Your search keyword '"Awad, Aya"' showing total 7 results

1. Antibiotics damage the colonic mucus barrier in a microbiota-independent manner

Author

Sawaed, Jasmin, Zelik, Lilach, Levin, Yehonatan, Feeney, Rachel, Naama, Maria, Gordon, Ateret, Zigdon, Mor, Rubin, Elad, Telpaz, Shahar, Modilevsky, Sonia, Ben-Simon, Shira, Awad, Aya, Harshuk-Shabso, Sarina, Nuriel-Ohayon, Meital, Werbner, Michal, Schröder, Björn, Erez, Amir, Bel, Shai, Sawaed, Jasmin, Zelik, Lilach, Levin, Yehonatan, Feeney, Rachel, Naama, Maria, Gordon, Ateret, Zigdon, Mor, Rubin, Elad, Telpaz, Shahar, Modilevsky, Sonia, Ben-Simon, Shira, Awad, Aya, Harshuk-Shabso, Sarina, Nuriel-Ohayon, Meital, Werbner, Michal, Schröder, Björn, Erez, Amir, and Bel, Shai

Abstract

Antibiotic use is a risk factor for development of inflammatory bowel diseases (IBDs). IBDs are characterized by a damaged mucus layer, which does not separate the intestinal epithelium from the microbiota. Here, we hypothesized that antibiotics affect the integrity of the mucus barrier, which allows bacterial penetrance and predisposes to intestinal inflammation. We found that antibiotic treatment led to breakdown of the colonic mucus barrier and penetration of bacteria into the mucus layer. Using fecal microbiota transplant, RNA sequencing followed by machine learning, ex vivo mucus secretion measurements, and antibiotic treatment of germ-free mice, we determined that antibiotics induce endoplasmic reticulum stress in the colon that inhibits colonic mucus secretion in a microbiota-independent manner. This antibiotic-induced mucus secretion flaw led to penetration of bacteria into the colonic mucus layer, translocation of microbial antigens into circulation, and exacerbation of ulcerations in a mouse model of IBD. Thus, antibiotic use might predispose to intestinal inflammation by impeding mucus production.

Published

2024

2. Antibiotics damage the colonic mucus barrier in a microbiota-independent manner

Author

Sawaed, Jasmin, Zelik, Lilach, Levin, Yehonatan, Feeney, Rachel, Naama, Maria, Gordon, Ateret, Zigdon, Mor, Rubin, Elad, Telpaz, Shahar, Modilevsky, Sonia, Ben-Simon, Shira, Awad, Aya, Harshuk-Shabso, Sarina, Nuriel-Ohayon, Meital, Werbner, Michal, Schröder, Björn, Erez, Amir, Bel, Shai, Sawaed, Jasmin, Zelik, Lilach, Levin, Yehonatan, Feeney, Rachel, Naama, Maria, Gordon, Ateret, Zigdon, Mor, Rubin, Elad, Telpaz, Shahar, Modilevsky, Sonia, Ben-Simon, Shira, Awad, Aya, Harshuk-Shabso, Sarina, Nuriel-Ohayon, Meital, Werbner, Michal, Schröder, Björn, Erez, Amir, and Bel, Shai

Abstract

Antibiotic use is a risk factor for development of inflammatory bowel diseases (IBDs). IBDs are characterized by a damaged mucus layer, which does not separate the intestinal epithelium from the microbiota. Here, we hypothesized that antibiotics affect the integrity of the mucus barrier, which allows bacterial penetrance and predisposes to intestinal inflammation. We found that antibiotic treatment led to breakdown of the colonic mucus barrier and penetration of bacteria into the mucus layer. Using fecal microbiota transplant, RNA sequencing followed by machine learning, ex vivo mucus secretion measurements, and antibiotic treatment of germ-free mice, we determined that antibiotics induce endoplasmic reticulum stress in the colon that inhibits colonic mucus secretion in a microbiota-independent manner. This antibiotic-induced mucus secretion flaw led to penetration of bacteria into the colonic mucus layer, translocation of microbial antigens into circulation, and exacerbation of ulcerations in a mouse model of IBD. Thus, antibiotic use might predispose to intestinal inflammation by impeding mucus production.

Published

2024

3. Autophagy controls mucus secretion from intestinal goblet cells by alleviating ER stress

Author

Naama, Maria, Telpaz, Shahar, Awad, Aya, Ben-Simon, Shira, Harshuk-Shabso, Sarina, Modilevsky, Sonia, Rubin, Elad, Sawaed, Jasmin, Zelik, Lilach, Zigdon, Mor, Asulin, Nofar, Turjeman, Sondra, Werbner, Michal, Wongkuna, Supapit, Feeney, Rachel, Schröder, Björn O., Nyska, Abraham, Nuriel-Ohayon, Meital, Bel, Shai, Naama, Maria, Telpaz, Shahar, Awad, Aya, Ben-Simon, Shira, Harshuk-Shabso, Sarina, Modilevsky, Sonia, Rubin, Elad, Sawaed, Jasmin, Zelik, Lilach, Zigdon, Mor, Asulin, Nofar, Turjeman, Sondra, Werbner, Michal, Wongkuna, Supapit, Feeney, Rachel, Schröder, Björn O., Nyska, Abraham, Nuriel-Ohayon, Meital, and Bel, Shai

Abstract

Colonic goblet cells are specialized epithelial cells that secrete mucus to physically separate the host and its microbiota, thus preventing bacterial invasion and inflammation. How goblet cells control the amount of mucus they secrete is unclear. We found that constitutive activation of autophagy in mice via Beclin 1 enables the production of a thicker and less penetrable mucus layer by reducing endoplasmic reticulum (ER) stress. Accordingly, genetically inhibiting Beclin 1-induced autophagy impairs mucus secretion, while pharmacologically alleviating ER stress results in excessive mucus production. This ER-stress-mediated regulation of mucus secretion is microbiota dependent and requires the Crohn's-disease-risk gene Nod2. Overproduction of mucus alters the gut microbiome, specifically expanding mucus-utilizing bacteria, such as Akkermansia muciniphila, and protects against chemical and microbial-driven intestinal inflammation. Thus, ER stress is a cell-intrinsic switch that limits mucus secretion, whereas autophagy maintains intestinal homeostasis by relieving ER stress., Appendix on pages e1–e4.

Published

2023

4. Autophagy controls mucus secretion from intestinal goblet cells by alleviating ER stress

Author

Naama, Maria, Telpaz, Shahar, Awad, Aya, Ben-Simon, Shira, Harshuk-Shabso, Sarina, Modilevsky, Sonia, Rubin, Elad, Sawaed, Jasmin, Zelik, Lilach, Zigdon, Mor, Asulin, Nofar, Turjeman, Sondra, Werbner, Michal, Wongkuna, Supapit, Feeney, Rachel, Schröder, Björn O., Nyska, Abraham, Nuriel-Ohayon, Meital, Bel, Shai, Naama, Maria, Telpaz, Shahar, Awad, Aya, Ben-Simon, Shira, Harshuk-Shabso, Sarina, Modilevsky, Sonia, Rubin, Elad, Sawaed, Jasmin, Zelik, Lilach, Zigdon, Mor, Asulin, Nofar, Turjeman, Sondra, Werbner, Michal, Wongkuna, Supapit, Feeney, Rachel, Schröder, Björn O., Nyska, Abraham, Nuriel-Ohayon, Meital, and Bel, Shai

Abstract

Colonic goblet cells are specialized epithelial cells that secrete mucus to physically separate the host and its microbiota, thus preventing bacterial invasion and inflammation. How goblet cells control the amount of mucus they secrete is unclear. We found that constitutive activation of autophagy in mice via Beclin 1 enables the production of a thicker and less penetrable mucus layer by reducing endoplasmic reticulum (ER) stress. Accordingly, genetically inhibiting Beclin 1-induced autophagy impairs mucus secretion, while pharmacologically alleviating ER stress results in excessive mucus production. This ER-stress-mediated regulation of mucus secretion is microbiota dependent and requires the Crohn's-disease-risk gene Nod2. Overproduction of mucus alters the gut microbiome, specifically expanding mucus-utilizing bacteria, such as Akkermansia muciniphila, and protects against chemical and microbial-driven intestinal inflammation. Thus, ER stress is a cell-intrinsic switch that limits mucus secretion, whereas autophagy maintains intestinal homeostasis by relieving ER stress., Appendix on pages e1–e4.

Published

2023

5. Autophagy controls mucus secretion from intestinal goblet cells by alleviating ER stress

Author

Naama, Maria, Telpaz, Shahar, Awad, Aya, Ben-Simon, Shira, Harshuk-Shabso, Sarina, Modilevsky, Sonia, Rubin, Elad, Sawaed, Jasmin, Zelik, Lilach, Zigdon, Mor, Asulin, Nofar, Turjeman, Sondra, Werbner, Michal, Wongkuna, Supapit, Feeney, Rachel, Schröder, Björn O., Nyska, Abraham, Nuriel-Ohayon, Meital, Bel, Shai, Naama, Maria, Telpaz, Shahar, Awad, Aya, Ben-Simon, Shira, Harshuk-Shabso, Sarina, Modilevsky, Sonia, Rubin, Elad, Sawaed, Jasmin, Zelik, Lilach, Zigdon, Mor, Asulin, Nofar, Turjeman, Sondra, Werbner, Michal, Wongkuna, Supapit, Feeney, Rachel, Schröder, Björn O., Nyska, Abraham, Nuriel-Ohayon, Meital, and Bel, Shai

Abstract

Colonic goblet cells are specialized epithelial cells that secrete mucus to physically separate the host and its microbiota, thus preventing bacterial invasion and inflammation. How goblet cells control the amount of mucus they secrete is unclear. We found that constitutive activation of autophagy in mice via Beclin 1 enables the production of a thicker and less penetrable mucus layer by reducing endoplasmic reticulum (ER) stress. Accordingly, genetically inhibiting Beclin 1-induced autophagy impairs mucus secretion, while pharmacologically alleviating ER stress results in excessive mucus production. This ER-stress-mediated regulation of mucus secretion is microbiota dependent and requires the Crohn's-disease-risk gene Nod2. Overproduction of mucus alters the gut microbiome, specifically expanding mucus-utilizing bacteria, such as Akkermansia muciniphila, and protects against chemical and microbial-driven intestinal inflammation. Thus, ER stress is a cell-intrinsic switch that limits mucus secretion, whereas autophagy maintains intestinal homeostasis by relieving ER stress., Appendix on pages e1–e4.

Published

2023

6. Autophagy controls mucus secretion from intestinal goblet cells by alleviating ER stress

Author

Naama, Maria, Telpaz, Shahar, Awad, Aya, Ben-Simon, Shira, Harshuk-Shabso, Sarina, Modilevsky, Sonia, Rubin, Elad, Sawaed, Jasmin, Zelik, Lilach, Zigdon, Mor, Asulin, Nofar, Turjeman, Sondra, Werbner, Michal, Wongkuna, Supapit, Feeney, Rachel, Schröder, Björn O., Nyska, Abraham, Nuriel-Ohayon, Meital, Bel, Shai, Naama, Maria, Telpaz, Shahar, Awad, Aya, Ben-Simon, Shira, Harshuk-Shabso, Sarina, Modilevsky, Sonia, Rubin, Elad, Sawaed, Jasmin, Zelik, Lilach, Zigdon, Mor, Asulin, Nofar, Turjeman, Sondra, Werbner, Michal, Wongkuna, Supapit, Feeney, Rachel, Schröder, Björn O., Nyska, Abraham, Nuriel-Ohayon, Meital, and Bel, Shai

Abstract

Colonic goblet cells are specialized epithelial cells that secrete mucus to physically separate the host and its microbiota, thus preventing bacterial invasion and inflammation. How goblet cells control the amount of mucus they secrete is unclear. We found that constitutive activation of autophagy in mice via Beclin 1 enables the production of a thicker and less penetrable mucus layer by reducing endoplasmic reticulum (ER) stress. Accordingly, genetically inhibiting Beclin 1-induced autophagy impairs mucus secretion, while pharmacologically alleviating ER stress results in excessive mucus production. This ER-stress-mediated regulation of mucus secretion is microbiota dependent and requires the Crohn's-disease-risk gene Nod2. Overproduction of mucus alters the gut microbiome, specifically expanding mucus-utilizing bacteria, such as Akkermansia muciniphila, and protects against chemical and microbial-driven intestinal inflammation. Thus, ER stress is a cell-intrinsic switch that limits mucus secretion, whereas autophagy maintains intestinal homeostasis by relieving ER stress., Appendix on pages e1–e4.

Published

2023

7. Autophagy controls mucus secretion from intestinal goblet cells by alleviating ER stress

Author

Naama, Maria, Telpaz, Shahar, Awad, Aya, Ben-Simon, Shira, Harshuk-Shabso, Sarina, Modilevsky, Sonia, Rubin, Elad, Sawaed, Jasmin, Zelik, Lilach, Zigdon, Mor, Asulin, Nofar, Turjeman, Sondra, Werbner, Michal, Wongkuna, Supapit, Feeney, Rachel, Schröder, Björn O., Nyska, Abraham, Nuriel-Ohayon, Meital, Bel, Shai, Naama, Maria, Telpaz, Shahar, Awad, Aya, Ben-Simon, Shira, Harshuk-Shabso, Sarina, Modilevsky, Sonia, Rubin, Elad, Sawaed, Jasmin, Zelik, Lilach, Zigdon, Mor, Asulin, Nofar, Turjeman, Sondra, Werbner, Michal, Wongkuna, Supapit, Feeney, Rachel, Schröder, Björn O., Nyska, Abraham, Nuriel-Ohayon, Meital, and Bel, Shai

Abstract

Colonic goblet cells are specialized epithelial cells that secrete mucus to physically separate the host and its microbiota, thus preventing bacterial invasion and inflammation. How goblet cells control the amount of mucus they secrete is unclear. We found that constitutive activation of autophagy in mice via Beclin 1 enables the production of a thicker and less penetrable mucus layer by reducing endoplasmic reticulum (ER) stress. Accordingly, genetically inhibiting Beclin 1-induced autophagy impairs mucus secretion, while pharmacologically alleviating ER stress results in excessive mucus production. This ER-stress-mediated regulation of mucus secretion is microbiota dependent and requires the Crohn's-disease-risk gene Nod2. Overproduction of mucus alters the gut microbiome, specifically expanding mucus-utilizing bacteria, such as Akkermansia muciniphila, and protects against chemical and microbial-driven intestinal inflammation. Thus, ER stress is a cell-intrinsic switch that limits mucus secretion, whereas autophagy maintains intestinal homeostasis by relieving ER stress., Appendix on pages e1–e4.

Published

2023