Pontifical Catholic University of Puerto Rico

This article surveys recent studies about John the Baptist, focusing on disputed issues in contemporary research about this historical figure. After briefly reviewing the history of research as a framework for this survey, a presentation of the major contributions on John during the last decades follows. The article then reports on the status quaestionis of some still debated subjects related to the Baptist, such as the content of his message, portrayal as Elijah, relationship to Jesus, baptism, the account in Josephus, association with the Essenes/Qumran, and other minor matters. The work concludes by assessing what the author considers the most important research shifts and contributions of studies on John the Baptist in recent scholarship.

Inflammatory Bowel Disease (IBD), either Crohn’s disease or Ulcerative Colitis, are diseases characterized by chronic inflammation of the gastrointestinal tract, disruption of mucosal barrier, gut dysbiosis and vitamin D deficiency. The use of probiotics or vitamin D supplements have been studied individually in different colitis models to determine their beneficial effects by increasing tight junction proteins such as occludin. However, the synergistic effects of combining these treatments to target tight junction expression are still unknown. Therefore, the objective of this research was to demonstrate the effcacy of probiotics and high dietary vitamin D to ameliorate colonic inflammation by increasing mucosal barrier integrity. We hypothesized that co-administration of a probiotic mixture with vitamin D would reduce colitis-induced inflammation by increasing tight junction expression. For the methodology, male and female C57BL/6 mice were divided into four treatment groups: Colitis+Vehicle (n=10), Colitis+Probiotic (n=10), Colitis+Vitamin D (n=11), Colitis+Probiotic+Vitamin D (n=7). Animals received seven days of pretreatment with Vivomixx probiotics in water, high vitamin D (5IU/g) in food, or both. On day 7, animals were anesthetized lightly, and colitis induction was done by intracolonic administration of 0.1mL of 4mg TNBS in 30% ethanol. Water, food, and body weight were monitored daily. Animals were sacrificed on day ten, the colonic tissue was removed and assessed for inflammation then stained for occludin expression by immunofluorescence, and probiotic colonization was confirmed within fecal samples by RT-PCR amplification of S. Thermophilus gene. Results indicate that all animals decreased weight after colitis induction, but only animals receiving probiotic had a slight recovery by day 10. Animals receiving the probiotic mixture had higher S. Thermophilus expression in fecal samples compared to vehicle (p<0.001) indicating appropriate colonization. A significant reduction in macroscopic damage score (3.92 vs. 7.42, p<0.05) and microscopic score (3.42 vs 7.20, p<0.01) was found in animals with Probiotic+Vitamin D compared to vehicle. Although an increase in occludin expression was observed with probiotic administration it did not reach statistical significance. In conclusion, findings indicate a beneficial effect of combining probiotics and vitamin D on colonic tissue damage in an animal model of acute colitis but this did not impact the tight junction protein occludin. This work was supported by RISE (R25GM082406), G-RISE (T32GM144896), PRI MD Summer Program and Porter Physiology Development Fellowship. This is the full abstract presented at the American Physiology Summit 2024 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.

This article analyzes how the practice of cascading disaster responses and the relative erasure of increasing cases of gender‐based violence (GBV), including feminicidio, or feminicide, by the government in Puerto Rico evidence the structural and regularly reproduced vulnerability of marginalized populations. Drawn from fieldwork in southwestern Puerto Rico between 2019 and 2020, this essay juxtaposes the lived experience of frontline GBV service providers with the relative absence of GBV from the public record until 2022. For activists and scholars, the prevalence of GBV and its relative exclusion from state discourse and records is rooted in ideological, cultural, and operational concerns: operationally, GBV is too often excluded from planned disaster response. Culturally, state‐supplied statistics on GBV minimized and otherwise naturalized GBV into a cultural norm or reality‐to‐be‐expected. Ideologically, the exclusion of GBV is also tied to the colonial relationship between Puerto Rico and the United States. We argue that GBV and its relative exclusion from the public record sustains high levels of violence that have already fueled notable public protest and the constrained working conditions of GBV frontline service providers. The article's focus on frontline worker experiences highlights their important role at the forefront of decision‐making on how to mitigate GBV during and in the wake of cascading disasters.

Introduction: Clinical and preclinical research on cocaine use disorder (CUD) has shown that sex differences in drug seeking are influenced by hormonal fluctuations. Estradiol (E2), a sex steroid hormone, has been linked to female drug effects, vulnerability to use/abuse, and psychosocial factors. Preclinical studies show that estradiol in females facilitates the extinction of cocaineseeking behavior indicating a possible role in regulating extinction learning. Similar to females, males’ brains contain the aromatase enzyme which converts testosterone to estradiol. However, it is unclear whether estradiol plays a role in male extinction learning as it does in females. Furthermore, how endogenously aromatized estradiol affects drug addiction in males is unknown. Therefore, this study investigated whether endogenous estradiol regulates cocaine seeking in male rats. We hypothesized that decreased aromatase enzyme activity, resulting in decreased estradiol synthesis in male brains, will impair extinction learning leading to increased cocaine-seeking behavior. Methods: This hypothesis was tested using cocaine-conditioned place preference (CPP), and short access self-administration (SA), followed by extinction and reinstatement. Before each extinction session for CPP or SA, male rats received an injection of either 1 (low dose) or 2.5 mg/kg (high dose) of the aromatase inhibitor Fadrozole (FAD), or vehicle. Results: FAD groups showed dose-dependent effects on cocaine-seeking behavior compared to the vehicle group during CPP extinction. Specifically, low dose FAD facilitated extinction of cocaine CPP, whereas high dose FAD impaired it. In contrast, neither dose of FAD had any effects on the extinction of cocaine SA. Interestingly, only the low dose FAD group had decreased active lever pressing during cue- and cocaine-primed reinstatement compared to the vehicle group. Neither dose of FAD had an effect on sucrose extinction or reinstatement of sucrose seeking. Discussion: These results from CPP experiments suggest that estradiol may impact extinction learning, as a low dose of FAD may strengthen the formation of cocaine extinction memory. Additionally, in male rats undergoing cocaine SA, the same low dose of aromatase inhibitor effectively reduced reinstatement of cocaine-seeking behavior. Thus, estradiol impacts cocaine seeking and extinction in both males and females, and it may also influence the development of sex-specific treatment strategies for CUD. KEYWORDS cocaine, estradiol, conditioned place preference, extinction, self-administration, rats, aromatase inhibitor

Musa spp. (banana and plantain) is the most widely consumed and exported fruit globally, and it plays a crucial role in the diets of billions of people worldwide. Over the years, many diseases have threatened this crop, including the recent emergence of Fusarium wilt, caused by Fusarium oxysporum race 4. Puerto Rico is home to numerous economically significant variants of Musa spp. Due to the crop's importance in the island's economy and nutrition, research on maintaining existing varieties and developing new ones has been initiated. Although Fusarium oxysporum f.sp. cubense race 4 has not been detected in Puerto Rico, it has been detected in the Caribbean region. Therefore, it is essential to know both the plant and the pathogen to prevent and fight this disease. This review summarizes information about Musa spp, including its plant description, morphology, and genetic characteristics. Furthermore, it covers information about Fusarium sp., its pathogenicity, detection methods, and prevention of its spread. We also reviewed the few articles published for the island of Puerto Rico about Musa and Fusarium, and the guidelines suggested regarding the threat of the Fusarium wilt race 4 for the island. Finally, we underline Puerto Rico's opportunities to develop disease-resistant Musa cultivars.

Post-traumatic stress disorder (PTSD) is a neuropsychiatric disorder that not only entails alterations in fear behavior and anxiety but also includes neuroendocrine dysfunctions involving the hypothalamic pituitary adrenal (HPA) axis and the renin-angiotensin system. Recent preclinical studies demonstrate that activation of the angiotensin type 1 receptor (AT1R) in the paraventricular region of the hypothalamus (PVR) promotes anxiety-like behaviors and enables microglia proliferation. An increase in microglia and anxiety-like behavior also occurs in the PTSD animal model single-prolonged stress (SPS). In the present study, we tested whether AT1Rs contribute to the effects of SPS on behavior and microglia in brain structures important for HPA axis regulation and fear behavior. To test this, male and female animals were exposed to SPS and then given the oral AT1R antagonist candesartan beginning one week later. Candesartan did not alter auditory fear conditioning or extinction in SPS-exposed male or female animals. However, we found that the male animals exposed to SPS showed increased anxiety-like behavior, which was reversed by candesartan. In contrast, neither SPS nor candesartan altered anxiety-like behavior in the female animals. At the molecular level, SPS increased the cellular expression of AT1Rs in the PVR of male animals and candesartan reversed this effect, whereas AT1Rs in the PVR of females were unaltered by either SPS or candesartan. Iba1-expressing microglia increased in the PVR after SPS exposure and was reversed by candesartan in both sexes suggesting that SPS stimulates AT1Rs to increase microglia in the PVR. Collectively, these results suggest that the contribution of AT1Rs to the molecular and behavioral effects of SPS is sex-dependent. DATA AVAILABILITY: Data will be made available upon request.

Azo dyes such as Tropaeolin O have diverse applications in the textile, food, and biomedical industries. However, their recalcitrant properties make them toxic substances in surface waters. Nanocatalysts are photoactive nanoparticles that generate reactive oxygen species to destroy organic compounds. Moreover, the presence of dopant agents in the nanoparticles’ crystalline structure efficiently enhances photocatalytic activity. Ag-doped ZnO nanoparticles were prepared in ethylene glycol at 197 °C and characterized by UV-Vis absorption, photoluminescence, high-resolution transmission electron microscopy (HRTEM), energy dispersive X-ray spectroscopy (EDX), and electron diffraction (ED). The particles were mainly spherical with a size of ~10 nm, a hexagonal structure, and an elemental composition of 56.2% Zn, 37.8% O, and 5.9% Ag. The particles evidenced a broad absorption peak in the UV region and two emission peaks. Absorption analysis indicates that 92% and 58% of Tropaeolin O were degraded using 100 and 50 ppm of Ag-doped ZnO nanoparticles, respectively, during the first 550 min. Ion chromatograms selected using quadrupole time-of-flight liquid chromatography-mass spectrometry (QTOF-LC-MS) indicate a complete Tropaeolin O degradation (295.04 m/z) during the first 330 min. Initially, the nanocatalyst attacks the electron-rich groups (-OH and -NH), generating the 277.03 m/z [M-OH]+ and 174.02 m/z (molecule rupture on the azo group). In addition, small oxidized fragments 167.03 m/z and 114.03 m/z confirm the nanoparticles’ photocatalytic capacity, and oxidized chains indicate the tropaeolin’s opening rings (including phtalic acids) and mineralization.

Cryptococcus gattii is a pathogenic yeast, member of the C. neoformans/gattii complex. Previous work from our laboratory has established the presence of C. gattii on cacti lesions, providing proof that it can grow in a stressful environment. However, it is not known which part of the cactus the yeast uses for nutrients. The purpose of this research is to determine the ability of C. gattii to grow in different parts of the cactus to assess how the yeast adapts to grow in this unique environment. Cactus media were developed using the outer, inner, and whole cactus from Pilosocereus spp. Cryptcoccus gattii was grown on the different cactus media, along with potato dextrose agar as a control for 24 and 48 h at 30 °C. Compared to the control medium, yeast growth was reduced in all cactus media, while an increase in the capsule development of the yeast grown in the inner part and the whole-cactus media was observed. Interestingly, the yeast produces melanin when grown in the outer membrane medium, which was dependent on laccase, suggesting that the outer membrane may contain a precursor that stimulatates pigment production. To our knowledge, this is the first study addressing these key differences in the growth of C. gattii on different parts of the cactus.

Endometriosis is a gynecological disorder characterized by the growth of endometrial tissue in areas outside the uterus. Previous studies in our laboratory demonstrated that endometriosis animals have increased mesenteric adipose tissue (MAT), inflammation, and implanted endometrial vesicles, which are all decreased by voluntary exercise. Interestingly, the levels of Uncoupling Protein 1 (UCP-1), a mitochondrial protein, are known to be increased by exercise promoting thermogenesis, and decreasing inflammation in rodents. However, the possible role of UCP-1 in endometriosis is still unclear. Our aim was to study the effects of exercise on UCP-1 in MAT near the endometrial implants in an endometriosis rat model. Hypothesis: UCP-1 increases due to exercise decreasing the MAT and thus beneficially impacts the endometrial vesicles. Methods: Endometriosis was induced by implanting uterine tissue on the intestinal mesentery in young adult female Sprague Dawley rats where the control group only received sutures. Exercise rats had access to a running wheel after induction: ENDO-EX or SHAM-EX, while non-exercised animals didn’t (ENDO and SHAM; n=10=11/group). After sixty days of intervention, animals were sacrificed and UCP-1 immunofluorescent staining was performed on collected MAT near the vesicles (ENDO, n=3; ENDO-EX, n=3; SHAM, n=4; SHAM-EX, n=4). Results: The vesicles from ENDO-EX animals had significantly decreased average weight (p<0.05) and smaller average total area (p<0.01) compared with the ENDO group. UCP-1 staining shows a trend to increase in exercise groups when compared to non-exercise groups. Interestingly, there is a moderate negative correlation between UCP-1 expression and vesicle size (r=-.69). Conclusions: Exercise is related to increasing the UCP-1 pathways in MAT that may be associated with decreasing the size of the endometrial vesicle implants. Supported by R15AT009915 and HRD-2008186. This is the full abstract presented at the American Physiology Summit 2023 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.

Propolis is a resinous material produced by honeybees from different plant sources and used in the hive as a building material and to protect the colony from parasites and pathogens. Despite its antimicrobial properties, recent studies showed that propolis hosts diverse microbial strains, some with great antimicrobial potential. In this study, the first description of the bacterial community of propolis produced by the gentle Africanized honeybee was reported. Propolis was sampled from hives of two different geographic areas of Puerto Rico (PR, USA), and the associated microbiota investigated by both cultivation and metataxonomic approaches. Metabarcoding analysis showed appreciable bacterial diversity in both areas and statistically significant dissimilarity in the taxa composition of the two areas, probably due to the different climatic conditions. Both metabarcoding and cultivation data revealed the presence of taxa already detected in other hive components and compatible with the bee’s foraging environment. Isolated bacteria and propolis extracts showed antimicrobial activity against Gram-positive and Gram-negative bacterial tester strains. These results support the hypothesis that the propolis microbiota could contribute to propolis’ antimicrobial properties.

The prevalence of chronic medical conditions is associated with biological, behavioral, and social factors. In Puerto Rico (PR), events such as budget cuts to essential services in recent years have contributed to deepening health disparities. This study aimed to explore community perceptions, opinions, and beliefs about chronic health conditions in the southern region of Puerto Rico. Framed by a Community-Based Participatory Research (CBPR) approach, this qualitative study developed eight focus groups (n = 59) with adults (age of 21 or older) from southern Puerto Rico, in person and remotely, during 2020 and 2021. Eight open-ended questions were used for discussions, which were recorded, transcribed, and analyzed via computer analysis. Content analysis revealed four main dimensions: knowledge, vulnerabilities, barriers, and identified resources. Relevant topics included: concerns about mental health—depression, anxiety, substance use, and suicide; individual vulnerabilities—risk behaviors, and unhealthy habits; economic factors—health access and commercialization of health. Resource identification was also explored, and participants discussed the importance of alliances between public and private sectors. These topics were addressed across all focus groups, with various recommendations. The results highlight the importance of prioritizing identified community needs, evaluating available resources, and promoting tailored-made interventions to reduce risk factors for chronic health conditions.

Quantum dots (QDs) have different properties: high electron density, magnetic moment, phosphorescence, photoluminescence (fluorescence), and strong optical absorption. The layer or ligands on the QDs surface has a vital role because they allow the stabilization and practical uses on different matrixes. Ligand exchange is a commonly carried out methodology to incorporate functional groups that alter the solubility, introduce electron transfer partners, integrate biological receptors, or improve the properties of the QDs surface. CdSSe QDs were synthesized using a microwave system using thioglycolic acid (TGA) as a sulfur source and cover agent. The TGA ligand was interchanged with cysteine (Cys), glutamic acid (GA), glutathione (GTO), glutaraldehyde (GLT), and lysine (Lys). The viability and response of the CYP1A1, CYP1A2, and CYP3A4 isoenzymes were directly measured in HEP-G2 cells after exposure to CdSSe-TGA, CdSSe-Cys, CdSSe-GA, CdSSe-GTO, CdSSe-GLT, and CdSSe-Lys. CdSSe and CdSSe-GTO (10 mg/L) decrease viability by around 65%. The response of the cytochrome isoenzymes is based on the organic ligand on the surface of the CdSSe QDs. Changes in CYP 1A1 could be related to carcinogenic xenobiotics. Fluorescence microscopy shows CdSSe QDs on and inside HEPG2 cells. The results confirm that apoptosis and necrosis are the principal mechanisms of decreased viability.

In the last few years, quantum dots (QDs) have attracted research interest in different fields of science and technology. Despite their applications, it is essential to understand how nanomaterials (with different crystal sizes) are metabolized inside organisms. Thus, the focus of this study was on an evaluation of how crystal sizes of CdSTe QDs affect the viability and response of the cytochrome P450 system in CHO-K1 and HEP-G2 cells. CdSTe QDs were synthesized using a microwave-assisted system at different reaction temperatures (60, 120, 150, and 180 °C) to obtain different crystal sizes. The optical and structural characterization confirmed four crystal sizes from 3 to 8 nm. Fluorescence microscopy confirmed that CdSTe QDs are incorporated into both cell lines. Viability studies suggested that CHO-K1 cells are more sensitive than HEP-G2 cells to CdSTe QDs and Cd+2 ions. The responsible mechanisms for the toxicity of QDs and Cd+2 are apoptosis followed by necrosis. The activity of CYP 1A1, 1A2, and 3A4 isoenzymes suggests that the smallest CdSTe crystals are recognized in a manner similar to that of Cd+2. Furthermore, the largest CdSTe crystals can have different metabolic routes than Cd+2.

Paul Farmer was a physician, medical anthropologist, and social justice activist. Although influenced by theology of liberation, he was not a professional theologian. Nonetheless, this chapter presents Farmer as a model for the theological ethicist. He presents a dual form of modeling: analytical and praxical. His use of social analysis to uncover the structural causes of impoverishment and exclusion provides a model for the analysis that theological ethicists are called to articulate in an acutely divided and unfair world. Farmer’s modeling is not limited to the analytical or strictly scholarly dimension of the theologian’s work. The main thrust of both his life’s work and his modelling is praxical: a life committed to service, advocacy, and activism at the service of the impoverished. Famer undertook his intellectual work and social analysis within the broader context of an existential commitment to social transformation and justice. He was a paradigm of what Antonio Gramsci called an organic intellectual. The organic intellectual is actively engaged in the construction of a new society. As an organic intellectual, Farmer becomes a praxical model for the theologian. Neutrality is not an option for someone who aspires to a life of authenticity in the footsteps of Jesus.