apparatus and a cold/hot plate after SCI. RNA sequencing, bioinformatics analysis, molecular experiment, and immunohistochemistry were used to explore the potential mechanisms after astrocyte elimination. Lineage tracing revealed that the resident astrocytes but not ependymal cells were the main origins of astrocytes- induced neuropathic pain. SCIinduced mice to obtain significant pain symptoms and astrocyte activation in lumbar enlargement. Selective resident astrocyte elimination in lumbar enlargement could attenuate neuropathic pain and activate microglia. Interestingly, the type I interferons (IFNs) signal was significantly activated after astrocytes elimination, and the most activated Gene Ontology terms and pathways were associated with the type I IFNs signal which was mainly activated in microglia and further verified in vitro and in vivo. Furthermore, different concentrations of interferon and Stimulator of interferon genes (STING) agonist could activate the type I IFNs signal in microglia. These results elucidate that selectively eliminating resident astrocytes attenuated neuropathic pain associated with type I IFNs signal activation in microglia. Targeting type I IFNs signals is proven to be an effective strategy for neuropathic pain treatment after SCI. [ABSTRACT FROM AUTHOR]

Published

2024

12. Transcriptional evidence for transient regulation of muscle regeneration by brown adipose transplant in the rotator cuff.

Author

Gui, Chang and Meyer, Gretchen

Subjects

*MUSCLE regeneration, *SUPRASPINATUS muscles, *DIPHTHERIA toxin, *BROWN adipose tissue, *ROTATOR cuff

Abstract

Chronic rotator cuff (RC) injuries can lead to a degenerative microenvironment that favors chronic inflammation, fibrosis, and fatty infiltration. Recovery of muscle structure and function will ultimately require a complex network of muscle resident cells, including satellite cells, fibro‐adipogenic progenitors (FAPs), and immune cells. Recent work suggests that signaling from adipose tissue and progenitors could modulate regeneration and recovery of function, particularly promyogenic signaling from brown or beige adipose (BAT). In this study, we sought to identify cellular targets of BAT signaling during muscle regeneration using a RC BAT transplantation mouse model. Cardiotoxin injured supraspinatus muscle had improved mass at 7 days postsurgery (dps) when transplanted with exogeneous BAT. Transcriptional analysis revealed transplanted BAT modulates FAP signaling early in regeneration likely via crosstalk with immune cells. However, this conferred no long‐term benefit as muscle mass and function were not improved at 28 dps. To eliminate the confounding effects of endogenous BAT, we transplanted BAT in the "BAT‐free" uncoupling protein‐1 diphtheria toxin fragment A (UCP1‐DTA) mouse and here found improved muscle contractile function, but not mass at 28 dps. Interestingly, the transplanted BAT increased fatty infiltration in all experimental groups, implying modulation of FAP adipogenesis during regeneration. Thus, we conclude that transplanted BAT modulates FAP signaling early in regeneration, but does not grant long‐term benefits. [ABSTRACT FROM AUTHOR]

Published

2024

13. Elimination of physiological senescent cutaneous cells in a novel p16‐dependent senolytic mouse model impacts lipid metabolism in skin aging.

Author

Sugiyama, Yuma, Kawabe, Yoichiro, Harada, Tanenobu, Aoki, Yu, Tsuji, Keiko, Sugiyama, Daijiro, and Maruyama, Mitsuo

Subjects

*ANIMAL models for aging, *DIPHTHERIA toxin, *GENE expression, *ANIMAL models in research, *SUBCUTANEOUS injections

Abstract

The evidence of the correlation between cellular senescence and aging has increased in research with animal models. These models have been intentionally generated to target and regulate cellular senescent cells with the promoter activity of p16Ink4a or p19Arf, genes that are highly expressed in aging cells. However, the senolytic efficiency in various organs and cells from these models represents unexpected variation and diversity in some cases. We have generated a novel knock‐in model, p16tdT‐hDTR mice, which possess tdTomato and human diphtheria toxin receptor (hDTR) downstream of Cdkn2a, an endogenous p16Ink4a gene. We successfully demonstrated that p16‐derived tdTomato and hDTR expressions are observed in these mouse embryo fibroblasts and following treatment with diphtheria toxin (DT) eliminates those cells. Furthermore, we demonstrated the efficacy of eliminating p16‐positive cells in vivo, and also observed a tendency to decrease their cutaneous SA‐β‐gal activity after subcutaneous DT injection into p16tdT‐hDTR mice. In particular, comprehensive gene expression analysis in skin revealed that upregulated genes related to lipid metabolisms with aging exhibited remarkable expressions under the senolysis. These results clearly unveiled p16‐positive senescent cells contribute to age‐related changes in skin. [ABSTRACT FROM AUTHOR]

Published

2024

14. Opposite effects of systemic and local conditional CD11c+ myeloid cell depletion during bleomycin‐induced inflammation and fibrosis in mice.

Author

Lopes, Gabriel Augusto Oliveira, Lima, Braulio Henrique Freire, Freitas, Camila Simões, Peixoto, Andiara Cardoso, Soriani, Frederico Marianetti, Cassali, Geovanni Dantas, Ryffel, Bernhard, Teixeira, Mauro Martins, Machado, Fabiana Simão, and Russo, Remo Castro

Subjects

*MYELOID cells, *IDIOPATHIC pulmonary fibrosis, *PULMONARY fibrosis, *DIPHTHERIA toxin, *EXTRACELLULAR matrix

Abstract

Rationale: Elevated levels of CD11c+ myeloid cells are observed in various pulmonary disorders, including Idiopathic Pulmonary Fibrosis (IPF). Dendritic cells (DCs) and macrophages (MΦ) are critical antigen‐presenting cells (APCs) that direct adaptive immunity. However, the role of CD11c+ myeloid cells in lung extracellular matrix (ECM) accumulation and pulmonary fibrosis is poorly understood. Objective: We aimed to investigate the impact of depleting CD11c+ myeloid cells, including DCs and macrophages, during bleomycin‐induced pulmonary fibrosis in mice. Methods: We used a diphtheria toxin (DTx) receptor (DTR) transgenic mouse model (CD11c‐DTR‐Tg) to deplete CD11c+ myeloid cells through two methods: Systemic Depletion (SD) via intraperitoneal injection (i.p.) and local depletion (LD) via intranasal instillation (i.n.). We then assessed the effects of CD11c+ cell depletion during bleomycin‐induced lung inflammation and fibrosis. Results: Fourteen days after bleomycin instillation, there was a progressive accumulation of myeloid cells, specifically F4/80‐MHCII+CD11c+ DCs and F4/80 + MHCII+CD11c+ MΦ, preceding mortality and pulmonary fibrosis. Systemic depletion of CD11c+ DCs and MΦ via i.p. DTx administration in CD11c‐DTR‐Tg mice protected against bleomycin‐induced mortality and pulmonary fibrosis compared to wild‐type (WT) mice. Systemic depletion reduced myeloid cells, airway inflammation (total leukocytes, neutrophils, and CD4+ lymphocytes in bronchoalveolar lavage (BAL), inflammatory and fibrogenic mediators, and fibrosis‐related mRNAs (Collagen‐1α1 and α‐SMA). Increased anti‐inflammatory cytokine IL‐10 and CXCL9 levels were observed, resulting in lower lung hydroxyproline content and Ashcroft fibrosis score. Conversely, local depletion of CD11c+ cells increased mortality by acute leukocyte influx (predominantly neutrophils, DCs, and MΦ in BAL) correlated to IL‐1β, with lung hyper‐inflammation and early fibrosis development. Conclusion: Systemic depletion of CD11c+ cells confers protection against inflammation and fibrosis induced by Bleomycin, underscoring the significance of myeloid cells expressing F4/80‐MHCII+CD11c+ DCs and F4/80 + MHCII+CD11c+ MΦ orchestrating the inflammatory milieu within the lungs, potentially as a source of cytokines sustaining pulmonary chronic inflammation leading to progressive fibrosis and mortality. [ABSTRACT FROM AUTHOR]

Published

2024

15. An enhanced intracellular delivery platform based on a distant diphtheria toxin homolog that evades pre-existing antitoxin antibodies.

Author

Gill, Shivneet K, Sugiman-Marangos, Seiji N, Beilhartz, Greg L, Mei, Elizabeth, Taipale, Mikko, and Melnyk, Roman A

Abstract

Targeted intracellular delivery of therapeutic proteins remains a significant unmet challenge in biotechnology. A promising approach is to leverage the intrinsic capabilities of bacterial toxins like diphtheria toxin (DT) to deliver a potent cytotoxic enzyme into cells with an associated membrane translocation moiety. Despite showing promising clinical efficacy, widespread deployment of DT-based therapeutics is complicated by the prevalence of pre-existing antibodies in the general population arising from childhood DT toxoid vaccinations, which impact the exposure, efficacy, and safety of these potent molecules. Here, we describe the discovery and characterization of a distant DT homolog from the ancient reptile pathogen Austwickia chelonae that we have dubbed chelona toxin (ACT). We show that ACT is comparable to DT structure and function in all respects except that it is not recognized by pre-existing anti-DT antibodies circulating in human sera. Furthermore, we demonstrate that ACT delivers heterologous therapeutic cargos into target cells more efficiently than DT. Our findings highlight ACT as a promising new chassis for building next-generation immunotoxins and targeted delivery platforms with improved pharmacokinetic and pharmacodynamic properties. Synopsis: Pre-existing antibodies against diphtheria toxin (DT) from childhood vaccinations limit the efficacy and widespread use of DT-based immunotoxins. A toxin platform retaining the structural and functional features of DT but not recognized by pre-existing antibodies in human sera was developed. Distant DT homologs (ACT1 and ACT2) derived from the reptile pathogen Austwickia chelonae were found to have functional translocases and catalytic domains. ACT toxins evade recognition by pre-existing antibodies to DT in human sera, showing antibody titers below the limit of quantification. Engineered ACT-based immunotoxins retargeted to cancer-associated receptors killed receptor positive cancer cells. ACT could represent promising alternative immunotoxin platform for cancer therapy with improved pharmacokinetic and pharmacodynamic properties. Pre-existing antibodies against diphtheria toxin (DT) from childhood vaccinations limit the efficacy and widespread use of DT-based immunotoxins. A toxin platform retaining the structural and functional features of DT but not recognized by pre-existing antibodies in human sera was developed. [ABSTRACT FROM AUTHOR]

Published

2024

16. Repurposing FDA-approved disulfiram for targeted inhibition of diphtheria toxin and the binary protein toxins of Clostridium botulinum and Bacillus anthracis.

Author

Borho, Joscha, Kögel, Merle, Eckert, Amelie, and Barth, Holger

Subjects

BOTULINUM toxin, BOTULINUM A toxins, DIPHTHERIA toxin, PATHOGENIC bacteria, BACILLUS anthracis, TOXINS, BACTERIAL toxins

Abstract

Many bacteria act pathogenic by the release of AB-type protein toxins that efficiently enter human or animal cells and act as enzymes in their cytosol. This leads to disturbed cell functions and the clinical symptoms characteristic for the individual toxin. Therefore, molecules that directly target and neutralize these toxins provide promising novel therapeutic options. Here, we found that the FDA-approved drug disulfiram (DSF), used for decades to treat alcohol abuse, protects cells from intoxication with diphtheria toxin (DT) from Corynebacterium diphtheria, the causative agent of diphtheria, lethal toxin (LT) from Bacillus anthracis, which contributes to anthrax, and C2 enterotoxin from Clostridium botulinum when applied in concentrations lower than those found in plasma of patients receiving standard DSF treatment for alcoholism (up to 20 µM). Moreover, this inhibitory effect is increased by copper, a known enhancer of DSF activity. LT and C2 are binary toxins, consisting of two non-linked proteins, an enzyme (A) and a separate binding/transport (B) subunit. To act cytotoxic, their proteolytically activated B subunits PA63 and C2IIa, respectively, form barrelshaped heptamers that bind to their cellular receptors and form complexes with their respective A subunits LF and C2I. The toxin complexes are internalized via receptor-mediated endocytosis and in acidified endosomes, PA63 and C2IIa form pores in endosomal membranes, which facilitate translocation of LF and C2I into the cytosol, where they act cytotoxic. In DT, A and B subunits are located within one protein, but DT also forms pores in endosomes that facilitate translocation of the A subunit. If cell binding, membrane translocation, or substrate modification is inhibited, cells are protected from intoxication. Our results implicate that DSF neither affects cellular binding nor the catalytic activity of the investigated toxins to a relevant extend, but interferes with the toxin pore-mediated translocation of the A subunits of DT, LT and C2 toxin, as demonstrated by membranetranslocation assays and toxin pore conductivity experiments in the presence or absence of DSF. Since toxin translocation across intracellular membranes represents a central step during cellular uptake of many bacterial toxins, DSF might neutralize a broad spectrum of medically relevant toxins. [ABSTRACT FROM AUTHOR]

Published

2024

17. 成年期视皮层神经元数量减少降低突触连接.

Author

蓝志达, 王兆龙, 谢先屿, 赵乐文, and 方伟群

Subjects

*PYRAMIDAL neurons, *VISUAL cortex, *BRAIN injuries, *DIPHTHERIA toxin, *VISION, *DENDRITIC spines

Abstract

Exploring the relationship between neuronal loss in adult visual cortex and its consequential changes in synaptic connection provides experimental evidence to elucidate impaired visual function upon traumatic brain injury. The primary visual cortex (V1) of 8-week-old C57BL/6 mice was sparsely infected with adeno-associated viruses (AAVs) encoding diphtheria toxin A (DTA) to induce neuronal apoptosis. Neuronal number and dendritic spine morphology of surviving pyramidal neurons in layers 2-4 of visual cortex were analyzed using immunofluorescence staining, Golgi staining and confocal microscopy after four weeks post-injection. Through stereotactic injection of different titers (E+11-13) of DTA-expressing viruses, mouse models were generated with various levels of neuronal loss (by 14~85%) in the adult visual cortex. The results revealed that low-titer (E+11) DTA-expressing AAV led to moderate reduction of neuronal number (by~18%, P＜0.01), mimicking the level of neuronal loss in patients with mild traumatic brain injury (16.5~2.9%). In this DTA group, while dendritic spine density of pyramidal neurons did not change in comparison to the control group, the proportion of mature spines reduced by ~19% (P＜0.0001). Neuronal loss in adult visual cortex impaired synaptic connection and probably compromised visual function in the brain. [ABSTRACT FROM AUTHOR]

Published

2024

18. Lactate-Induced HBEGF Shedding and EGFR Activation: Paving the Way to a New Anticancer Therapeutic Opportunity.

Author

Rossi, Valentina, Hochkoeppler, Alejandro, Govoni, Marzia, and Di Stefano, Giuseppina

Subjects

*PROTEIN precursors, *DIPHTHERIA toxin, *CELL metabolism, *EPIDERMAL growth factor receptors, *CANCER cells

Abstract

Cancer cells can release EGF-like peptides, acquiring the capacity of autocrine stimulation via EGFR-mediated signaling. One of these peptides (HBEGF) was found to be released from a membrane-bound precursor protein and is critically implicated in the proliferative potential of cancer cells. We observed that the increased lactate levels characterizing neoplastic tissues can induce the release of uPA, a protease promoting HBEGF shedding. This effect led to EGFR activation and increased ERK1/2 phosphorylation. Since EGFR-mediated signaling potentiates glycolytic metabolism, this phenomenon can induce a self-sustaining deleterious loop, favoring tumor growth. A well characterized HBEGF inhibitor is CRM197, a single-site variant of diphtheria toxin. We observed that, when administered individually, CRM197 did not trigger evident antineoplastic effects. However, its association with a uPA inhibitor caused dampening of EGFR-mediated signaling and apoptosis induction. Overall, our study highlights that the increased glycolytic metabolism and lactate production can foster the activated state of EGFR receptor and suggests that the inhibition of EGFR-mediated signaling can be attempted by means of CRM197 administered with an appropriate protease inhibitor. This attempt could help in overcoming the problem of the acquired resistance to the conventionally used EGFR inhibitors. [ABSTRACT FROM AUTHOR]

Published

2024

19. Mapping C. difficile TcdB interactions with host cell-surface and intracellular factors using proximity-dependent biotinylation labeling

Author

Jennifer S. Ward, Karl J. Schreiber, John Tam, Ji-Young Youn, and Roman A. Melnyk

Subjects

toxin, BioID, C. difficile, diphtheria toxin, receptor, biotin, Microbiology, QR1-502

Abstract

ABSTRACT Many bacterial toxins exert their cytotoxic effects by enzymatically inactivating one or more cytosolic targets in host cells. To reach their intracellular targets, these toxins possess functional domains or subdomains that interact with and exploit various host factors and biological processes. Despite great progress in identifying many of the key host factors involved in the uptake of toxins, significant knowledge gaps remain as to how partially characterized and newly discovered microbial toxins exploit host factors or processes to intoxicate target cells. Proximity-dependent biotinylation (e.g., BioID) is a powerful method to identify nearby host factors in living cells, offering the potential to identify host targets of microbial toxins. Here, we used BioID to interrogate proximal interactors of the multi-domain Clostridioides difficile TcdB toxin. Expressed fusions of TurboID to different fragments of TcdB identified several high-confidence proteins in the cytosol, including members of the Rho GTPase signaling network and the actin cytoskeletal network. Additionally, we developed an extracellular proximity labeling method using recombinant TurboID-toxin chimeras, which uncovered a limited number of cell-surface targets including LRP1, which was previously identified as a cell-surface receptor of TcdB. Our work reveals surface receptors and intracellular components exploited by bacterial toxins, highlighting key vulnerabilities in host cells.IMPORTANCEBacterial toxins are the causative agents of many human diseases. Further characterizing the intoxication mechanisms of these proteins is important for the development of vaccines and treatments for toxin-mediated disease. Proximity-dependent biotinylation approaches offer an orthogonal approach to complement genetic screens. Here, we evaluate the potential of this method to identify host-toxin interactions on the cell surface and in the cytosol, where the toxin modifies essential host targets. Critically, we have highlighted several limitations of this method as applied to protein toxins, which are important for researchers to weigh when considering this technique for exotoxin studies.

Published

2025

20. An enhanced intracellular delivery platform based on a distant diphtheria toxin homolog that evades pre-existing antitoxin antibodies

Author

Shivneet K Gill, Seiji N Sugiman-Marangos, Greg L Beilhartz, Elizabeth Mei, Mikko Taipale, and Roman A Melnyk

Subjects

Immunotoxin, Intracellular Delivery, Diphtheria Toxin, Chelona Toxin, Antidrug Antibodies, Medicine (General), R5-920, Genetics, QH426-470

Abstract

Abstract Targeted intracellular delivery of therapeutic proteins remains a significant unmet challenge in biotechnology. A promising approach is to leverage the intrinsic capabilities of bacterial toxins like diphtheria toxin (DT) to deliver a potent cytotoxic enzyme into cells with an associated membrane translocation moiety. Despite showing promising clinical efficacy, widespread deployment of DT-based therapeutics is complicated by the prevalence of pre-existing antibodies in the general population arising from childhood DT toxoid vaccinations, which impact the exposure, efficacy, and safety of these potent molecules. Here, we describe the discovery and characterization of a distant DT homolog from the ancient reptile pathogen Austwickia chelonae that we have dubbed chelona toxin (ACT). We show that ACT is comparable to DT structure and function in all respects except that it is not recognized by pre-existing anti-DT antibodies circulating in human sera. Furthermore, we demonstrate that ACT delivers heterologous therapeutic cargos into target cells more efficiently than DT. Our findings highlight ACT as a promising new chassis for building next-generation immunotoxins and targeted delivery platforms with improved pharmacokinetic and pharmacodynamic properties.

Published

2024

21. Presence of fetal microchimerisms in the heart and effect on cardiac repair.

Author

Llorente, Vicente, López-Olañeta, Marina, Blázquez-López, Elena, Vázquez-Ogando, Elena, Martínez-García, Magdalena, Vaquero, Javier, Carmona, Susana, Desco, Manuel, Lara-Pezzi, Enrique, and Gómez-Gaviro, María Victoria

Subjects

FETAL heart, MYOCARDIAL infarction, DIPHTHERIA toxin, CARDIAC contraction, CELL migration

Abstract

Multiple complex biological processes take place during pregnancy, including the migration of fetal cells to maternal circulation and their subsequent engraftment in maternal tissues, where they form microchimerisms. Fetal microchimerisms have been identified in several tissues; nevertheless, their functional role remains largely unknown. Different reports suggest these cells contribute to tissue repair and modulate the immune response, but they have also been associated with pre-eclampsia and tumor formation. In the maternal heart, cells of fetal origin can contribute to different cell lineages after myocardial infarction. However, the functional role of these cells and their effect on cardiac function and repair are unknown. In this work, we found that microchimerisms of fetal origin are present in the maternal circulation and graft in the heart. To determine their functional role, WT female mice were crossed with male mice expressing the diphtheria toxin (DT) receptor. Mothers were treated with DT to eliminate microchimerisms and the response to myocardial infarction was investigated. We found that removal of microchimerisms improved cardiac contraction in postpartum and post-infarction model females compared to untreated mice, where DT administration had no significant effects. These results suggest that microchimerisms play a detrimental role in the mother following myocardial infarction. [ABSTRACT FROM AUTHOR]

Published

2024

22. A Newly Developed Anti-L1CAM Monoclonal Antibody Targets Small Cell Lung Carcinoma Cells.

Author

Yamaguchi, Miki, Hirai, Sachie, Idogawa, Masashi, Sumi, Toshiyuki, Uchida, Hiroaki, and Sakuma, Yuji

Subjects

*CELL adhesion molecules, *SMALL cell lung cancer, *DIPHTHERIA toxin, *SMALL cell carcinoma, *RECOMBINANT proteins, *MONOCLONAL antibodies

Abstract

Few effective treatments are available for small cell lung cancer (SCLC), indicating the need to explore new therapeutic options. Here, we focus on an antibody–drug conjugate (ADC) targeting the L1 cell adhesion molecule (L1CAM). Several publicly available databases reveal that (1) L1CAM is expressed at higher levels in SCLC cell lines and tissues than in those of lung adenocarcinoma and (2) the expression levels of L1CAM are slightly higher in SCLC tissues than in adjacent normal tissues. We conducted a series of in vitro experiments using an anti-L1CAM monoclonal antibody (termed HSL175, developed in-house) and the recombinant protein DT3C, which consists of diphtheria toxin lacking the receptor-binding domain but containing the C1, C2, and C3 domains of streptococcal protein G. Our HSL175-DT3C conjugates theoretically kill cells only when the conjugates are internalized by the target (L1CAM-positive) cells through antigen–antibody interaction. The conjugates (an ADC analog) were effective against two SCLC-N (NEUROD1 dominant) cell lines, Lu-135 and STC-1, resulting in decreased viability. In addition, L1CAM silencing rendered the two cell lines resistant to HSL175-DT3C conjugates. These findings suggest that an ADC consisting of a humanized monoclonal antibody based on HSL175 and a potent anticancer drug would be effective against SCLC-N cells. [ABSTRACT FROM AUTHOR]

Published

2024

23. Ablation of Projection Glutamatergic Neurons in the Lateral Cerebellar Nuclei Alters Motor Coordination in Vglut2-Cre+ Mice.

Author

Asemi-Rad, Azam, Ghiyamihoor, Farshid, Consalez, G. Giacomo, and Marzban, Hassan

Subjects

*CEREBELLAR nuclei, *MOTOR ability, *CENTRAL nervous system, *DIPHTHERIA toxin, *CEREBELLAR cortex

Abstract

Cerebellar nuclei (CN) constitute the sole cerebellar output to the rest of the central nervous system and play a central role in cerebellar circuits. Accumulating evidence from both human genetics and animal studies point to a crucial role for CN connectivity in neurological diseases, including several types of ataxia. However, because of the compact and restricted topography and close functional connection between the CN and the cerebellar cortex, identifying cerebellar deficits exclusively linked to CN is challenging. In this study, we have experimentally ablated large projection glutamatergic neurons of the lateral CN and evaluated the impact of this selective manipulation on motor coordination in mice. To this end, through stereotaxic surgery, we injected the lateral CN of Vglut2-Cre+ mice with an adeno-associated virus (AAV) encoding a Cre-dependent diphtheria toxin receptor (DTR), followed by an intraperitoneal injection of diphtheria toxin (DT) to ablate the glutamatergic neurons of the lateral nucleus. Double immunostaining of cerebellar sections with anti-SMI32 and -GFP antibodies revealed GFP expression and provided evidence of SMI32+ neuron degeneration at the site of AAV injection in the lateral nucleus of Vglut2-Cre+ mice. No changes were observed in Vglut2-Cre negative mice. Analysis of motor coordination by rotarod test indicated that the latency to fall was significantly different before and after AAV/DT injection in the Vglut2-Cre+ group. Elapsed time and number of steps in the beam walking test were significantly higher in AAV/DT injected Vglut2-Cre+ AAV/DT mice compared to controls. We demonstrate for the first time that partial degeneration of glutamatergic neurons in the lateral CN is sufficient to induce an ataxic phenotype. [ABSTRACT FROM AUTHOR]

Published

2024

24. Retrospective Study of Infections with Corynebacterium diphtheriae Species Complex, French Guiana, 2016-2021.

Author

Gaillet, Mélanie, Hennart, Mélanie, Rose, Vincent Sainte, Badell, Edgar, Michaud, Céline, Blaizot, Romain, Demar, Magalie, Carvalho, Luisiane, François Carod, Jean, Andrieu, Audrey, Djossou, Félix, Toubiana, Julie, Epelboin, Loic, and Brisse, Sylvain

Subjects

*DIPHTHERIA toxin, *CORYNEBACTERIUM, *CONSCIOUSNESS raising, *RETROSPECTIVE studies, *SPECIES, *BURULI ulcer, *Q fever

Abstract

Human infections with Corynebacterium diphtheriae species complex (CdSC) bacteria were rare in French Guiana until 2016, when the number of cases diagnosed increased. We conducted an epidemiologic, multicenter, retrospective study of all human CdSC infections diagnosed in French Guiana during January 1, 2016-December 31, 2021. A total of 64 infectious episodes were observed in 60 patients; 61 infections were caused by C. diphtheriae and 3 by C. ulcerans. Estimated incidence increased from 0.7 cases/100,000 population in 2016 to 7.7 cases/100,000 population in 2021. The mean patient age was 30.4 (+23.7) years, and male-to-female ratio was 1.7:1 (38/22). Of the 61 C. diphtheriae isolates, 5 tested positive for the diphtheria toxin gene, and all results were negative by Elek test; 95% (61/64) of cases were cutaneous, including the C. ulcerans cases. The increase in reported human infections underscores the need to raise awareness among frontline healthcare practitioners to improve prevention. [ABSTRACT FROM AUTHOR]

Published

2024

25. Tagraxofusp, a first‐in‐class CD123‐targeted agent: Five‐year postapproval comprehensive review of the literature.

Author

Jen, Wei‐Ying, Konopleva, Marina, and Pemmaraju, Naveen

Subjects

*DIPHTHERIA toxin, *HEMATOLOGIC malignancies, *ACUTE myeloid leukemia, *DENDRITIC cells, *PRELEUKEMIA

Abstract

Tagraxofusp is a first‐in‐class CD123‐directed conjugate of an amended diphtheria toxin platform and recombinant interleukin 3. Binding and subsequent internalization of the drug result in cell death via disruption of intracellular protein synthesis. CD123 is a surface marker that is expressed in several hematological malignancies, especially blastic plasmacytoid dendritic cell neoplasm (BPDCN), where its expression is ubiquitous. A pivotal study of tagraxofusp in BPDCN resulted in its approval for the treatment of BPDCN, the first treatment approved for this indication. Since the introduction of tagraxofusp, research has focused on the management of adverse effects, combination therapy to improve outcomes in fit patients, and dosing and combination strategies to mitigate toxicities while preserving efficacy, especially among older patients. The successful targeting of CD123 in BPDCN has also encouraged research into a variety of other CD123‐positive hematological neoplasms, including acute myeloid leukemia (AML), and informed the development of other novel agents targeting CD123. This review examines the clinical data leading to the development and approval of tagraxofusp in BPDCN, how it is being used in combination to improve outcomes in BPDCN and AML, and its developing role in other hematological malignancies. Tagraxofusp is a first‐in‐class CD123‐directed immunotherapy for blastic plasmacytoid dendritic cell neoplasm. This review outlines the studies leading to its approval, how it is being used in combination and in other hematological malignancies, and novel CD123‐directed therapies. [ABSTRACT FROM AUTHOR]

Published

2024

26. Foxp3+ Treg control allergic skin inflammation by restricting IFN-γ-driven neutrophilic infiltration and NETosis.

Author

Tong, Xinjie, Kim, Sung Hee, Che, Lihua, Park, Jeyun, Lee, Joohee, and Kim, Tae-Gyun

Subjects

*SKIN inflammation, *AUTOIMMUNE diseases, *REGULATORY T cells, *PYODERMA gangrenosum, *DIPHTHERIA toxin, *ATOPIC dermatitis, *SKIN diseases

Abstract

Atopic dermatitis (AD), a chronic inflammatory skin disease with T cell activation as a key feature, in which Th2 cell–mediated responses play a pivotal role. Regulatory T cells (Treg) are central immune cells that restrict autoimmunity and inflammation in the body. Patients with immune dysregulation, polyendocrinopathy, or enteropathy X-linked syndrome, an immune disease characterized by a deficiency in Treg, develop skin inflammation and allergic disorders, indicating that Treg play a crucial role in the development of allergic skin inflammation. we investigated the underlying mechanisms by which Treg control cutaneous allergic inflammation. An allergic skin inflammation mouse model was constructed using MC903, and Treg-depleted mouse model was constructed using diphtheria toxin. Neutralization of IFN-γ was constructed using anti-mouse-IFN-γ mouse antibody. Neutrophil infiltration was analyzed by flow cytometry and immunohistochemistry. Neutrophil extracellular traps (NETs), a process called NETosis, were detected using immunofluorescence. In vitro neutrophil stimulation and immunocytochemistry was conducted to demonstrate the effect of IFN-γ on NETosis. The depletion of Foxp3+ Treg led to significantly exacerbated AD-like skin inflammation, including increased recruitment of neutrophils and expression of Th1 cytokine IFN-γ. Neutrophil infiltrating in skin of Treg-depleted mice released more NETs than wild type. Neutralization of IFN-γ abolished neutrophil infiltration and NETosis in Treg-depleted mice. Neutrophils stimulated with IFN-γ were more prone to release NETs in vitro. Finally, Foxp3+ Treg control cutaneous allergic inflammation by regulating IFN-γ-driven neutrophilic infiltration and NETosis. Our results highlight the previously underestimated Treg-IFN-γ-neutrophil inflammatory axis. [Display omitted] ● Depletion of Treg exacerbates MC903-induced allergic skin inflammation. ● Neutrophil infiltration and NETosis were detected in Treg-depleted mice during allergic skin inflammation. ● Neutralization of IFN-γ abolished aggravated inflammation in Treg-depleted mice. ● IFN-γ is sufficient to induce NETosis in vitro. [ABSTRACT FROM AUTHOR]

Published

2024

27. Bioinformatic development of a recombinant trivalent synthetic protein construct using PTXa, Tox, and TetX toxins as a DTP vaccine candidate.

Author

Salahi, Z., Noofeli, M., Ranjbar, M. M., Bagheri, M., Esmaelizad, M., and Niakan, M.

Subjects

TETANUS toxin, DIPHTHERIA toxin, SYNTHETIC proteins, DPT vaccines, BORDETELLA pertussis

Abstract

Traditionally, diphtheria-tetanus-pertussis (DTwP or DTaP) as pediatric vaccines are produced from the corresponding inactivated toxins or whole -cell pathogenic bacteria of Corynebacterium diphtheria toxin (Tox), Clostridium tetani toxin (TetX) and Bordetella pertussis. There are major concerns in the classic or acellular DTP (DTaP) vaccine production processes from native live bacterial sources as it may raise concerns on adverse effects and safety issues, complexity of the purifications for each agent as well as cost. Here, we designated a recombinant multi-epitope vaccine candidates by vaccinoinformatics study to address the mentioned issues and to develop a single trivalent fusion protein as a potent recombinant DTP vaccine. To achieve these goals, stages of immunebioinformatics were retrieved using proteinaceous toxins sequences, predicting secondary/tertiary structure and transmembrane topology, energy minimization, and model validation. Then, conformational and linear Bcell epitope prediction by several servers, mapping of consensus linear/discontinuous immunogenic regions and construction synthetic fusion vaccine candidates in respect to optimal immunogenic, physicochemical properties and high expression in prokaryote host were achieved. Finally, reverse translation, codon optimization, addition of cloning tags for pet 28a vector and optimization of physicochemical properties of synthetic trivalent fusion protein were performed. Through various hybrid immuno-informatics and structural bioinformatics analysis of predicted and experimental epitopes finally, 12 new consensus highly immunogenic linear and discontinuous epitopes in Tox, TetX and PTXa proteins were selected. The peptide sequences of these immunogenic regions were as follows: PTXA (AA34-64, AA184-256 and AA98-116), Tox (AA47-76, AA117-159, AA515- 557 and AA245-265) and TetX (AA226-249, AA819-844, AA923-967, AA1009-1067 and AA1225-1315). In addition, the characteristics of the recombinant trivalent fusion construct were; 546 residue length, soluble (Grand average of hydropathicity (GRAVY) was -0.475), estimated half-life was >10 hours in Escherichia coli, pI 5.94 (a little acidic), stable protein (The instability index (II) 35.58) as well as thermally stable (Aliphatic index (AI) 71.67). The putative antigenic epitopes from different organisms in a single protein, as in the current study, will possibly improve the protective efficacy as novel potent, safe, cheap and broad-spectrum vaccines for better prevention of diphtheria, tetanus and pertussis infections in the future. [ABSTRACT FROM AUTHOR]

Published

2024

28. Single-cell analysis reveals a subpopulation of adipose progenitor cells that impairs glucose homeostasis.

Author

Wang, Hongdong, Du, Yanhua, Huang, Shanshan, Sun, Xitai, Ye, Youqiong, Sun, Haixiang, Chu, Xuehui, Shan, Xiaodong, Yuan, Yue, Shen, Lei, and Bi, Yan

Subjects

FAT cells, PROGENITOR cells, HOMEOSTASIS, DIPHTHERIA toxin, ADIPOSE tissues, LIPOLYSIS, TOXINS

Abstract

Adipose progenitor cells (APCs) are heterogeneous stromal cells and help to maintain metabolic homeostasis. However, the influence of obesity on human APC heterogeneity and the role of APC subpopulations on regulating glucose homeostasis remain unknown. Here, we find that APCs in human visceral adipose tissue contain four subsets. The composition and functionality of APCs are altered in patients with type 2 diabetes (T2D). CD9+CD55low APCs are the subset which is significantly increased in T2D patients. Transplantation of these cells from T2D patients into adipose tissue causes glycemic disturbance. Mechanistically, CD9+CD55low APCs promote T2D development through producing bioactive proteins to form a detrimental niche, leading to upregulation of adipocyte lipolysis. Depletion of pathogenic APCs by inducing intracellular diphtheria toxin A expression or using a hunter-killer peptide improves obesity-related glycemic disturbance. Collectively, our data provide deeper insights in human APC functionality and highlights APCs as a potential therapeutic target to combat T2D. All mice utilized in this study are male. Adipose tissue harbors functionally distinct progenitor cell subsets. Using scRNAseq and functional assays, we disclose a pathogenic adipose progenitor subset, which impairs glycose homeostasis through the construction of a detrimental niche. [ABSTRACT FROM AUTHOR]

Published

2024

29. Manganese‐dependent transcription regulation by MntR and PerR in Thermus thermophilusHB8.

Author

Barrows, John K., Stubbs, Kamya A., Padilla‐Montoya, Irina F., Leeper, Thomas C., and Van Dyke, Michael W.

Subjects

*GENETIC transcription regulation, *TRANSCRIPTION factors, *GENE expression, *DIPHTHERIA toxin, *NUCLEOTIDE sequence, *CONOTOXINS, *ORGANIC cation transporters, *HISTIDINE

Abstract

Bacteria contain conserved mechanisms to control the intracellular levels of metal ions. Metalloregulatory transcription factors bind metal cations and play a central role in regulating gene expression of metal transporters. Often, these transcription factors regulate transcription by binding to a specific DNA sequence in the promoter region of target genes. Understanding the preferred DNA‐binding sequence for transcriptional regulators can help uncover novel gene targets and provide insight into the biological role of the transcription factor in the host organism. Here, we identify consensus DNA‐binding sequences and subsequent transcription regulatory networks for two metalloregulators from the ferric uptake regulator (FUR) and diphtheria toxin repressor (DtxR) superfamilies in Thermus thermophilus HB8. By homology search, we classify the DtxR homolog as a manganese‐specific, MntR (TtMntR), and the FUR homolog as a peroxide‐sensing, PerR (TtPerR). Both transcription factors repress separate ZIP transporter genes in vivo, and TtPerR acts as a bifunctional transcription regulator by activating the expression of ferric and hemin transport systems. We show TtPerR and TtMntR bind DNA in the presence of manganese in vitro and in vivo; however, TtPerR is unable to bind DNA in the presence of iron, likely due to iron‐mediated histidine oxidation. Unlike canonical PerR homologs, TtPerR does not appear to contribute to peroxide detoxification. Instead, the TtPerR regulon and DNA binding sequence are more reminiscent of Fur or Mur homologs. Collectively, these results highlight the similarities and differences between two metalloregulatory superfamilies and underscore the interplay of manganese and iron in transcription factor regulation. [ABSTRACT FROM AUTHOR]

Published

2024

30. CAFs-Associated Genes (CAFGs) in Pancreatic Ductal Adenocarcinoma (PDAC) and Novel Therapeutic Strategy.

Author

Yamashita, Keishi and Kumamoto, Yusuke

Subjects

*PANCREATIC duct, *CYTOTOXIC T cells, *DIPHTHERIA toxin, *ADENOCARCINOMA, *GENES

Abstract

Pancreatic ductal adenocarcinoma (PDAC) is the most aggressive cancer with striking fibrosis, and its mortality rate is ranked second across human cancers. Cancer-associated fibroblasts (CAFs) play a critical role in PDAC progression, and we reviewed the molecular understanding of PDAC CAFs and novel therapeutic potential at present. CAFs-associated genes (CAFGs) were tentatively classified into three categories by stroma specificity representing stroma/epithelia expression ratios (SE ratios). The recent classification using single cell transcriptome technology clarified that CAFs were composed of myofibroblasts (myCAFs), inflammatory CAFs (iCAFs), and other minor ones (e.g., POSTN-CAFs and antigen presenting CAFs, apCAFs). LRRC15 is a myCAFs marker, and myCAFs depletion by diphtheria toxin induces the rapid accumulation of cytotoxic T lymphocytes (CTLs) and therefore augment PDL1 antibody treatments. This finding proposes that myCAFs may be a critical regulator of tumor immunity in terms of PDAC progression. myCAFs are located in CAFs adjacent to tumor cells, while iCAFs marked by PDPN and/or COL14A1 are distant from tumor cells, where hypoxic and acidic environments being located in iCAFs putatively due to poor blood supply is consistent with HIF1A and GPR68 expressions. iCAFs may be shared with SASP (secretion-associated phenotypes) in senescent CAFs. myCAFs are classically characterized by CAFGs induced by TGFB1, while chemoresistant CAFs with SASP may dependent on IL6 expression and accompanied by STAT3 activation. Recently, it was found that the unique metabolism of CAFs can be targeted to prevent PDAC progression, where PDAC cells utilize glucose, whereas CAFs in turn utilize lactate, which may be epigenetically regulated, mediated by its target genes including CXCR4. In summary, CAFs have unique molecular characteristics, which have been rigorously clarified as novel therapeutic targets of PDAC progression. [ABSTRACT FROM AUTHOR]

Published

2024

31. Challenges of Diphtheria Toxin Detection.

Author

Prygiel, Marta, Mosiej, Ewa, Polak, Maciej, Krysztopa-Grzybowska, Katarzyna, Wdowiak, Karol, Formińska, Kamila, and Zasada, Aleksandra A.

Subjects

*DIPHTHERIA toxin, *DIPHTHERIA, *POINT-of-care testing, *COMMUNICABLE diseases, *CORYNEBACTERIUM

Abstract

Diphtheria toxin (DT) is the main virulence factor of Corynebacterium diphtheriae, C. ulcerans and C. pseudotuberculosis. Moreover, new Corynebacterium species with the potential to produce diphtheria toxin have also been described. Therefore, the detection of the toxin is the most important test in the microbiological diagnosis of diphtheria and other corynebacteria infections. Since the first demonstration in 1888 that DT is a major virulence factor of C. diphtheriae, responsible for the systemic manifestation of the disease, various methods for DT detection have been developed, but the diagnostic usefulness of most of them has not been confirmed on a sufficiently large group of samples. Despite substantial progress in the science and diagnostics of infectious diseases, the Elek test is still the basic recommended diagnostic test for DT detection. The challenge here is the poor availability of an antitoxin and declining experience even in reference laboratories due to the low prevalence of diphtheria in developed countries. However, recent and very promising assays have been developed with the potential for use as rapid point-of-care testing (POCT), such as ICS and LFIA for toxin detection, LAMP for tox gene detection, and biosensors for both. [ABSTRACT FROM AUTHOR]

Published

2024

32. Keratin 19 (Krt19) is a novel marker gene for epicardial cells.

Author

Juan Xu, Yiting Deng, and Guang Li

Subjects

KERATIN, DIPHTHERIA toxin, GENE expression, HEART development, FETAL heart

Abstract

Epicardial cells regulate heart growth by secreting numerous growth factors and undergoing lineage specification into other cardiac lineages. However, the lack of specificmarker genes for epicardial cells has hindered the understanding of this cell type in heart development. Through the analysis of a cardiac single cell mRNA sequencing dataset, we identified a novel epicardial gene named Keratin 19 (Krt19). Further analysis of the expression patterns of Krt19 and Wt1, a well-known epicardial gene, revealed their preferences in major cardiac cell types. Using lineage-tracing analysis, we analyzed Krt19-CreER labeled cells at multiple time windows and found that it labels epicardial cells at both embryonic and neonatal stages. Furthermore, we studied the function of epicardial cells using a diphtheria toxin A chain (DTA)-based cell ablation system. We discovered that Krt19-CreER labeled cells are essential for fetal heart development. Finally, we investigated the function of Krt19-CreER and Wt1-CreER labeled cells in neonatal mouse development. We observed that the Krt19-CreER; Rosa-DTA mice displayed a smaller size after tamoxifen treatment, suggesting the potential importance of Krt19-CreER labeled cells in neonatal mouse development. Additionally, we found that Wt1-CreER; Rosa-DTA mice died at early stages, likely due to defects in the kidney and spleen. In summary, we have identified Krt19 as a new epicardial cell marker gene and further explored the function of epicardial cells using the Krt19-CreER and Wt1-CreER-mediated DTA ablation system. [ABSTRACT FROM AUTHOR]

Published

2024

33. Neutralizing anti-diphtheria toxin scFv produced by phage display.

Author

Khalili, Ehsan, Lakzaei, Mostafa, and Aminian, Mahdi

Subjects

DIPHTHERIA toxin, RECOMBINANT antibodies, MOLECULAR cloning, AFFINITY chromatography, DIPHTHERIA, TOXINS, BACTERIOPHAGES

Abstract

Background: Diphtheria can be prevented by vaccination, but some epidemics occur in several places, and diphtheria's threat is considerable. Administration of diphtheria antitoxin (DAT) produced from hyperimmunized animals is the most common treatment. Recombinant human antibody fragments such as single-chain variable fragments (scFv) produced by phage display library may introduce an interesting approach to overcome the limitations of the traditional antibody therapy. In the present study, B cells of immunized volunteers were used to construct a human single-chain fragment (HuscFv) library. Materials and methods: The library was constructed with the maximum combination of heavy and light chains. As an antigen, Diphtheria toxoid (DTd) was used in four-round phage bio-panning to select phage clones that display DTd bound HuscFv from the library. After panning, individual scFv clones were selected. Clones that were able to detect DTd in an initial screening assay were transferred to Escherichia coli HB2151 to express the scFvs and purification was followed by Ni metal ion affinity chromatography. Toxin neutralization test was performed on Vero cells. The reactivity of the soluble scFv with diphtheria toxin were done and affinity calculation based on Beatty method was calculated. Results: The size of the constructed scFv library was calculated to be 1.3 × 106 members. Following four rounds of selection, 40 antibody clones were isolated which showed positive reactivity with DTd in an ELISA assay. Five clones were able to neutralize DTd in Vero cell assay. These neutralizing clones were used for soluble expression and purification of scFv fragments. Some of these soluble scFv fragments show neutralizing activity ranging from 0.6 to 1.2 µg against twofold cytotoxic dose of diphtheria toxin. The affinity constant of the selected scFv antibody was determined almost 107 M−1. Conclusion: This study describes the prosperous construction and isolation of scFv from the immune library, which specifically neutralizes diphtheria toxin. The HuscFv produced in this study can be a potential candidate to substitute the animal antibody for treating diphtheria and detecting toxins. [ABSTRACT FROM AUTHOR]

Published

2024

34. Repurposing FDA-approved disulfiram for targeted inhibition of diphtheria toxin and the binary protein toxins of Clostridium botulinum and Bacillus anthracis

Author

Joscha Borho, Merle Kögel, Amelie Eckert, and Holger Barth

Subjects

anthrax toxin, Bacillus anthracis, binary C2 toxin, Clostridium botulinum, diphtheria toxin, disulfiram, Therapeutics. Pharmacology, RM1-950

Abstract

Many bacteria act pathogenic by the release of AB-type protein toxins that efficiently enter human or animal cells and act as enzymes in their cytosol. This leads to disturbed cell functions and the clinical symptoms characteristic for the individual toxin. Therefore, molecules that directly target and neutralize these toxins provide promising novel therapeutic options. Here, we found that the FDA-approved drug disulfiram (DSF), used for decades to treat alcohol abuse, protects cells from intoxication with diphtheria toxin (DT) from Corynebacterium diphtheria, the causative agent of diphtheria, lethal toxin (LT) from Bacillus anthracis, which contributes to anthrax, and C2 enterotoxin from Clostridium botulinum when applied in concentrations lower than those found in plasma of patients receiving standard DSF treatment for alcoholism (up to 20 µM). Moreover, this inhibitory effect is increased by copper, a known enhancer of DSF activity. LT and C2 are binary toxins, consisting of two non-linked proteins, an enzyme (A) and a separate binding/transport (B) subunit. To act cytotoxic, their proteolytically activated B subunits PA63 and C2IIa, respectively, form barrel-shaped heptamers that bind to their cellular receptors and form complexes with their respective A subunits LF and C2I. The toxin complexes are internalized via receptor-mediated endocytosis and in acidified endosomes, PA63 and C2IIa form pores in endosomal membranes, which facilitate translocation of LF and C2I into the cytosol, where they act cytotoxic. In DT, A and B subunits are located within one protein, but DT also forms pores in endosomes that facilitate translocation of the A subunit. If cell binding, membrane translocation, or substrate modification is inhibited, cells are protected from intoxication. Our results implicate that DSF neither affects cellular binding nor the catalytic activity of the investigated toxins to a relevant extend, but interferes with the toxin pore-mediated translocation of the A subunits of DT, LT and C2 toxin, as demonstrated by membrane-translocation assays and toxin pore conductivity experiments in the presence or absence of DSF. Since toxin translocation across intracellular membranes represents a central step during cellular uptake of many bacterial toxins, DSF might neutralize a broad spectrum of medically relevant toxins.

Published

2024

35. A cryptic oxidoreductase safeguards oxidative protein folding in Corynebacterium diphtheriae.

Author

Reardon-Robinson, Melissa, Nguyen, Minh, Sanchez, Belkys, Osipiuk, Jerzy, Rückert, Christian, Chang, Chungyu, Chen, Bo, Nagvekar, Rahul, Joachimiak, Andrzej, Tauch, Andreas, Das, Asis, and Ton-That, Hung

Subjects

Corynebacterium diphtheriae, diphtheria toxin, disulfide bond, gram-positive bacteria, pili, Bacterial Proteins, Corynebacterium diphtheriae, Oxidative Stress, Protein Disulfide Reductase (Glutathione), Protein Folding

Abstract

In many gram-positive Actinobacteria, including Actinomyces oris and Corynebacterium matruchotii, the conserved thiol-disulfide oxidoreductase MdbA that catalyzes oxidative folding of exported proteins is essential for bacterial viability by an unidentified mechanism. Intriguingly, in Corynebacterium diphtheriae, the deletion of mdbA blocks cell growth only at 37 °C but not at 30 °C, suggesting the presence of alternative oxidoreductase enzyme(s). By isolating spontaneous thermotolerant revertants of the mdbA mutant at 37 °C, we obtained genetic suppressors, all mapped to a single T-to-G mutation within the promoter region of tsdA, causing its elevated expression. Strikingly, increased expression of tsdA-via suppressor mutations or a constitutive promoter-rescues the pilus assembly and toxin production defects of this mutant, hence compensating for the loss of mdbA. Structural, genetic, and biochemical analyses demonstrated TsdA is a membrane-tethered thiol-disulfide oxidoreductase with a conserved CxxC motif that can substitute for MdbA in mediating oxidative folding of pilin and toxin substrates. Together with our observation that tsdA expression is upregulated at nonpermissive temperature (40 °C) in wild-type cells, we posit that TsdA has evolved as a compensatory thiol-disulfide oxidoreductase that safeguards oxidative protein folding in C. diphtheriae against thermal stress.

Published

2023

36. Astrogliosis in the GFAP-Cre ERT2 :Rosa26 iDTR Mouse Model Does Not Exacerbate Retinal Microglia Activation or Müller Cell Gliosis under Hypoxic Conditions.

Author

Rorex, Colin, Cardona, Sandra M., Church, Kaira A., Rodriguez, Derek, Vanegas, Difernando, Saldivar, Reina, Faz, Brianna, and Cardona, Astrid E.

Subjects

*MICROGLIA, *GLIOSIS, *LABORATORY mice, *DIPHTHERIA toxin, *NEUROGLIA, *RETROLENTAL fibroplasia

Abstract

Diabetic retinopathy (DR) affects over 140 million people globally. The mechanisms that lead to blindness are still enigmatic but there is evidence that sustained inflammation and hypoxia contribute to vascular damage. Despite efforts to understand the role of inflammation and microglia in DR's pathology, the contribution of astrocytes to hypoxic responses is less clear. To investigate the role of astrocytes in hypoxia-induced retinopathy, we utilized a 7-day systemic hypoxia model using the GFAP-CreERT2:Rosa26iDTR transgenic mouse line. This allows for the induction of inflammatory reactive astrogliosis following tamoxifen and diphtheria toxin administration. We hypothesize that DTx-induced astrogliosis is neuroprotective during hypoxia-induced retinopathy. Glial, neuronal, and vascular responses were quantified using immunostaining, with antibodies against GFAP, vimentin, IBA-1, NeuN, fibrinogen, and CD31. Cytokine responses were measured in both the brain and serum. We report that while both DTx and hypoxia induced a phenotype of reduced microglia morphological activation, DTx, but not hypoxia, induced an increase in the Müller glia marker vimentin. We did not observe that the combination of DTx and hypoxic treatments exacerbated the signs of reactive glial cells, nor did we observe a significant change in the expression immunomodulatory mediators IL-1β, IL2, IL-4, IL-5, IL-6, IL-10, IL-18, CCL17, TGF-β1, GM-CSF, TNF-α, and IFN-γ. Overall, our results suggest that, in this hypoxia model, reactive astrogliosis does not alter the inflammatory responses or cause vascular damage in the retina. [ABSTRACT FROM AUTHOR]

Published

2024

37. Immunogenicity and safety of adsorbed diphtheria-purified pertussis-tetanus-inactivated polio (Sabin strain)-Haemophilus type b conjugate combined vaccine (DPT-IPV-Hib) in healthy Japanese Infants ≥ 2 and < 43 months of Age: A phase III, multicenter, active controlled, assessor-blinded, randomized, parallel-group study

Author

Nakano, Takashi, Hasegawa, Masumi, Endo, Mai, Matsuda, Keiko, and Tamai, Hoshio

Subjects

*JAPANESE people, *COMBINED vaccines, *POLIO, *WHOOPING cough, *IMMUNE response, *BOOSTER vaccines, *DIPHTHERIA toxin

Abstract

• The development of 5-combined vaccine and others is of high priority in Japan. • The first vaccination of DPT-IPV should be given concomitantly with the Hib vaccine. • Gobik is the first DPT-IPV-Hib pentavalent vaccine approved in Japan. • Gobik simultaneously provide primary and booster immunizations as a single agent. This study investigated the immunogenicity and safety of a pentavalent vaccine Gobik (DPT-IPV- Haemophilus influenzae type b [Hib]) in healthy Japanese infants aged ≥ 2 and < 43 months using a concomitant vaccination with ActHIB® (Hib) and Tetrabik (DPT-IPV) as a comparator. This study was conducted as a phase 3, multicenter, active controlled, assessor-blinded, randomized, parallel-group study. Participants received a total of 4 subcutaneous doses (3 primary immunization doses and a booster dose) of either the experimental drug (DPT-IPV-Hib) or the active comparator (Hib + DPT-IPV). The primary endpoints were the anti-PRP antibody prevalence rate with ≥ 1 μg/mL, and the antibody prevalence rates against pertussis, diphtheria toxin, tetanus toxin, and attenuated poliovirus after the primary immunization. In 267 randomized participants (133 in the DPT-IPV-Hib group and 134 in the Hib + DPT-IPV group), the antibody prevalence rates after the primary immunization in both groups were 100.0 % and 88.7 % for anti-PRP antibody with ≥ 1 μg/mL, 99.2 % and 98.5 % against diphtheria toxin, and 100.0 % and 99.2 % against tetanus toxin, respectively. The antibody prevalence rates against pertussis and attenuated poliovirus were 100.0 % in both groups. The non-inferiority of the DPT-IPV-Hib group to the Hib + DPT-IPV group was verified for all measured antibodies. In both groups, all the GMTs of antibodies after the primary immunization were higher than those before the first dose, and those after the booster dose were higher than those after the primary immunization. No safety issues were identified. A single-agent Gobik, the first DPT-IPV-Hib pentavalent vaccine approved in Japan, was confirmed to simultaneously provide primary and booster immunizations against Hib infection, pertussis, diphtheria, tetanus, and poliomyelitis and to have a preventive effect and safety comparable to concomitant vaccination with Hib (ActHIB®) and DPT-IPV quadrivalent vaccine (Tetrabik). [ABSTRACT FROM AUTHOR]

Published

2024

38. The Evaluation of the N-cadherin Promoter’s ability to Block EMT by Specific Expression of Diphtheria Toxin in EMT-induced A549 Cell Lines.

Author

Mehmandoostli, Zohreh, Ashkezari, Mahmood Dehghani, Seifati, Seyed Morteza, Sadeghi, Vida, Falak, Reza, and Kardar, Gholam Ali

Subjects

*DIPHTHERIA toxin, *CADHERINS, *GENE expression, *EPITHELIAL-mesenchymal transition, *CELL lines, *CYTOTOXINS

Abstract

During epithelial to mesenchymal transition, the ability of cancer cells to transform and metastasize is primarily determined by N-cadherin-mediated migration and invasion. This study aimed to evaluate whether the N-cadherin promoter can induce diphtheria toxin expression as a suicide gene in epithelial to mesenchymal transition (EMT)-induced cancer cells and whether this can be used as potential gene therapy. To investigate the expression of diphtheria toxin under the N-cadherin promoter, the promoter was synthesized, and was cloned upstream of diphtheria toxin in a pGL3-Basic vector. The A-549 cells was transfected by electroporation. After induction of EMT by TGF-β and hypoxia treatment, the relative expression of diphtheria toxin, mesenchymal genes such as N-cadherin and Vimentin, and epithelial genes such as E-cadherin and β-catenin were measured by real-time PCR. MTT assay was also performed to measure cytotoxicity. Finally, cell motility was assessed by the Scratch test. After induction of EMT in transfected cells, the expression of mesenchymal markers such as Vimentin and N-cadherin significantly decreased, and the expression of β-catenin increased. In addition, the MTT assay showed promising toxicity results after induction of EMT with TGF-β in transfected cells, but toxicity was less effective in hypoxia. The scratch test results also showed that cell movement was successfully prevented in EMT-transfected cells and thus confirmed EMT occlusion. Our findings indicate that by using structures containing diphtheria toxin downstream of a specific EMT promoter such as the N-cadherin promoter, the introduced toxin can kill specifically and block EMT in cancer cells. [ABSTRACT FROM AUTHOR]

Published

2024

39. Effects of Vaccination against Recombinant FSH or LH Receptor Subunits on Gonadal Development and Functioning Male Rats.

Author

Pan, Fuqiang, Fu, Wanzhen, Zhang, Bochao, Han, Mengdi, Xie, Huihui, Yi, Qing, Qian, Wei, Cui, Jiankun, Cao, Meng, Li, Yanqiuhong, Jia, Yuke, Fang, Fugui, Ling, Yinghui, Li, Yunsheng, and Liu, Ya

Subjects

LUTEINIZING hormone receptors, SPRAGUE Dawley rats, RATS, DIPHTHERIA toxin, TESTIS physiology, MALE livestock

Abstract

Simple Summary: Castration benefits the management of male livestock and improves their meat quality. Immunocastration is more convenient and aligns with animal welfare, compared to surgical castration. In this study, two subunit vaccines were designed by fusing the conserved antigenic epitopes of porcine FSHR and LHR with the T-helper epitope region of the diphtheria toxin (DTT) and validated in male Sprague Dawley rats. The results showed that both vaccines induced antibody production in rats to some extent, inhibited testicular development, and reduced testicular function. Luteinizing hormone (LH) and follicle-stimulating hormone (FSH) play key roles in regulating testosterone secretion and spermatogenesis in male mammals, respectively, and they maintain the fertility of male animals by binding to their corresponding receptors. We designed and prepared a recombinant LH receptor (LHR) subunit vaccine and a recombinant FSH receptor (FSHR) subunit vaccine and used male Sprague Dawley (SD) rats as a model to examine their effects on testicular development, spermatogenesis, and testosterone secretion in prepubertal and pubertal mammals. Both vaccines (LHR-DTT and FSHR-DTT) significantly decreased the serum testosterone level in prepubertal rats (p < 0.05) but had no effect on the testosterone secretion in pubertal rats; both vaccines decreased the number of cell layers in the seminiferous tubules and reduced spermatogenesis in prepubertal and pubertal rats. Subunit vaccine FSHR-DTT decreased the sperm density in the epididymis in both prepubertal and pubertal rats (p < 0.01) and lowered testicular index and sperm motility in pubertal rats (p < 0.05), whereas LHR-DTT only reduced the sperm density in the epididymis in pubertal rats (p < 0.05). These results indicate that the FSHR subunit vaccine may be a promising approach for immunocastration, but it still needs improvements in effectiveness. [ABSTRACT FROM AUTHOR]

Published

2024

40. Sensorineural correlates of failed functional recovery after natural regeneration of vestibular hair cells in adult mice.

Author

Jáuregui, Emmanuel J., Scheinman, Kelli L., Mejia, Ingrid K. Bibriesca, Pruett, Lindsay, Zaini, Hannah, Finkbeiner, Connor, Phillips, Jonathan A., Gantz, Jay A., Bui Nguyen, Tot, Phillips, James O., and Stone, Jennifer S.

Subjects

HAIR cells, REGENERATION (Biology), DIPHTHERIA toxin, MASTOID process, VESTIBULO-ocular reflex, VESTIBULAR stimulation

Abstract

Vestibular hair cells (HCs) are mechanoreceptors that sense head motions by modulating the firing rate of vestibular ganglion neurons (VGNs), whose central processes project to vestibular nucleus neurons (VNNs) and cerebellar neurons. We explored vestibular function after HC destruction in adult Pou4f3+/DTR (DTR) mice, in which injections of high-dose (50 ng/g) diphtheria toxin (DT) destroyed most vestibular HCs within 2 weeks. At that time, DTR mice had lost the horizontal vestibulo-ocular reflex (aVORH), and their VNNs failed to upregulate nuclear cFos expression in response to a vestibular stimulus (centrifugation). Five months later, 21 and 14% of HCs were regenerated in utricles and horizontal ampullae, respectively. The vast majority of HCs present were type II. This degree of HC regeneration did not restore the aVORH or centrifugation-evoked cFos expression in VNNs. The failure to regain vestibular pathway function was not due to degeneration of VGNs or VNNs because normal neuron numbers were maintained after HC destruction. Furthermore, sinusoidal galvanic stimulation at the mastoid process evoked cFos protein expression in VNNs, indicating that VGNs were able to regulate VNN activity after HC loss. aVORH and cFos responses in VNNs were robust after low-dose (25 ng/g) DT, which compared to high-dose DT resulted in a similar degree of type II HC death and regeneration but spared more type I HCs in both organs. These findings demonstrate that having more type I HCs is correlated with stronger responses to vestibular stimulation and suggest that regenerating type I HCs may improve vestibular function after HC loss. [ABSTRACT FROM AUTHOR]

Published

2024

41. Pastern dermatitis outbreak associated with toxigenic and non‐toxigenic Corynebacterium diphtheriae and non‐toxigenic Corynebacterium ulcerans at a horse stable in Finland, 2021.

Author

Grönthal, Thomas Sven Christer, Lehto, Anna Karoliina, Aarnio, Sanna Sofia, Eskola, Eva Katarina, Aimo‐Koivisto, Elina Marjaana, Karlsson, Teemu, Koskinen, Heli Irmeli, Barkoff, Alex‐Mikael, He, Qiushui, Lienemann, Taru, Rimhanen‐Finne, Ruska, and Mykkänen, Anna

Subjects

*CORYNEBACTERIUM, *MEDICAL microbiology, *WHOLE genome sequencing, *VETERINARY medicine, *HORSES

Abstract

Aims: Corynebacterium diphtheriae and Corynebacterium ulcerans, when producing toxin, are the cause of diphtheria, a potentially life‐threatening illness in humans. Horses (Equus ferus caballus) are known to be susceptible to infection that may manifest clinically on rare occasions. In late 2021 and early 2022, specimens from five horses suffering from pastern dermatitis were cultured at the Laboratory of Clinical Microbiology at the Faculty of Veterinary Medicine, University of Helsinki, Finland. C. diphtheriae and/or C. ulcerans were recovered from all of these. This study aimed to (1) analyse the bacterial isolates and (2) describe the outbreak and identify possible sources of the infection and infection routes in the stable. Methods and Results: Susceptibility testing, PCR for the tox gene, and Elek test for toxin production in PCR‐positive isolates were performed. Whole genome sequencing was also conducted to achieve high‐resolution strain typing. An epidemiological survey was done by means of a semi‐structured interview of horses' caretaker, and contact tracing was done among people at the stable. Two tox gene‐positive, toxin‐producing C. diphtheriae belonged to sequence type (ST) 822. Other C. diphtheriae (n = 2, ST828) and C. ulcerans (n = 2, ST325 and ST838) isolates did not carry the tox gene. The epidemiological investigation explored numerous possible routes of transmission, but the definite source of infection was not identified. All established human contacts tested negative for diphtheriae. All horses recovered after antimicrobial treatment. Conclusions: Our study shows that C. diphtheriae and C. ulcerans may readily spread among horses at the same stable and complicate pastern dermatitis infections. These potentially zoonotic bacteria can cause outbreaks even in a country with a very low prevalence. Caretakers should be encouraged to wear gloves and practice good hand hygiene when treating infected skin lesions in horses. [ABSTRACT FROM AUTHOR]

Published

2024

42. Potent and selective eradication of tumor cells by an EpCAM-targeted Ras-degrading enzyme

Author

Valentina Palacio-Castañeda, Bas van de Crommert, Elke Verploegen, Mike Overeem, Jenny van Oostrum, and Wouter P.R. Verdurmen

Subjects

designed ankyrin repeat protein, diphtheria toxin, epithelial cell adhesion molecule, Pseudomonas aeruginosa exotoxin A, Ras-Rap1-specific endopeptidase, tumor-specific targeting, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Despite decades of efforts, an urgent need remains to develop tumor cell-selective rat sarcoma (Ras)-targeting therapies that can treat patients with Ras-driven tumors. Here we report modular engineered proteins that degrade Ras selectively in tumor cells that overexpress the tumor cell marker epithelial cell adhesion molecule (EpCAM) by fusing the Ras degrader Ras-Rap1-specific endopeptidase with the translocation domain of the Pseudomonas aeruginosa exotoxin A (ETA) or diphtheria toxin (DT). Redirection to EpCAM is achieved by a designed ankyrin repeat protein. In two-dimensional tumor cell cultures, complete degradation of Ras proteins after 24 h was observed with EpCAM-targeted Ras degraders fused to ETA or DT in EpCAM-overexpressing MCF7 and HCT116 cells, with median inhibition concentration values at sub-nanomolar levels. The viability of EpCAM-low non-cancerous fibroblasts remained unaffected. In a three-dimensional (3D) tumor-on-a-chip system that mimics the natural tumor microenvironment, effective Ras degradation and selective toxicity toward tumor cells, particularly with the ETA-fused constructs, was determined on-chip. To conclude, we demonstrate the potential of modular engineered proteins to kill tumor cells highly selectively by simultaneously exploiting EpCAM as a tumor-specific cell surface molecule as well as Ras as an intracellular oncotarget in a 3D system mimicking the natural tumor microenvironment.

Published

2023

43. Nav1.8-expressing neurons control daily oscillations of food intake, body weight and gut microbiota in mice.

Author

Bullich-Vilarrubias, Clara, Romaní-Pérez, Marina, López-Almela, Inmaculada, Rubio, Teresa, García, Carlos J., Tomás-Barberán, Francisco A., and Sanz, Yolanda

Subjects

*SODIUM channels, *FOOD consumption, *GUT microbiome, *BODY weight, *DIPHTHERIA toxin, *NEURONS, *SENSORY neurons

Abstract

Recent evidence suggests a role of sensory neurons expressing the sodium channel Nav1.8 on the energy homeostasis control. Using a murine diphtheria toxin ablation strategy and ad libitum and time-restricted feeding regimens of control or high-fat high-sugar diets, here we further explore the function of these neurons on food intake and on the regulation of gastrointestinal elements transmitting immune and nutrient sensing. The Nav1.8+ neuron ablation increases food intake in ad libitum and time-restricted feeding, and exacerbates daily body weight variations. Mice lacking Nav1.8+ neurons show impaired prandial regulation of gut hormone secretion and gut microbiota composition, and altered intestinal immunity. Our study demonstrates that Nav1.8+ neurons are required to control food intake and daily body weight changes, as well as to maintain physiological enteroendocrine and immune responses and the rhythmicity of the gut microbiota, which highlights the potential of Nav1.8+ neurons to restore energy balance in metabolic disorders. Using a murine diphtheria toxin ablation strategy, we have depleted afferent neurons expressing the Nav1.8 sodium channel and unravelled their functions in the control of energy homeostasis, highlighting their potential to address metabolic disorders. [ABSTRACT FROM AUTHOR]

Published

2024

44. Diphtheria Toxoid Particles as Q Fever Vaccine.

Author

Sam, Gayathri, Chen, Shuxiong, Plain, Karren, Marsh, Ian, Westman, Mark E., Stenos, John, Graves, Stephen R., and Rehm, Bernd H. A.

Subjects

*Q fever, *DIPHTHERIA toxin, *DIPHTHERIA, *COXIELLA burnetii, *VACCINES

Abstract

There is an unmet need for a stable and nonreactogenic vaccine against the bioterrorism agent, Coxiella burnetii, causing Q fever. Here a safe, effective, and non‐reactogenic Q fever vaccine is developed by employing self‐assembled particles (CPs) composed of cross‐reacting material 197, a nontoxic variant of diphtheria toxin. CPs are designed that incorporate selected C. burnetii antigens and assemble them inside engineered Escherichia coli at high yields. A cost‐effective manufacturing process enables the production of CP‐based Q fever vaccine candidates. Four vaccine candidates are developed, including a T‐cell epitope‐based vaccine (CP‐COX), and one that comprises two immunodominant antigens, Com1 and YbgF. The latter is tested separately (CP‐Com1, CP‐YbgF) or as a mixture (CP‐Com1/CP‐YbgF). Initial immunogenicity studies in mice reveal that the mixed CP‐Com1/YbgF elicits the highest antibody titers with a half maximal effective concentration (EC50) value of ≈100 000 and induction of TH1 and TH2 cytokines. CP‐Com1/YbgF is further evaluated in guinea pigs, demonstrating its safety and efficacy, as shown by the absence of adverse reactions and a significant reduction in febrile responses compared to alum upon challenge with C. burnetii. Together, the study shows the potential of CPs for the development of a safe and immunogenic subunit Q fever vaccine. [ABSTRACT FROM AUTHOR]

Published

2024

45. Diphthamide – a conserved modification of eEF2 with clinical relevance.

Author

Schaffrath, Raffael and Brinkmann, Ulrich

Subjects

*DIPHTHERIA toxin, *BACTERIAL toxins, *POST-translational modification, *DELETION mutation, *DRUG target, *PATHOGENIC bacteria

Abstract

Diphthamide is a conserved post-translational modification of the essential eukaryotic translation elongation factor 2 (eEF2). It assures translational frame accuracy, and its absence increases translational frameshifts. The enzymes and pathways for diphthamide synthesis are conserved from yeast to man, in eukaryotes and archaea, yet absent in bacteria. Diphthamide is the molecular target of ADP-ribosylating toxins from bacterial pathogens including Corynebacterium diphtheriae and Pseudomonas aeruginosa. Deletions or promoter mutations of diphthamide synthesis genes are associated with cancer. Homozygous or compound heterozygous mutations that compromise diphthamide synthesis enzymes can cause diphthamide deficiency syndrome. Diphthamide-dependent reading frame maintenance limits –1 programmed ribosomal frameshifts (−1PRFs). −1PRF is necessary to generate proteins that are needed for propagation of HIV and SARS-CoV-2. Some −1PRF-dependent viruses target diphthamide synthesis enzymes for degradation. Diphthamide, a complex modification on eukaryotic translation elongation factor 2 (eEF2), assures reading-frame fidelity during translation. Diphthamide and enzymes for its synthesis are conserved in eukaryotes and archaea. Originally identified as target for diphtheria toxin (DT) in humans, its clinical relevance now proves to be broader than the link to pathogenic bacteria. Diphthamide synthesis enzymes (DPH1 and DPH3) are associated with cancer, and DPH gene mutations can cause diphthamide deficiency syndrome (DDS). Finally, new analyses provide evidence that diphthamide may restrict propagation of viruses including SARS-CoV-2 and HIV-1, and that DPH enzymes are targeted by viruses for degradation to overcome this restriction. This review describes how diphthamide is synthesized and functions in translation, and covers its clinical relevance in human development, cancer, and infectious diseases. [ABSTRACT FROM AUTHOR]

Published

2024

46. Genetic Ablation of Dentate Hilar Somatostatin-Positive GABAergic Interneurons is Sufficient to Induce Cognitive Impairment.

Author

Nagarajan, Rajasekar, Lyu, Jinrui, Kambali, Maltesh, Wang, Muxiao, Courtney, Connor D., Christian-Hinman, Catherine A., and Rudolph, Uwe

Abstract

Aging is often associated with a decline in cognitive function. A reduction in the number of somatostatin-positive (SOM+) interneurons in the dentate gyrus (DG) has been described in cognitively impaired but not in unimpaired aged rodents. However, it remains unclear whether the reduction in SOM + interneurons in the DG hilus is causal for age-related cognitive dysfunction. We hypothesized that hilar SOM+ interneurons play an essential role in maintaining cognitive function and that a reduction in the number of hilar SOM + interneurons might be sufficient to induce cognitive dysfunction. Hilar SOM+ interneurons were ablated by expressing a diphtheria toxin transgene specifically in these interneurons, which resulted in a reduction in the number of SOM+ /GAD-67+ neurons and dendritic spine density in the DG. C-fos and Iba-1 immunostainings were increased in DG and CA3, but not CA1, and BDNF protein expression in the hippocampus was decreased. Behavioral testing showed a reduced recognition index in the novel object recognition test, decreased alternations in the Y maze test, and longer latencies and path lengths in the learning and reversal learning phases of the Morris water maze. Our results show that partial genetic ablation of SOM+ hilar interneurons is sufficient to increase activity in DG and CA3, as has been described to occur with aging and to induce an impairment of learning and memory functions. Thus, partial ablation of hilar SOM + interneurons may be a significant contributing factor to age-related cognitive dysfunction. These mice may also be useful as a cellularly defined model of hippocampal aging. [ABSTRACT FROM AUTHOR]

Published

2024

47. Balance Between Projecting Neuronal Populations of the Nucleus Accumbens Controls Social Behavior in Mice.

Author

Le Merrer, Julie, Detraux, Bérangère, Gandía, Jorge, De Groote, Aurélie, Fonteneau, Mathieu, de Kerchove d'Exaerde, Alban, and Becker, Jérôme A.J.

Subjects

*MOTOR learning, *SOCIAL control, *REWARD (Psychology), *DIPHTHERIA toxin, *NUCLEUS accumbens, *NEUROBEHAVIORAL disorders, *ANIMAL social behavior, *DOPAMINE receptors

Abstract

Deficient social interactions are a hallmark of major neuropsychiatric disorders, and accumulating evidence points to altered social reward and motivation as key underlying mechanisms of these pathologies. In the present study, we further explored the role of the balance of activity between D 1 and D 2 receptor–expressing striatal projection neurons (D1R- and D2R-SPNs) in the control of social behavior, challenging the hypothesis that excessive D2R-SPN activity, rather than deficient D1R-SPN activity, compromises social behavior. We selectively ablated D1R- and D2R-SPNs using an inducible diphtheria toxin receptor–mediated cell targeting strategy and assessed social behavior as well as repetitive/perseverative behavior, motor function, and anxiety levels. We tested the effects of optogenetic stimulation of D2R-SPNs in the nucleus accumbens (NAc) and pharmacological compounds repressing D2R-SPN. Targeted deletion of D1R-SPNs in the NAc blunted social behavior in mice, facilitated motor skill learning, and increased anxiety levels. These behaviors were normalized by pharmacological inhibition of D2R-SPN, which also repressed transcription in the efferent nucleus, the ventral pallidum. Ablation of D1R-SPNs in the dorsal striatum had no impact on social behavior but impaired motor skill learning and decreased anxiety levels. Deletion of D2R-SPNs in the NAc produced motor stereotypies but facilitated social behavior and impaired motor skill learning. We mimicked excessive D2R-SPN activity by optically stimulating D2R-SPNs in the NAc and observed a severe deficit in social interaction that was prevented by D2R-SPN pharmacological inhibition. Repressing D2R-SPN activity may represent a promising therapeutic strategy to relieve social deficits in neuropsychiatric disorders. [ABSTRACT FROM AUTHOR]

Published

2024

48. Tagraxofusp in myeloid malignancies.

Author

Bruzzese, Antonella, Martino, Enrica Antonia, Labanca, Caterina, Mendicino, Francesco, Lucia, Eugenio, Olivito, Virginia, Neri, Antonino, Imovilli, Annalisa, Morabito, Fortunato, Vigna, Ernesto, and Gentile, Massimo

Subjects

DIPHTHERIA toxin, RECOMBINANT molecules, INTERLEUKIN-3, ADP-ribosylation, DENDRITIC cells

Abstract

Tagraxofusp (or SL‐401) is a recombinant molecule composed of human interleukin‐3 that binds CD123 on neoplastic cells fused to a truncated diphtheria toxin (DT). Tagraxofusp's most significant success has come from studies involving patients with blastic plasmacytoid dendritic cell neoplasm (BPDCN), an aggressive disease that is usually refractory to conventional chemotherapy. Tagraxofusp had an acceptable safety profile and high efficacy in early phase I/II studies on patients with BPDCN. Another phase II study confirmed the good response rates, resulting in Food and Drugs Administration and European Medicine Agency approval of tagraxofusp for the treatment of BPDCN. Considering its high efficacy and its manageable safety profile, tagraxofusp has been suddenly explored in other myeloid malignancies with high expression of cell surface CD123, both in monotherapy or combination strategies. The triplet tagraxofusp‐azacytidine‐venetoclax appears to be of particular interest among these combinations. Furthermore, combination strategies may be used to overcome tagraxofusp resistance. The downregulation of DPH1 (diphthamide biosynthesis 1), the enzyme responsible for the conversion of histidine 715 on eEF2 to diphthamide, which is then the direct target of ADP ribosylation DT, is typically associated with this resistance phenomenon. It has been discovered that azacitidine can reverse DHP1 expression and restore sensitivity to tagraxofusp. In conclusion, the success of tagraxofusp in BPDCN paved the way for its application even in other CD123‐positive malignancies. Nowadays, several ongoing trials are exploring the use of tagraxofusp in different myeloid neoplasms. This review aims to summarize the actual role of tagraxofusp in BPDCN and other CD123‐positive myeloid malignancies. [ABSTRACT FROM AUTHOR]

Published

2024

49. Hosts and Heterologous Expression Strategies of Recombinant Toxins for Therapeutic Purposes.

Author

di Leandro, Luana, Colasante, Martina, Pitari, Giuseppina, and Ippoliti, Rodolfo

Subjects

*TOXINS, *DIPHTHERIA toxin, *BACTERIAL toxins, *ANTIBODY-toxin conjugates, *EXOTOXIN, *GENE therapy, *MELITTIN, *CHO cell

Abstract

The production of therapeutic recombinant toxins requires careful host cell selection. Bacteria, yeast, and mammalian cells are common choices, but no universal solution exists. Achieving the delicate balance in toxin production is crucial due to potential self-intoxication. Recombinant toxins from various sources find applications in antimicrobials, biotechnology, cancer drugs, and vaccines. "Toxin-based therapy" targets diseased cells using three strategies. Targeted cancer therapy, like antibody–toxin conjugates, fusion toxins, or "suicide gene therapy", can selectively eliminate cancer cells, leaving healthy cells unharmed. Notable toxins from various biological sources may be used as full-length toxins, as plant (saporin) or animal (melittin) toxins, or as isolated domains that are typical of bacterial toxins, including Pseudomonas Exotoxin A (PE) and diphtheria toxin (DT). This paper outlines toxin expression methods and system advantages and disadvantages, emphasizing host cell selection's critical role. [ABSTRACT FROM AUTHOR]

Published

2023

50. Depleting hypothalamic somatostatinergic neurons recapitulates diabetic phenotypes in mouse brain, bone marrow, adipose and retina.

Author

Huang, Chao, Rosencrans, Robert F, Bugescu, Raluca, Vieira, Cristiano P, Hu, Ping, Adu-Agyeiwaah, Yvonne, Gamble, Karen L, Longhini, Ana Leda F, Fuller, Patrick M, Leinninger, Gina M, and Grant, Maria B

Subjects

Brain, Hypothalamus, Neurons, Retina, Adipose Tissue, Bone Marrow, Animals, Mice, Inbred C57BL, Mice, Diabetes Mellitus, Type 2, Somatostatin, Diphtheria Toxin, Electroretinography, Flow Cytometry, Immunohistochemistry, Real-Time Polymerase Chain Reaction, Diabetes, Electroretinogram, Monocytosis, Neuroimmunology, Neurosciences, 2.1 Biological and endogenous factors, Aetiology, Metabolic and endocrine, Clinical Sciences, Paediatrics and Reproductive Medicine, Public Health and Health Services, Endocrinology & Metabolism

Abstract

Aims/hypothesisHypothalamic inflammation and sympathetic nervous system hyperactivity are hallmark features of the metabolic syndrome and type 2 diabetes. Hypothalamic inflammation may aggravate metabolic and immunological pathologies due to extensive sympathetic activation of peripheral tissues. Loss of somatostatinergic (SST) neurons may contribute to enhanced hypothalamic inflammation.MethodsThe present data show that leptin receptor-deficient (db/db) mice exhibit reduced hypothalamic SST neurons, particularly in the periventricular nucleus. We model this finding, using adeno-associated virus delivery of diphtheria toxin subunit A (DTA) driven by an SST-cre system to deplete these neurons in Sstcre/gfp mice (SST-DTA).ResultsSST-DTA mice exhibit enhanced hypothalamic c-Fos expression and brain inflammation as demonstrated by microglial and astrocytic activation. Bone marrow from SST-DTA mice undergoes skewed haematopoiesis, generating excess granulocyte-monocyte progenitors and increased proinflammatory (C-C chemokine receptor type 2; CCR2hi) monocytes. SST-DTA mice exhibited a 'diabetic retinopathy-like' phenotype: reduced visual function by optokinetic response (0.4 vs 0.25 cycles/degree; SST-DTA vs control mice); delayed electroretinogram oscillatory potentials; and increased percentages of retinal monocytes. Finally, mesenteric visceral adipose tissue from SST-DTA mice was resistant to catecholamine-induced lipolysis, displaying 50% reduction in isoprenaline (isoproterenol)-induced lipolysis compared with control littermates. Importantly, hyperglycaemia was not observed in SST-DTA mice.Conclusions/interpretationThe isolated reduction in hypothalamic SST neurons was able to recapitulate several hallmark features of type 2 diabetes in disease-relevant tissues.

Published

2021