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spaglumic acid (Alerbak / Naabak / Naaxia)

✓ Approved

Thea · 小分子 · 小分子

什么是 spaglumic acid?

spaglumic acid 是一种小分子,由Thea研发。该药已获批,用于治疗相关适应症,给药途径:Others、Topical。

药物档案

商品名Alerbak, Naabak, Naaxia
公司Thea
药物类别小分子
给药途径Others, Topical
状态Approved
来源: ClinicalTrials.gov, Thea

治疗适应症

spaglumic acid 针对 1 个适应症,涉及 1 个治疗领域。

治疗领域疾病/病症分期
Eye disordersConjunctivitis allergic✓ Approved

相关研究文献

PubMedJournal of food protection2026-06-13

Efficacy of Organic Acids to Control Listeria monocytogenes on Hard-Cooked Eggs during Refrigerated Storage.

Khouja Bashayer A BA, Zeng Hui H, Fay Megan L ML, Salazar Joelle K JK et al.

Peeled hard-cooked eggs (HCEs) are ready-to-eat foods susceptible to Listeria monocytogenes contamination during post-processing. A 2019 multistate listeriosis outbreak linked to HCEs treated with 0.3% citric acid highlighted the need for effective antimicrobial treatment. This study evaluated the efficacy of organic acid treatments (0.3% and 2% citric, and 2% acetic, lactic, and malic acids) at 5°C and 25°C against low-level contamination (1 log CFU/HCE) on HCEs during 28-day refrigerated storage (5°C). Two contamination scenarios were assessed: inoculation prior to acid treatment (simulating processing contamination) and inoculation after acid treatment (simulating post-treatment cross-contamination). For pre-treatment contamination, 2% acetic acid at 5°C achieved complete elimination of detectable L. monocytogenes by 3 d, while 2% malic acid demonstrated 0-1/9 positive samples from 7 to 28 days. In contrast, 0.3% citric acid and 2% lactic acid were least effective, maintaining ≥3/9 positive samples throughout storage. For post-treatment contamination, only 2% citric acid achieved elimination of detectable L. monocytogenes (by 14 days at 5°C and 7 days at 25°C). The pH of HCE components decreased significantly during treatment with the 2% organic acids, with 2% citric acid achieving the lowest albumen pH (3.13-3.69). These results demonstrate that organic acid effectiveness against L. monocytogenes on HCEs is dependent on acid type, concentration, and whether the contamination occurs pre- or post-processing. Data from this study can be used to better understand the survival of L. monocytogenes on HCEs treated with organic acids to ensure the safety of this food product.

PMID 42285358
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PubMedJournal of environmental science and health. Part. B, Pesticides, food contaminants, and agricultural wastes2026-06-13

Female reproductive toxicity induced by nitrate in drinking water and the comparative ameliorative effects of ascorbic acid, curcumin and their combination.

Sharma Mona M, Kaur Navdeep N

The reproductive toxicity of nitrate in juvenile and adult female rats, and its amelioration with ascorbic acid, curcumin or their combination, was studied. Rats were classified into five groups: control, nitrate, nitrate + ascorbic acid, nitrate + curcumin, and nitrate + ascorbic acid + curcumin. Nitrate at 250 mg/L drinking water and ascorbic acid and curcumin at 100 mg/kg body weight were provided to rats via oral gavage for 42 days. Results showed a significant increase in malondialdehyde (MDA) level and decreases in activity of superoxide dismutase (SOD) and catalase (CAT); level of estrogen, progesterone, luteinizing hormone (LH) and follicle-stimulating hormone (FSH) in all treated groups of juvenile and adult rats, except for the group given a combination of both antioxidants. Glutathione peroxidase (GPx) activity decreased in the nitrate group of these rats. The number of atretic follicles increased and follicular diameter decreased in the nitrate group of juvenile and adult rats. A similar trend was also observed in juvenile rats given nitrate with ascorbic acid individually. In conclusion, nitrate caused higher toxicity in the ovaries of juveniles compared to adults. However, negative effects were reversed by amelioration with ascorbic acid and curcumin together, followed by curcumin and ascorbic acid separately.

PMID 42285372
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PubMedEuropean journal of clinical nutrition2026-06-13

Evidence of docosahexaenoic acid deficiency in maple syrup urine disease: insights from plasma long-chain polyunsaturated fatty acid status.

Zubarioglu Tanyel T, Kasapçopur Özgür Ö, Akça-Yeşil Sedanur S, İşat Esra E et al.

Maple syrup urine disease (MSUD) is an inherited metabolic disorder requiring protein restriction, often limiting intake of animal-derived foods. This raises concerns about long-chain polyunsaturated fatty acid (LC-PUFA) status. The primary aim of this study is to evaluate plasma n-3 and n-6 fatty acid levels in MSUD patients. This single-center, cross-sectional study included 16 MSUD patients and 22 unaffected siblings sharing a similar household and environmental background. Dietary intake was recorded and plasma fatty acid profiles were analyzed. Dietary assessments revealed significantly lower intakes of total fat and cholesterol (both p < 0.001) and n-3 PUFAs (p = 0.036) in MSUD patients, with alpha-linolenic acid (ALA) intake as the only individual LC-PUFA significantly reduced (p = 0.048). Plasma analysis showed significantly lower docosahexaenoic acid (DHA) levels in patients despite similar dietary DHA intake (p < 0.001), while arachidonic acid and mead acid were significantly elevated (both p < 0.001). Although plasma DHA concentrations showed a moderate positive correlation with dietary ALA intake (r = 0.516, p = 0.041), regression analysis showed that neither dietary ALA intake (B = 0.005, p = 0.584) nor the dietary n-6/n-3 PUFA ratio (B = -0.552, p = 0.706) independently predicted plasma DHA levels. In the MSUD group, plasma DHA levels were positively associated with dietary leucine intake (r = 0.635, p = 0.008) and plasma isoleucine concentrations (r = 0.524, p = 0.037). Our findings provide evidence of DHA deficiency in MSUD patients, which may result from both inadequate dietary intake and changes in n-3 PUFA metabolism, highlighting the need to investigate additional contributing mechanisms.

PMID 42286106
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PubMedThe Journal of physiology2026-06-13

Amino acids partially override inhibitory effects of octreotide on islet hormone secretion in healthy individuals.

Reiche Josephine J, Richter Michael M MM, Kjeldsen Sasha A S SAS, Winther-Sørensen Marie M et al.

Hyperaminoacidaemia and hyperglucagonaemia are hallmarks of metabolic dysfunction-associated liver disease and type 2 diabetes. Amino acids potently stimulate glucagon secretion and can stimulate insulin secretion, although less potently than glucose. Endogenous somatostatin released from pancreatic δ-cells inhibits islet hormone output. It remains uncertain whether amino acid-induced stimulation can dominate pharmacological somatostatin receptor (SSTR) activation in humans. To address this we examined hormonal responses to intravenous amino acid infusion (Vamin) with and without concomitant infusion of the somatostatin analogue octreotide in 15 healthy individuals. Plasma glucagon, insulin and C-Peptide were measured during 45 min of amino acid infusion alone, during amino acid infusion combined with a 240‑min octreotide infusion and during octreotide infusion without amino acids. Octreotide alone suppressed glucagon and insulin concentrations by greater than 90% and reduced C‑Peptide by greater than 65%. In contrast amino acids alone significantly increased all three peptides. When amino acids and octreotide were co‑infused, the amino acid-driven elevations in glucagon, insulin and C‑Peptide were reduced to 49%, 43% and 78% of the levels achieved by amino acids alone. These findings demonstrate robust α‑ and β‑cell secretion during SSTR-2‑biased agonism despite profound baseline suppression, indicating partial 'breakthrough' secretion and suggesting that amino acid-driven stimulation can, in part, counteract SSTR‑mediated inhibition in humans. KEY POINTS: Amino acids strongly stimulate glucagon secretion in humans, whereas somatostatin receptor (SSTR) activation potently inhibits basal islet hormone release. During near-maximal suppression with the somatostatin analogue octreotide, amino acid infusion induced substantial 'breakthrough' secretion of glucagon, insulin and C-Peptide. Co-infusion of amino acids and octreotide reduced amino acid-stimulated responses to 49% (glucagon), 47% (insulin) and 78% (C-Peptide) of amino acids alone. Breakthrough secretion was not specific to α-cells, indicating that strong secretagogue stimulation can partially escape somatostatin-mediated inhibition for both α- and β-cells. These in vivo human data support a balance-of-signals model in which elevated amino acids can counteract, but not fully overcome, inhibitory SSTR activation. HIGHLIGHTS: We performed this study to determine why hyperglucagonaemia persists in metabolic diseases despite somatostatin's inhibitory role. We specifically evaluated whether amino acid-induced glucagon secretion can persist during pharmacological somatostatin receptor (SSTR) activation (octreotide) in humans. We found that amino acids strongly stimulated glucagon, insulin and C-Peptide secretion even during somatostatin infusion, reducing but not eliminating the hormonal responses. These findings imply that amino acid-driven stimulation can partially bypass inhibitory signalling downstream of SSTR activation, helping explain persistent glucagon elevation in metabolic disorders.

PMID 42285749
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PubMedPlant physiology and biochemistry : PPB2026-06-13

Pan-genome analysis of the P-type ATPase gene family in Prunus mume and functional characterization of PmAHA3 in organic acid accumulation.

Lin Ximeng X, Guo Siqi S, Yang Rui R, Xu Weichen W et al.

Organic acid accumulation is a key determinant of fruit flavor and processing quality in Prunus mume, yet its underlying molecular mechanisms remain poorly understood. P-type ATPases are membrane proteins that drive the active transport of ions and molecules via ATP hydrolysis and play important roles in organic acid accumulation However, their genome-wide features and functions in P. mume remain poorly understood. Here, 49 P-type ATPase genes were identified from the P. mume pan-genome, including 29 core, 6 near-core, 11 dispensable, and 3 private genes, and classified into six subfamilies. Dispersed and whole-genome duplication were the major force driving gene family expansion, and most genes experienced strong negative selection. Expression profiling identified the P3A-type gene PmAHA3 as highly expressed in fruit, with vacuolar membrane localization. Both transient RNAi silencing in fruit and CRISPR/Cas9 knockout in callus significantly reduced the contents of malic and citric acid, demonstrating their roles in organic acid accumulation. These results provide insight into the evolution and function of P-type ATPases, offering potential targets for improving fruit quality.

PMID 42284716
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PubMedFEMS microbiology letters2026-06-13

Fluorescent Protein Sensors Illuminate Cellular pH Changes in Enterobacter cloacae: Unravelling the Mechanisms of TolC-Dependent Acid Survival.

Chowdhury Sanchari S, Mohapatra Harapriya H

TolC is the outer membrane component of the tripartite RND efflux pump AcrAB-TolC. The underlying mechanism of TolC-dependent acid survival at physiological pH remains unclear. The present study aimed at understanding mechanism of TolC mediated acid survival in logarithmic phase culture of Enterobacter cloacae subsp. cloacae ATCC 13047 not preconditioned to acidic pH. Of the three distinct loci encoding tolC and tolC like proteins, only ECL_04363 (hereafter referred to as EctolC2) exhibited 86% identity with TolC protein from E. coli K12; deletion of which compromised survival at pH4.0. Tracking the periplasmic and cytoplasmic pH changes with fluorescent protein sensors indicated deletion of EctolC2 resulted in sustained cytoplasmic acidification and loss of pH homeostasis causing cell death. Exogenous supplementation of lysine significantly rescued acid induced lethality in EcΔtolC2 mutants. ΔmarRAB mutants exhibited slower death rate compared to Δrob mutants; underpinning role of the latter in upregulating EctolC2 at early time point of growth at pH4.0. Results of the study construe that EctolC2 provides reinforcement to the outer membrane preventing extreme acidification of the periplasm and thereby restoring cytoplasmic pH homeostasis. This study provides significant insight into mechanism of TolC dependent acid survival in E. cloacae.

PMID 42285540
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