Nusrat Rahman - Academia.edu (original) (raw)

Papers by Nusrat Rahman

Bangladesh Journal of Obstetrics & Gynaecology, 2013

The plethora of treatment modalities available for the treatment of female stress urinary incont... more The plethora of treatment modalities available for the treatment of female stress urinary incontinence reflects the uncertainty in the pathophysiology of this condition and the mechanism of cure. No single treatment method is suitable for all patients. For best results, many factors must be considered before choosing the treatment method most suited to the particular patient. This review examines the various treatment options available and attempts to set out criteria for choice of treatment. The role of conservative treatment has been deliberately highlighted especially for young and well motivated women with mild to moderate urinary stress incontinence before surgical treatment is used. The role and limitations of well established surgical procedures like Burch colposuspension and urethroplasty and the most recently introduced procedures like TVT/TOT,collagen implants ,laparascopic colposuspension and the role of artificial urinary sphinter are also examined DOI: http://...

Life Science Alliance

The 1:1 balance between the numbers of large and small ribosomal subunits can be disturbed by mut... more The 1:1 balance between the numbers of large and small ribosomal subunits can be disturbed by mutations that inhibit the assembly of only one of the subunits. Here, we have investigated if the cell can counteract an imbalance of the number of the two subunits. We show that abrogating 60S assembly blocks 40S subunit accumulation. In contrast, cessation of the 40S pathways does not prevent 60S accumulation, but does, however, lead to fragmentation of the 25S rRNA in 60S subunits and formation of a 55S ribosomal particle derived from the 60S. We also present evidence suggesting that these events occur post assembly and discuss the possibility that the turnover of subunits is due to vulnerability of free subunits not paired with the other subunit to form 80S ribosomes.

Cell fate is susceptible to several internal and external stresses. Stress resulting from mutatio... more Cell fate is susceptible to several internal and external stresses. Stress resulting from mutations in genes for ribosomal proteins and assembly factors leads to many congenital diseases, collectively called ribosomopathies. Even though such mutations all depress the cell’s protein synthesis capacity, they are manifested in many different phenotypes. This prompted us to use Saccharomyces cerevisiae to explore whether reducing the protein synthesis capacity by different mechanisms result in the same or different changes to the global transcriptome. We have compared the transcriptome after abolishing the assembly of new ribosomes and inhibiting the translocation of ribosomes on the mRNA. Our results show that these alternate obstructions generate different mosaics of expression for several classes of genes, including genes for ribosomal proteins, mitotic cell cycle, cell wall synthesis, and protein transport.

PLOS ONE, Jan 27, 2020

Inhibition of the synthesis of an essential ribosomal protein (r-protein) abrogates the assembly ... more Inhibition of the synthesis of an essential ribosomal protein (r-protein) abrogates the assembly of its cognate subunit, while assembly of the other subunit continues. Ribosomal components that are not stably incorporated into ribosomal particles due to the disrupted assembly are rapidly degraded. The 60S protein uL18/L5 is an exception and this protein accumulates extra-ribosomally during inhibition of 60S assembly. Since the r-proteins in each ribosomal subunit are essential only for the formation of their cognate subunit, it would be predicted that accumulation of extra-ribosomal uL18/L5 is specific to restriction of 60S assembly and does not occur abolition of 40S assembly. Contrary to this prediction, we report here that repression of 40S r-protein genes does lead to accumulation of uL18/L5 outside of the ribosome. Furthermore, the effect varies depending on which 40S ribosomal protein is repressed. Our results also show extra-ribosomal uL18/L5 is formed during 60S assembly, not during degradation of mature cytoplasmic 60S subunits. Finally, we propose a model for the accumulation of extra-ribosomal uL18 in response to the abolition of 40S r-proteins.

Interaction between the assembly of the ribosomal subunits: Disruption of 7 40S ribosomal assembl... more Interaction between the assembly of the ribosomal subunits: Disruption of 7 40S ribosomal assembly causes accumulation of extra-ribosomal 60S 8

PLOS ONE, Oct 13, 2017

Abrogation of ribosome synthesis (ribosomal stress) leads to cell cycle arrest. However, the imme... more Abrogation of ribosome synthesis (ribosomal stress) leads to cell cycle arrest. However, the immediate cell response to cessation of ribosome formation and the transition from normal cell proliferation to cell cycle arrest have not been characterized. Furthermore, there are conflicting conclusions about whether cells are arrested in G2/M or G1, and whether the cause is dismantling ribosomal assembly per se, or the ensuing decreased number of translating ribosomes. To address these questions, we have compared the time kinetics of key cell cycle parameters after inhibiting ribosome formation or function in Saccharomyces cerevisiae. Within one-to-two hours of repressing genes for individual ribosomal proteins or Translation Elongation factor 3, configurations of spindles, spindle pole bodies began changing. Actin began depolarizing within 4 hours. Thus the loss of ribosome formation and function is sensed immediately. After several hours no spindles or mitotic actin rings were visible, but membrane ingression was completed in most cells and Ace2 was localized to daughter cell nuclei demonstrating that the G1 stage was reached. Thus cell division was completed without the help of a contractile actin ring. Moreover, cell wall material held mother and daughter cells together resulting in delayed cell separation, suggesting that expression or function of daughter gluconases and chitinases is inhibited. Moreover, cell development changes in very similar ways in response to inhibition of ribosome formation and function, compatible with the notion that decreased translation capacity contributes to arresting the cell cycle after abrogation of ribosome biogenesis. Potential implications for the mechanisms of diseases caused by mutations in ribosomal genes (ribosomopathies) are discussed.

Bangladesh Journal of Obstetrics & Gynaecology, 2013

The plethora of treatment modalities available for the treatment of female stress urinary incont... more The plethora of treatment modalities available for the treatment of female stress urinary incontinence reflects the uncertainty in the pathophysiology of this condition and the mechanism of cure. No single treatment method is suitable for all patients. For best results, many factors must be considered before choosing the treatment method most suited to the particular patient. This review examines the various treatment options available and attempts to set out criteria for choice of treatment. The role of conservative treatment has been deliberately highlighted especially for young and well motivated women with mild to moderate urinary stress incontinence before surgical treatment is used. The role and limitations of well established surgical procedures like Burch colposuspension and urethroplasty and the most recently introduced procedures like TVT/TOT,collagen implants ,laparascopic colposuspension and the role of artificial urinary sphinter are also examined DOI: http://...

Life Science Alliance

The 1:1 balance between the numbers of large and small ribosomal subunits can be disturbed by mut... more The 1:1 balance between the numbers of large and small ribosomal subunits can be disturbed by mutations that inhibit the assembly of only one of the subunits. Here, we have investigated if the cell can counteract an imbalance of the number of the two subunits. We show that abrogating 60S assembly blocks 40S subunit accumulation. In contrast, cessation of the 40S pathways does not prevent 60S accumulation, but does, however, lead to fragmentation of the 25S rRNA in 60S subunits and formation of a 55S ribosomal particle derived from the 60S. We also present evidence suggesting that these events occur post assembly and discuss the possibility that the turnover of subunits is due to vulnerability of free subunits not paired with the other subunit to form 80S ribosomes.

Cell fate is susceptible to several internal and external stresses. Stress resulting from mutatio... more Cell fate is susceptible to several internal and external stresses. Stress resulting from mutations in genes for ribosomal proteins and assembly factors leads to many congenital diseases, collectively called ribosomopathies. Even though such mutations all depress the cell’s protein synthesis capacity, they are manifested in many different phenotypes. This prompted us to use Saccharomyces cerevisiae to explore whether reducing the protein synthesis capacity by different mechanisms result in the same or different changes to the global transcriptome. We have compared the transcriptome after abolishing the assembly of new ribosomes and inhibiting the translocation of ribosomes on the mRNA. Our results show that these alternate obstructions generate different mosaics of expression for several classes of genes, including genes for ribosomal proteins, mitotic cell cycle, cell wall synthesis, and protein transport.

PLOS ONE, Jan 27, 2020

Inhibition of the synthesis of an essential ribosomal protein (r-protein) abrogates the assembly ... more Inhibition of the synthesis of an essential ribosomal protein (r-protein) abrogates the assembly of its cognate subunit, while assembly of the other subunit continues. Ribosomal components that are not stably incorporated into ribosomal particles due to the disrupted assembly are rapidly degraded. The 60S protein uL18/L5 is an exception and this protein accumulates extra-ribosomally during inhibition of 60S assembly. Since the r-proteins in each ribosomal subunit are essential only for the formation of their cognate subunit, it would be predicted that accumulation of extra-ribosomal uL18/L5 is specific to restriction of 60S assembly and does not occur abolition of 40S assembly. Contrary to this prediction, we report here that repression of 40S r-protein genes does lead to accumulation of uL18/L5 outside of the ribosome. Furthermore, the effect varies depending on which 40S ribosomal protein is repressed. Our results also show extra-ribosomal uL18/L5 is formed during 60S assembly, not during degradation of mature cytoplasmic 60S subunits. Finally, we propose a model for the accumulation of extra-ribosomal uL18 in response to the abolition of 40S r-proteins.

Interaction between the assembly of the ribosomal subunits: Disruption of 7 40S ribosomal assembl... more Interaction between the assembly of the ribosomal subunits: Disruption of 7 40S ribosomal assembly causes accumulation of extra-ribosomal 60S 8

PLOS ONE, Oct 13, 2017

Abrogation of ribosome synthesis (ribosomal stress) leads to cell cycle arrest. However, the imme... more Abrogation of ribosome synthesis (ribosomal stress) leads to cell cycle arrest. However, the immediate cell response to cessation of ribosome formation and the transition from normal cell proliferation to cell cycle arrest have not been characterized. Furthermore, there are conflicting conclusions about whether cells are arrested in G2/M or G1, and whether the cause is dismantling ribosomal assembly per se, or the ensuing decreased number of translating ribosomes. To address these questions, we have compared the time kinetics of key cell cycle parameters after inhibiting ribosome formation or function in Saccharomyces cerevisiae. Within one-to-two hours of repressing genes for individual ribosomal proteins or Translation Elongation factor 3, configurations of spindles, spindle pole bodies began changing. Actin began depolarizing within 4 hours. Thus the loss of ribosome formation and function is sensed immediately. After several hours no spindles or mitotic actin rings were visible, but membrane ingression was completed in most cells and Ace2 was localized to daughter cell nuclei demonstrating that the G1 stage was reached. Thus cell division was completed without the help of a contractile actin ring. Moreover, cell wall material held mother and daughter cells together resulting in delayed cell separation, suggesting that expression or function of daughter gluconases and chitinases is inhibited. Moreover, cell development changes in very similar ways in response to inhibition of ribosome formation and function, compatible with the notion that decreased translation capacity contributes to arresting the cell cycle after abrogation of ribosome biogenesis. Potential implications for the mechanisms of diseases caused by mutations in ribosomal genes (ribosomopathies) are discussed.