5 results on '"Villarreal, Jaime"'
Search Results
2. Integrating socioeconomic and ecological data into restoration practice.
- Author
-
Villarreal‐Rosas, Jaramar, Brown, Christopher J., Andradi‐Brown, Dominic A., Domínguez, Ricardo, Jacobo, Pilar, Martínez, Anuar, Mascote, Coral, Najera, Eduardo, Paiz, Yves, Vázquez Moran, Víctor Hugo, Villarreal, Jaime, and Adame, María F.
- Subjects
RESTORATION ecology ,MANGROVE ecology ,ABSOLUTE sea level change ,BIOSPHERE reserves ,NONGOVERNMENTAL organizations ,SOCIAL accounting - Abstract
Copyright of Conservation Biology is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)
- Published
- 2024
- Full Text
- View/download PDF
3. Kinematic comparison of the use of walking sticks versus a rolling walker during gait in adult degenerative scoliosis patients
- Author
-
Haddas, Ram, Villarreal, Jaime, and Lieberman, Isador H.
- Abstract
Study design: A repeated-measurement, single-center, prospective study. Objective: To compare the spatiotemporal and kinematic data using gait analysis in adult degenerative scoliosis (ADS) patients using walking sticks (WS) versus rolling walkers (RW). Summary of background data: ADS patients undergo compensatory changes that can result in an altered gait pattern. RW are frequently prescribed, but result in a forward flexed kyphotic posture during ambulation. Gait using WS allows for more upright alignment in ADS patients. Methods: Fifty-three ADS patients with symptomatic degenerative scoliosis performed over-ground walking at self-selected speed with WS and with a RW. Trunk and lower extremity angles along with spatiotemporal parameters were measured and compared. Results: When using WS, patients exhibited less flexion at the head (WS: − 4.8° vs. RW: 11.0°, p= 0.001), and lumbar spine (WS: − 0.9° vs. RW: 4.2°, p= 0.001); while there was significantly more extension, of the cervical spine (WS: − 1.6° vs. RW: − 7.4°, p= 0.002) when using the RW. At the initial contact phase of gait, patients using WS showed decreased flexion at the ankle (WS 0.7° vs. RW: 3.8°, p= 0.018), knee (WS: 0.3° vs. RW: 4.8°, p= 0.001), hip (WS: 22.6° vs. RW: 27.3°, p= 0.001), and pelvis (WS: 10.2° vs. RW: 14.8°, p= 0.001). In contrast, the use of WS resulted in slower ambulation (WS: 0.6 m/s vs. RW: 0.7 m/s, p= 0.001). Conclusions: In ADS patients who have not undergone surgical correction, the use of WS resulted in a more upright posture, which may be more beneficial to the compensatory changes that lead to gait disturbance in ADS patients. Ambulation using WS resulted in slower gait versus a RW, due to the momentum induced by the forward flexed posture when using a RW. We recommend the use of WS for patients with ADS as it improves gait kinematics and may be a safer option.
- Published
- 2024
- Full Text
- View/download PDF
4. A common CTRB misfolding variant associated with pancreatic cancer risk causes ER stress and inflammation in mice.
- Author
-
Bodas C, Felipe I, Chanez B, Lafarga M, López de Maturana E, Martínez-de-Villarreal J, Del Pozo N, Malumbres M, Vargiu P, Cayuela A, Peset I, Connelly KE, Hoskins JW, Méndez R, Amundadottir LT, Malats N, Ortega S, and Real FX
- Abstract
Objective: Genome wide association studies have identified an exon 6 CTRB2 deletion variant that associates with increased risk of pancreatic cancer. To acquire evidence on its causal role, we developed a new mouse strain carrying an equivalent variant in Ctrb1 , the mouse orthologue of CTRB2 ., Design: We used CRISPR/Cas9 to introduce a 707bp deletion in Ctrb1 encompassing exon 6 ( Ctrb1
Δexon6 ). This mutation closely mimics the human deletion variant. Mice carrying the mutant allele were extensively profiled at 3 months to assess their phenotype., Results: Ctrb1Δexon6 mutant mice express a truncated CTRB1 that accumulates in the ER. The pancreas of homozygous mutant mice displays reduced chymotrypsin activity and total protein synthesis. The histological aspect of the pancreas is inconspicuous but ultrastructural analysis shows evidence of dramatic ER stress and cytoplasmic and nuclear inclusions. Transcriptomic analyses of the pancreas of mutant mice reveals acinar program down-regulation and increased activity of ER stress-related and inflammatory pathways. Heterozygous mice have an intermediate phenotype. Agr2 is one of the most up-regulated genes in mutant pancreata. Ctrb1Δexon6 mice exhibit impaired recovery from acute caerulein-induced pancreatitis. Administration of TUDCA or sulindac partially alleviates the phenotype. A transcriptomic signature derived from the mutant pancreata is significantly enriched in normal human pancreas of CTRB2 exon 6 deletion variant carriers from the GTEx cohort., Conclusions: This mouse strain provides formal evidence that the Ctrb1Δexon6 variant causes ER stress and inflammation in vivo , providing an excellent model to understand its contribution to pancreatic ductal adenocarcinoma development and to identify preventive strategies., Summary Box: What is already known about this subject?: - CTRB2 is one of the most abundant proteins produced by human pancreatic acinar cells. - A common exon 6 deletion variant in CTRB2 has been associated with an increased risk of pancreatic ductal adenocarcinoma. - Misfolding of digestive enzymes is associated with pancreatic pathology. What are the new findings?: - We developed a novel genetic model that recapitulates the human CTRB2 deletion variant in the mouse orthologue, Ctrb1 . - Truncated CTRB1 misfolds and accumulates in the ER; yet, mutant mice display a histologically normal pancreas at 3 months age.- CTRB1 and associated chaperones colocalize in the ER, the cytoplasm, and the nucleus of acinar cells.- Transcriptomics analysis reveals reduced activity of the acinar program and increased activity of pathways involved in ER stress, unfolded protein response, and inflammation.- Mutant mice are sensitized to pancreatic damage and do not recover properly from a mild caerulein-induced pancreatitis.- TUDCA administration partially relieves the ER stress in mutant mice. How might it impact on clinical practice in the foreseeable future?: - The new mouse model provides a tool to identify the mechanisms leading to increased pancreatic cancer risk in CTRB2 exon 6 carriers. - The findings suggest that drugs that cause ER stress relief and/or reduce inflammation might provide preventive opportunities.- Published
- 2024
- Full Text
- View/download PDF
5. BPTF cooperates with MYCN and MYC to link neuroblastoma cell cycle control to epigenetic cellular states.
- Author
-
Felipe I, Martínez-de-Villarreal J, Patel K, Martínez-Torrecuadrada J, Grossmann LD, Roncador G, Cubells M, Farrell A, Kendsersky N, Sabroso-Lasa S, Sancho-Temiño L, Torres K, Martinez D, Perez JM, García F, Pogoriler J, Moreno L, Maris JM, and Real FX
- Abstract
The nucleosome remodeling factor BPTF is required for the deployment of the MYC-driven transcriptional program. Deletion of one Bptf allele delays tumor progression in mouse models of pancreatic cancer and lymphoma. In neuroblastoma, MYCN cooperates with the transcriptional core regulatory circuitry (CRC). High BPTF levels are associated with high-risk features and decreased survival. BPTF depletion results in a dramatic decrease of cell proliferation. Bulk RNA-seq, single-cell sequencing, and tissue microarrays reveal a positive correlation of BPTF and CRC transcription factor expression. Immunoprecipitation/mass spectrometry shows that BPTF interacts with MYCN and the CRC proteins. Genome-wide distribution analysis of BPTF and CRC in neuroblastoma reveals a dual role for BPTF: 1) it co-localizes with MYCN/MYC at the promoter of genes involved in cell cycle and 2) it co-localizes with the CRC at super-enhancers to regulate cell identity. The critical role of BPTF across neuroblastoma subtypes supports its relevance as a therapeutic target.
- Published
- 2024
- Full Text
- View/download PDF
Catalog
Discovery Service for Jio Institute Digital Library
For full access to our library's resources, please sign in.